CN118046444A

CN118046444A - Whole stack breaking device for stacked corrugated boards

Info

Publication number: CN118046444A
Application number: CN202410109116.2A
Authority: CN
Inventors: 罗富文; 曾伟光
Original assignee: Guangdong Tai Yi Machinery Co ltd
Current assignee: Guangdong Tai Yi Machinery Co ltd
Priority date: 2024-01-24
Filing date: 2024-01-24
Publication date: 2024-05-17

Abstract

The invention discloses a whole-stack breaking device for stacked corrugated boards, which comprises a breaking host machine, wherein the breaking host machine is provided with a stacking pressing structure positioned at a stacking inlet side and a stacking breaking structure positioned at a stacking outlet side, the stacking pressing structure comprises a host machine base, a stacking pressing lifting seat, a first conveying structure, an upper offset driving structure and a lower offset driving structure, the host machine base is formed with two oppositely arranged host substrates, and a base section extends from the bottom of each host substrate towards the stacking outlet side; the stacking lifting seat can be arranged between the tops of the two main substrates in a lifting manner; the upper offset driving structure is provided with a fixed end and a telescopic driving end, the fixed end is fixedly arranged at the top of the two main substrates, and the telescopic driving end extends to the stacking side and is hinged with the top of the stacking structure; the lower offset driving structure is arranged between the first conveying structure and the first connecting rod and is hinged with the bottom of the breaking structure; the unstacking structure comprises a deflection machine seat, an unstacking lifting seat and a second conveying structure. The invention can improve the breaking efficiency of the corrugated cardboard stack.

Description

Whole stack breaking device for stacked corrugated boards

Technical Field

The invention relates to the technical field of corrugated board processing equipment, in particular to a stack breaking device for stacked corrugated boards.

Background

The corrugated board is a packaging board widely applied, the existing corrugated board is generally subjected to slotting cutting, creasing line pressing and incomplete cutting of a transition connecting section according to the required size after being manufactured into a continuous sheet-shaped corrugated board, the corrugated board is preliminarily manufactured into a large-size corrugated board, then the corrugated board is stacked into a stack, the transition connecting section of the whole stack of corrugated boards is broken through manual intervention, the corrugated board is divided into a plurality of stacks of small-size corrugated boards, and then the corrugated boards with the plurality of stacks of small-size corrugated boards are subjected to taping, stacking and the like. However, the breaking efficiency of the transition connection section of the corrugated board, which is needed to be manually inserted, is low, and the dependence on manual operation is difficult to get rid of.

Disclosure of Invention

The invention aims to provide a device for breaking off a pile of stacked corrugated boards.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The breaking device comprises a breaking host machine, wherein the breaking host machine is provided with a stacking pressing structure positioned at a stacking inlet side and a stacking breaking structure positioned at a stacking outlet side, the stacking pressing structure comprises a host machine base, a stacking pressing lifting seat, a first conveying structure, an upper offset driving structure and a lower offset driving structure, the host machine base is formed with two oppositely arranged main substrates, a first connecting rod is connected between the bottoms of the two main substrates, and a base section extends from the bottom of each main substrate towards the stacking outlet side; the stacking lifting seat can be arranged between the tops of the two main substrates in a lifting manner; the first conveying structure is arranged above the first connecting rod; the upper offset driving structure is provided with a fixed end and a telescopic driving end, the fixed end is fixedly arranged at the top of the two main substrates, and the telescopic driving end extends to the stacking side and is hinged with the top of the stacking structure; the lower offset driving structure is arranged between the first conveying structure and the first connecting rod and is hinged with the bottom of the breaking-up structure;

The stacking structure comprises a deflection base, a stacking lifting base and a second conveying structure, wherein the deflection base is provided with two opposite deflection base plates, a second connecting rod is connected between the bottoms of the two deflection base plates, the bottom of each deflection base plate is provided with a clamping plate section which is correspondingly abutted against a base section, and the stacking lifting base can be arranged between the tops of the two deflection base plates in a lifting manner; the second conveying structure can be horizontally arranged above the second connecting rod correspondingly to the first conveying structure, corrugated cardboard stacks are conveyed to the first conveying structure and the second conveying structure, when transition connecting sections of the corrugated cardboard stacks are correspondingly arranged between the first conveying structure and the second conveying structure, the stack pressing lifting seat and the stack breaking lifting seat descend to respectively support against two ends of the corrugated cardboard stacks, and the corrugated cardboard stacks are broken along the transition connecting sections along with the operation of the upper offset driving structure, the lower offset driving structure and the second conveying structure, and the second conveying structure outputs stack separation.

