A bottle boxing machine
By combining a conveyor plate with a reciprocating conveyor frame, and utilizing a limit plate and a bottle pushing mechanism, the bottle cartoning machine solves the problem of low automation in bottle cartoning equipment, achieves stable conveying and cartoning of bottles, and improves production efficiency and product quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- RUIDAPAI INTELLIGENT EQUIPMENT (KUNSHAN) CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-06-30
AI Technical Summary
Existing bottle packaging equipment has a low degree of automation, which can easily lead to problems such as reversed or misaligned packaging, affecting production efficiency and product quality.
A bottle cartoning machine combining a conveyor tray and a reciprocating conveyor frame was designed. Through the cooperation of a limiting plate and a bottle pushing mechanism, the bottle is ensured to be loaded into the packaging box in one direction. The bottle pushing and folding mechanism improves the level of automation and stability.
It enables efficient and stable conveying and boxing of bottles, improves the automation level and production efficiency of boxing operations, and prevents bottles from being installed backwards or misaligned.
Smart Images

Figure CN224427992U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of packaging equipment technology, and in particular to a bottle cartoning machine. Background Technology
[0002] In the beverage, food, and pharmaceutical industries, bottled products typically need to be rapidly packed into boxes on the production line for packaging, transportation, and sales. Existing bottle-packing equipment usually employs manual or semi-automatic operation, resulting in low efficiency and a tendency for issues such as reverse packing, misalignment, or unstable packing, impacting production efficiency and product quality. Therefore, there is an urgent need for a cartoning machine that is simple in structure, stable in operation, highly automated, and can effectively prevent reverse packing. Utility Model Content
[0003] In view of the shortcomings of the prior art described above, the purpose of this utility model is to provide a bottle cartoning machine to solve the problems of low automation and easy reverse loading in the prior art cartoning machines.
[0004] To achieve the above and other related objectives, this utility model provides a bottle cartoning machine, comprising:
[0005] The conveyor disc includes a rotary feeder and a conveyor belt. The rotary feeder is used to convey bottles onto the conveyor belt for linear transport. The end of the conveyor belt is connected to the feed end of a reciprocating conveyor frame.
[0006] A reciprocating conveyor includes a track and multiple partitions spaced apart on the track, with adjacent partitions forming a receiving groove for accommodating bottles;
[0007] A box frame is provided for stacking multiple empty packaging boxes, and the box frame is also provided with a feeding mechanism for putting down empty packaging boxes;
[0008] A bottle pushing mechanism, located on one side of the reciprocating conveyor, is used to push the bottles in the receiving slot into the empty packaging box;
[0009] The folding mechanism is used to fold the edges of the packaging box containing the bottle.
[0010] In one embodiment of the present invention, the end of the conveyor belt is provided with a first limiting plate, and the first limiting plate has a slot that matches the shape of the upright bottle; the feeding end of the reciprocating conveyor is provided with a second limiting plate, and the second limiting plate has a slot that matches the shape of the tilted bottle, so that the upright bottle on the conveyor belt is conveyed to the reciprocating conveyor in a tilted state.
[0011] In one embodiment of this utility model, the first limiting plate and the second limiting plate are connected by a guide net.
[0012] In one embodiment of the present invention, the bottle pushing mechanism includes a slide rail, a slider, and a push rod. The slide rail is arranged perpendicularly to the reciprocating conveyor frame. The slider is slidably connected to the slide rail and is driven to slide back and forth by a driving mechanism. The push rod is mounted on the slider.
[0013] In one embodiment of the present invention, a driving mechanism for driving the rotation of the rotary conveyor is provided below the rotary conveyor. A first baffle is provided around the outer periphery of the rotary conveyor. A feed inlet and a connection port are respectively opened on the first baffle. The feed end of the conveyor belt is arranged outside the connection port. A second baffle and a third baffle are respectively provided on both sides of the conveyor belt. A guide plate is connected to the end of the second baffle. The guide plate extends from the connection port into the inner side of the first baffle and extends to the feed inlet position. A guide channel is formed between the guide plate and the first baffle.
[0014] In one embodiment of the present invention, the guide plate is in the shape of an arc that matches the curvature of the first baffle.
[0015] In one embodiment of the present invention, a crossbeam is mounted above the rotating conveyor plate, and at least one guide block is mounted on the crossbeam, with a paddle mounted on the guide block.
