CN214776870U - Gap bridge type falling box filling machine - Google Patents

Abstract

The utility model belongs to the technical field of packing equipment, in particular to a gap bridge type falling packing machine, which comprises a conveyer belt, wherein the angle of a splitting rail plate is changed through the driving of a motor, so that the gaps of a plurality of splitting guide plates are all fully fed, thereby completing the splitting work of a plurality of batches, packing bottles after splitting are conveyed to a gap bridge type falling platform in a bottling area through the conveyer belt, a linking guide plate is arranged on the platform and corresponds to the splitting guide plate, a gap bridge plate is arranged at the lower part and corresponds to the linking guide plate, packing bottles stand on the gap bridge plate, the falling platform can move up and down through a driving connecting rod, thereby hiding the gap bridge plate under the linking guide plate, leading the packing bottles standing on the gap bridge plate to fall down simultaneously, completing the bottling work, improving the splitting speed, greatly improving the work efficiency, solving the problem that the existing packing machine is generally carried in single column by splitting, the number of the columns is limited, so that the boxing requirement in mass production cannot be met, the progress is influenced, and the efficiency is low and the use is inconvenient.

Description

Gap bridge type falling box filling machine

Technical Field

The utility model relates to a vanning equipment technical field, concretely relates to bridge type whereabouts case packer.

Background

The packaging bottles of products with fixed shapes, such as cans, roll paper and the like, are placed on a conveying belt before being packaged, and then finished beverage bottles are conveyed to a to-be-packaged area in rows and are packaged by workers in order to improve production efficiency.

The existing box filling machine is generally divided into single rows for conveying, the number of the divided rows is limited, the box filling of mass production cannot be met, the progress is influenced, the efficiency is low, the box filling machine is inconvenient to use, the mode that a platform is withdrawn is adopted more, packing materials stand on a plane, when the platform is withdrawn, the falling of the packing materials has time difference, and the positioning and the box filling of multiple rows of products cannot be completed.

SUMMERY OF THE UTILITY MODEL

For solving the problem that provides among the above-mentioned background art, the utility model provides a bridge type whereabouts case packer has and can divide the row in batches, improves vanning speed, characteristics that production efficiency is high.

In order to achieve the above object, the utility model provides a following technical scheme: a gap bridge type falling container loader comprises a conveying belt, a split rail plate is installed above the conveying belt, a plurality of split guide plates are arranged on one side of the split rail plate, the split rail plate comprises a central mounting plate, two side guide plates are fixedly connected to the left side and the right side of the upper end face of the central mounting plate, two gap adjusting screw rod sets are arranged on the upper end faces of the two side guide plates, two blocking cylinders are respectively arranged on the left side of the upper end face of the two side guide plates, a rotating shaft is rotatably connected to the right side of the upper portion of the central mounting plate, a servo split machine is arranged between the two gap adjusting screw rod sets, a synchronous belt is arranged on the left side of the split rail plate, a motor is arranged in front of the synchronous belt, a plurality of split guide plates are arranged on the left side of the synchronous belt, and a gap bridge type falling platform is arranged on the left side of the split guide plates, it is a plurality of divide to be provided with the clamp plate between listed as deflector and the formula of passing a bridge whereabouts platform, formula of passing a bridge whereabouts platform includes the whereabouts support, the top of whereabouts support is provided with a plurality of linking deflectors, and is a plurality of the left side that links up the deflector is provided with a plurality of boards of passing a bridge, and is a plurality of the right side below of a plurality of boards of passing a bridge is provided with the whereabouts deflector, the left side that links up the deflector is provided with the limiting plate, one side of whereabouts support is provided with drive link.

In order to more accurate leading-in branch that corresponds be listed as the deflector clearance, conduct the utility model relates to a pass bridge formula whereabouts case packer is preferred, the hold-in range is by motor drive.

In order to avoid conveyer belt upper end and divide a rail board, divide and be listed as the deflector friction, conduct the utility model relates to a cross bridge formula whereabouts case packer is preferred, divide a rail board, divide a deflector lower extreme all to have the space with the up end of conveyer belt, the line segment face that links up deflector and limiting plate all has the space with the up end of crossing the bridge board, cross the bridge board and link up the deflector and be corresponding relation between two parties to can hide under linking the deflector.