[0016] As described above, the bottle cartoning machine of this utility model has the following beneficial effects: This utility model achieves efficient and stable conveying and cartoning of bottles through the combination of a conveyor plate and a reciprocating conveyor frame; the bottle pushing mechanism and the folding mechanism work together to improve the automation level and packaging stability of the cartoning operation, significantly increasing production efficiency. Specifically, the different shaped slots on the first and second limiting plates ensure that the bottles are all loaded into the packaging box in one direction, effectively preventing bottles from being loaded backwards or misaligned. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of a bottle cartoning machine disclosed in an embodiment of this utility model.
[0018] Figure 2 This is a top view schematic diagram of a bottle cartoning machine disclosed in an embodiment of this utility model.
[0019] Figure 3 This is a schematic diagram of the structure of the transfer disk disclosed in the embodiments of this utility model.
[0020] Component designation explanation
[0021] 1. Rotary conveyor plate; 11. First baffle; 12. Crossbeam; 13. Guide block; 14. Paddle; 2. Conveyor belt; 21. First limiting plate; 22. Second baffle; 23. Third baffle; 24. Guide plate; 3. Reciprocating conveyor frame; 31. Track; 32. Partition; 33. Second limiting plate; 4. Box frame; 5. Bottle pushing mechanism; 51. Slide rail; 52. Slider; 53. Push rod; 6. Folding mechanism. Detailed Implementation
[0022] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. It should be noted that, unless otherwise specified, the following embodiments and features can be combined with each other.
[0023] Please see Figures 1-2 This utility model provides a bottle cartoning machine, including a conveyor plate, a reciprocating conveyor frame 3, a carton frame 4, a bottle pushing mechanism 5, and a folding mechanism 6. The conveyor includes a rotary conveyor 1 and a conveyor belt 2. The rotary conveyor 1 is used to convey upright bottles onto the conveyor belt 2 for linear transport. The end of the conveyor belt 2 is connected to the feed end of the reciprocating conveyor frame 3, tilting the upright bottles onto the reciprocating conveyor frame. The reciprocating conveyor frame 3 includes a track 31 and multiple partitions 32 spaced apart on the track 31. Adjacent partitions 32 form a receiving groove for storing tilted bottles. The track 31 reciprocates under the drive of the drive mechanism. A box frame 4 is used to stack multiple empty packaging boxes. The box frame 4 is also equipped with a feeding mechanism for placing empty packaging boxes. A bottle pushing mechanism 5 is located on one side of the reciprocating conveyor frame 3 and is used to push the bottles in the receiving groove into the empty packaging boxes. A folding mechanism 6 is used to fold the packaging boxes containing bottles.
[0024] The conveyor belt 2 has a first limiting plate 21 at its end, which has a slot that matches the shape of the upright bottle. The reciprocating conveyor frame 3 has a second limiting plate 33 at its feed end, which has a slot that matches the shape of the bottle in the tilted state. The first limiting plate 21 and the second limiting plate 33 are connected by a guide net so that the upright bottle on the conveyor belt 2 is conveyed to the reciprocating conveyor frame 3 in the tilted state.
[0025] Furthermore, the bottle pushing mechanism 5 includes a slide rail 51, a slider 52, and a push rod 53. The slide rail 51 is arranged perpendicularly to the reciprocating conveyor frame 3. The slider 52 is slidably connected to the slide rail 51 and is driven to slide back and forth by a drive mechanism. The push rod 53 is mounted on the slider 52.
[0026] Further reference Figure 3 The rotary conveyor 1 is provided with a drive mechanism for rotating it below. The rotary conveyor 1 is surrounded by a first baffle 11. The first baffle 11 has a feed inlet and a connection port. The feed end of the conveyor belt 2 is arranged outside the connection port. The two sides of the conveyor belt 2 are provided with a second baffle 22 and a third baffle 23 respectively. The end of the second baffle 22 is connected to a guide plate 24. The guide plate 24 extends from the connection port into the inner side of the first baffle 11 and extends to the feed inlet. A guide channel is formed between the guide plate 24 and the first baffle 11. The guide plate 24 is arc-shaped to match the curvature of the first baffle 11. The bottom of the guide plate 24 does not contact the rotary conveyor 1.