In order to facilitate the material guiding, as the utility model relates to a bridge type whereabouts case packer is preferred, a plurality of the branch is listed as the deflector and is the sharp corresponding relation with linking the deflector.

For convenient controlgear, as the utility model relates to a pass bridge formula whereabouts case packer is preferred, conveyer belt and motor drive are controlled by PLC control system.

Compared with the prior art, the beneficial effects of the utility model are that:

the packing material enters into the split-column track gap formed by the two split-column track plates through the conveying belt, the split-column track is arranged on the central mounting plate, the right side of the central mounting plate is fixed on the rotating shaft, the left side of the central mounting plate is fixed on the synchronous belt driven by the motor, and the split-column track plates rotate along the rotating shaft through the synchronous belt driven by the motor, so that the packing material enters into the different split-column guide plate gaps. The rotation distance of the splitting rail plate is controllable, the gaps between the splitting guide plate and the connecting plate are adjustable, and therefore the split rail plate is suitable for splitting of packing materials with different sizes.

Initially, the packing material gets into a branch and is listed as deflector clearance earlier through dividing the rail board, feed full back, start and block the cylinder, drive the hold-in range through driving motor, withdraw and block the cylinder, make the packing material get into another branch and be listed as deflector clearance, so reciprocal, feed full in proper order, left side packing material is pushed on the gap bridge board by the right side packing material simultaneously, divide multiseriate to distribute in the gap bridge board, the linking baffle, in the space that constitutes with the limiting plate, then start the drive connecting rod who falls the platform with the gap bridge, make fixed gap bridge board simultaneous movement on the gap bridge formula landing platform, and hide in linking track below, stand multiseriate packing material on the gap bridge board simultaneously, fall simultaneously along linking the deflector, get into in the packing carton of below.

To sum up, this kind of gap bridge formula whereabouts case packer has and to divide the row in batches, and there is not the time difference in multiseriate packing material whereabouts, improves vanning speed, reduces the characteristics of vanning error rate.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the whole of the present invention;

FIG. 2 is a view of the overall structure of the present invention;

in the figure, 1, a conveyor belt; 2. splitting rail plates; 21. a blocking cylinder; 22. a bilateral guide plate; 23. a gap adjusting screw rod group; 24. a synchronous belt; 25. a motor; 26. a central mounting plate; 27. a rotating shaft; 28. a servo separator; 3. a split guide plate; 4. pressing a plate; 5. a bridge-crossing type falling platform; 51. connecting the guide plates; 53. A bridge plate; 54. a drop guide plate; 55. a drive link; 56. a drop support; 57. and a limiting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1-2, the present invention provides the following technical solutions: a gap bridge type falling box filling machine comprises a conveying belt 1, a split rail plate 2 is installed above the conveying belt 1, a plurality of split guide plates 3 are arranged on one side of the split rail plate 2, the split rail plate 2 comprises a center mounting plate 26, the left side and the right side of the upper end surface of the center mounting plate 26 are fixedly connected with double-side guide plates 22, two gap adjusting screw rod groups 23 are arranged on the upper end surfaces of the two double-side guide plates 22, two blocking cylinders 21 are respectively arranged on the left sides of the upper end surfaces of the two double-side guide plates 22, a rotating shaft 27 is rotatably connected on the right side above the center mounting plate 26, a servo split machine 28 is arranged between the two gap adjusting screw rod groups 23, a synchronous belt 24 is arranged on the left side of the split rail plate 2, a motor 25 is arranged in front of the synchronous belt 24, a plurality of split guide plates 3 are arranged on the left side of the synchronous belt 24, and a gap bridge type falling platform 5 is arranged on the left side of the plurality of the split guide plates 3, be provided with clamp plate 4 between a plurality of minutes row deflector 3 and the formula of passing a bridge whereabouts platform 5, formula of passing a bridge whereabouts platform 5 includes whereabouts support 56, the top of whereabouts support 56 is provided with a plurality of link up deflector 51, a plurality of left sides that link up deflector 51 are provided with a plurality of boards 53 of passing a bridge, a plurality of boards 53 of passing a bridge's right side below is provided with whereabouts deflector 54, the left side that links up deflector 51 is provided with limiting plate 57, one side of whereabouts support 56 is provided with drive link 55.