[0027] The rotary conveyor tray 1 can temporarily store the bottles being fed, ensuring that the feeding rate at the end of the conveyor belt 2 is consistent with the cartoning rate on the reciprocating conveyor frame 3, thus preventing bottle blockage due to excessive feeding or empty cartons due to excessive feeding. Furthermore, the rotary conveyor tray 1 is equipped with guide plates 24 and baffle structures, which allow the bottles to be transferred stably and smoothly onto the conveyor belt 2 during transport; the arc-shaped design and guiding channels of the guide plates 24 effectively prevent bottle blockage and tipping.
[0028] Furthermore, a crossbeam 12 is mounted above the rotating conveyor plate 1, and at least one guide block 13 is provided on the crossbeam 12. A paddle 14 is provided on the guide block 13. The paddle 14 structure further improves the stability of bottle conveying and the diversion effect.
[0029] In this embodiment of the utility model, the material feeding mechanism and the folding mechanism 6 inside the box frame 4 both adopt the structures existing in the prior art.
[0030] In summary, this invention achieves efficient and stable bottle conveying and boxing operations through the combination of a conveyor plate and a reciprocating conveyor frame. The bottle pushing mechanism and the folding mechanism work together to improve the automation level and packaging stability of the boxing operation, significantly increasing production efficiency. The different shaped slots on the first and second limiting plates ensure that bottles are loaded into the packaging box in the same direction, effectively preventing bottles from being installed backwards or misaligned. Therefore, this invention effectively overcomes the various shortcomings of existing technologies and has high industrial application value.
[0031] The terms used in this specification, such as "upper", "lower", "left", "right", "front", "back", "middle" and "one", are merely for clarity of description and are not intended to limit the scope of implementation of this utility model. Any changes or adjustments to their relative relationships, without substantially altering the technical content, shall also be considered within the scope of implementation of this utility model.
[0032] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit this utility model. All equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.
Claims
1. A bottle boxing machine characterized by comprising: include: The conveyor disc includes a rotary feeder and a conveyor belt. The rotary feeder is used to convey bottles onto the conveyor belt for linear transport. The end of the conveyor belt is connected to the feed end of a reciprocating conveyor frame. A reciprocating conveyor includes a track and multiple partitions spaced apart on the track, with adjacent partitions forming a receiving groove for accommodating bottles; A box frame is provided for stacking multiple empty packaging boxes, and the box frame is also provided with a feeding mechanism for putting down empty packaging boxes; A bottle pushing mechanism, located on one side of the reciprocating conveyor, is used to push the bottles in the receiving slot into the empty packaging box; The folding mechanism is used to fold the edges of the packaging box containing the bottle.
2. A bottle boxing machine according to claim 1, wherein, The end of the conveyor belt is provided with a first limiting plate, and the first limiting plate has a slot that matches the shape of the upright bottle; the feeding end of the reciprocating conveyor is provided with a second limiting plate, and the second limiting plate has a slot that matches the shape of the tilted bottle, so that the upright bottle on the conveyor belt is conveyed to the reciprocating conveyor in a tilted state.
3. A bottle boxing machine according to claim 2, wherein, The first limiting plate and the second limiting plate are connected by a guide net.
4. A bottle boxing machine according to claim 1, wherein, The bottle pushing mechanism includes a slide rail, a slider, and a pusher rod. The slide rail is arranged perpendicularly to the reciprocating conveyor frame. The slider is slidably connected to the slide rail and is driven to slide back and forth by a drive mechanism. The pusher rod is mounted on the slider.
5. A bottle boxing machine according to claim 1, wherein, The rotary conveyor is provided with a drive mechanism for rotating it below. A first baffle is provided around the outer perimeter of the rotary conveyor. A feed inlet and a connection port are respectively opened on the first baffle. The feed end of the conveyor belt is arranged outside the connection port. A second baffle and a third baffle are respectively provided on both sides of the conveyor belt. A guide plate is connected to the end of the second baffle. The guide plate extends from the connection port into the inner side of the first baffle and extends to the feed inlet position. A guide channel is formed between the guide plate and the first baffle.
6. A bottle boxing machine according to claim 5, wherein, The guide plate is arc-shaped to match the curvature of the first baffle.
7. A bottle boxing machine according to claim 5, wherein, A crossbeam is mounted above the rotating conveyor plate, and at least one guide block is mounted on the crossbeam, with a lever mounted on the guide block.