In this embodiment: when the packing machine works, a packing bottle enters the inside of the splitting track plate 2 formed by the two bilateral guide plates 22 through the conveying belt 1, the supplied materials are primarily split through the limit of the two bilateral guide plates 22, the gap inside the track formed by the bilateral guide plates 22 can be adjusted through the gap adjusting screw rod group 23, so that the packing machine is suitable for packing materials with different sizes, initially, the conveying belt 1 and the driving motor 25 are started, the splitting track plate 2 arranged on the central mounting plate 26 is driven by the rotating shaft 27 to adjust the direction, the splitting track plate 2 is aligned to the gap of one splitting guide plate 3, when the gap of the splitting guide plate 3 is fully fed, the blocking cylinder 21 is started, meanwhile, the driving motor 25 drives the central mounting plate 26 fixed on the synchronous belt 24 to rotate for a certain angle along the rotating shaft 27, the left side stroke of the splitting track plate 2 is the interval of the splitting guide plates 3, the blocking cylinder 21 is loosened, the packing materials enter the gap of the other splitting guide plate 3, reciprocating in proper order, until feeding all the gaps that divide and be listed as deflector 3 fully, divide and be listed as deflector 3 and can dismantle, the gap can be adjusted, in order to adapt to the packing of equidimension not, the left side packing is promoted by the right side packing through conveyer belt 1 and is got into bridge plate 53 simultaneously, limiting plate 57 and the space that links up deflector 51 and form inside, start clamp plate 4, block the packing behind bridge plate 53, start drive connecting rod 55, promote bridge formula whereabouts platform 5, make be fixed in bridge plate 53 above bridge formula whereabouts platform 5 remove the lower part that links up deflector 51, the packing loses the lower part and supports behind bridge plate 53, fall simultaneously along linking deflector 51, enter the carton, drive connecting rod 55 drives bridge formula whereabouts platform 5 and resets, carry out next cycle, accomplish production with this is reciprocal.

As a technical optimization of the present invention, the synchronous belt 24 is driven by a motor 25.

In this embodiment: the driving motor 25 drives the central mounting plate 26 fixed on the synchronous belt 24 to rotate along the rotating shaft 27 by a certain angle, so that the left side stroke of the splitting rail plate 2 is the distance of the splitting guide plates 3.

As a technical optimization scheme, divide and be listed as rail board 2, divide and be listed as 3 lower extremes of deflector all with the up end of conveyer belt 1 and have the space, the line segment face that links up deflector 51 and limiting plate 57 all has the space with the up end of passing a bridge board 53, passes a bridge board 53 and links up deflector 51 and is the corresponding relation between two parties to can hide under linking up deflector 51.

In this embodiment: the lower ends of the splitting rail plate 2 and the splitting guide plate 3 are provided with gaps with the upper end surface of the conveyer belt 1, so that the friction between the upper end of the conveyer belt 1 and the lower end surfaces of the splitting rail plate 2 and the splitting guide plate 3 is avoided when the conveyer belt 1 works.

As a technical optimization scheme of the utility model, a plurality of branch are listed as deflector 3 and are the sharp corresponding relation with linking deflector 51.

In this embodiment: the plurality of split guide plates 3 and the connecting guide plate 51 are in a linear corresponding relationship, so that the packaging bottles can be conveniently guided into the connecting guide plate 51.

As a technical optimization scheme of the utility model, conveyer belt 1 and motor 25 drive are controlled by PLC control system.

In this embodiment: the conveyer belt 1 and the motor 25 are driven by a PLC control system, so that the operation is convenient and the control is convenient.

The utility model discloses a theory of operation and use flow:

a packaging bottle enters the inside of a splitting track plate 2 formed by two bilateral guide plates 22 through a conveying belt 1, supplied materials are primarily split through the limiting of the two bilateral guide plates 22, the gap inside a track formed by the bilateral guide plates 22 can be adjusted through a gap adjusting screw rod group 23 to adapt to packaging materials with different sizes, initially, the conveying belt 1 and a driving motor 25 are started, the splitting track plate 2 arranged on a central mounting plate 26 is driven through a rotating shaft 27 to adjust the direction, the splitting track plate 2 is aligned to the gap of one splitting guide plate 3, when the gap of the splitting guide plate 3 is fully fed, a blocking cylinder 21 is started, meanwhile, the driving motor 25 drives the central mounting plate 26 fixed on a synchronous belt 24 to rotate for a certain angle along the rotating shaft 27, the left side stroke of the splitting track plate 2 is the distance of the splitting guide plates 3, the blocking cylinder 21 is loosened, the packaging materials enter the gap of the other splitting guide plate 3, reciprocating in proper order, until feeding all the gaps that divide and be listed as deflector 3 fully, divide and be listed as deflector 3 and can dismantle, the gap can be adjusted, in order to adapt to the packing of equidimension not, the left side packing is promoted by the right side packing through conveyer belt 1 and is got into bridge plate 53 simultaneously, limiting plate 57 and the space that links up deflector 51 and form inside, start clamp plate 4, block the packing behind bridge plate 53, start drive connecting rod 55, promote bridge formula whereabouts platform 5, make be fixed in bridge plate 53 above bridge formula whereabouts platform 5 remove the lower part that links up deflector 51, the packing loses the lower part and supports behind bridge plate 53, fall simultaneously along linking deflector 51, enter the carton, drive connecting rod 55 drives bridge formula whereabouts platform 5 and resets, carry out next cycle, accomplish production with this is reciprocal.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. The utility model provides a bridge type whereabouts case packer, includes conveyer belt (1), its characterized in that: the split rail plate (2) is installed above the conveying belt (1), one side of the split rail plate (2) is provided with a plurality of split guide plates (3), the split rail plate (2) comprises a center mounting plate (26), the left side and the right side of the upper end face of the center mounting plate (26) are fixedly connected with double-side guide plates (22), two upper end faces of the double-side guide plates (22) are provided with two gap adjusting screw rod groups (23), the left sides of the upper end faces of the double-side guide plates (22) are respectively provided with two blocking cylinders (21), the right side of the upper side of the center mounting plate (26) is rotatably connected with a rotating shaft (27), a servo split machine (28) is arranged between the two gap adjusting screw rod groups (23), the left side of the split rail plate (2) is provided with a synchronous belt (24), the front of the synchronous belt (24) is provided with a motor (25), the left side of hold-in range (24) is provided with a plurality of branches and is listed as deflector (3), and is a plurality of the left side that divides to be listed as deflector (3) is provided with bridge type whereabouts platform (5), and is a plurality of divide to be listed as deflector (3) and be provided with clamp plate (4) between bridge type whereabouts platform (5), it includes whereabouts support (56) to cross bridge type whereabouts platform (5), the top of whereabouts support (56) is provided with a plurality of linking deflector (51), and is a plurality of the left side of linking deflector (51) is provided with a plurality of bridge plates (53), and is a plurality of the right side below of a plurality of bridge plates (53) is provided with whereabouts deflector (54), the left side of linking deflector (51) is provided with limiting plate (57), one side of whereabouts support (56) is provided with driving connecting rod (55).

2. A bridge-over fall box filler as claimed in claim 1, wherein: the synchronous belt (24) is driven by a motor (25).

3. A bridge-over fall box filler as claimed in claim 1, wherein: divide and be listed as rail board (2), divide and be listed as deflector (3) lower extreme all to have a space with the up end of conveyer belt (1), the line segment face that links up deflector (51) and limiting plate (57) all has a space with the up end of passing a bridge board (53), pass a bridge board (53) and link up deflector (51) and be corresponding relation between two parties to can hide under linking up deflector (51).

4. A bridge-over fall box filler as claimed in claim 1, wherein: the plurality of the alignment guide plates (3) and the engagement guide plates (51) are in a linear corresponding relationship.

5. A bridge-over fall box filler as claimed in claim 1, wherein: the conveyer belt (1) and the motor (25) are driven by a PLC control system.

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