As a further technical scheme of the invention: the main base plate and the deflection base plate are respectively provided with a lifting guide opening communicated with the outside at the top and a lifting driving cylinder at the bottom of the outer side surface of the main base plate and the deflection base plate, and the telescopic rod of the lifting driving cylinder is correspondingly hinged with one end of the stacking lifting seat or the stacking lifting seat for the telescopic rod of the lifting driving cylinder to stretch and retract so as to drive the stacking lifting seat or the stacking lifting seat to lift.

As a further technical scheme of the invention: the main base plate and the deflection base plate are respectively provided with two guide rails parallel to the lifting guide opening and a rack rail connected to one side of the lifting guide opening and parallel to the lifting guide opening at the top of the inner side surface of the main base plate and the deflection base plate, and the stacking lifting seat are respectively provided with a sliding block capable of sliding along the guide rails and a balance shaft meshed with the rack rail at the top of the main base plate and the deflection base plate at two ends of the main base plate and corresponding to each guide rail.

As a further technical scheme of the invention: the upper offset driving structure comprises two opposite fixing plates and a synchronizing rod, wherein the two opposite fixing plates are arranged, the synchronizing rod is connected between one end of each fixing plate extending to the stacking side, a cushion block is arranged between one end of each fixing plate facing to the stacking side and the main substrate, and bolts sequentially penetrate the fixing plates, the cushion blocks and the main substrate to fix the fixing plates; one end of the fixing plate extending to the stacking side penetrates out of the stacking structure, a cylinder mounting seat is arranged on one surface of the fixing plate facing the stacking structure, and an upper offset driving cylinder is arranged on the cylinder mounting seat; the telescopic rod of the upper offset driving cylinder penetrates between the top of the stacking structure and the fixed plate and is hinged with the top of the stacking structure, and the telescopic rod of the upper offset driving cylinder stretches to drive the top of the stacking structure to swing in an offset mode.

As a further technical scheme of the invention: the first connecting rod is located below the second connecting rod, two fixing seats are oppositely arranged on the first connecting rod, and the first conveying structure is arranged above the tops of the two fixing seats.

As a further technical scheme of the invention: the lower offset driving structure comprises two lower offset driving cylinders which are oppositely arranged, each lower offset driving cylinder is correspondingly arranged in a fixed seat, one end of a telescopic rod of the lower offset driving cylinder, which corresponds to the telescopic rod of the second connecting rod, is hinged, and the telescopic rod of the lower offset driving cylinder stretches out and draws back to drive the bottom of the breaking structure to swing in an offset mode.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a device for breaking whole stacks of stacked corrugated boards, which can ensure that when a transition connecting section of a corrugated board stack is correspondingly positioned between a first conveying structure and a second conveying structure, a stack pressing lifting seat and a stack breaking lifting seat descend to respectively press two ends of the corrugated board stack, and break the corrugated board stack along the transition connecting section along with the operation of an upper offset driving structure, a lower offset driving structure and the second conveying structure, and the second conveying structure outputs stacks, so that the breaking and separating efficiency of the corrugated board stack is effectively improved.

Drawings

Fig. 1 is a first perspective view of a full stack breaking device of corrugated cardboard after stacking.

Fig. 2 is a second perspective view of the breaking device of the whole stack of corrugated cardboards after stacking.

Fig. 3 is a schematic diagram of a lower offset driving structure.

Fig. 4 is a state diagram of the unstacking structure when the telescopic rods of the upper offset driving cylinder and the lower offset driving cylinder are located at the middle position.

Fig. 5 is a state diagram of the unstacking structure when the telescopic rod of the upper offset driving cylinder is retracted and the telescopic rod of the lower offset driving cylinder is extended.

Fig. 6 is a state diagram of the unstacking structure when the telescopic rod of the upper offset driving cylinder is extended and the telescopic rod of the lower offset driving cylinder is extended.

Fig. 7 is a state diagram of the unstacking structure when the telescopic rod of the upper offset driving cylinder is retracted and the telescopic rod of the lower offset driving cylinder is retracted.

Fig. 8 is a state diagram of the unstacking structure when the telescopic rod of the upper offset driving cylinder is extended and the telescopic rod of the lower offset driving cylinder is retracted.

Detailed Description

The following describes specific embodiments of the present invention in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the scope of the invention.

Referring to fig. 1,2 and 3, a breaking device for whole stacks of stacked corrugated boards comprises a breaking host 10, wherein the breaking host 10 is provided with a stacking pressing structure 11 positioned at a stacking side and a breaking structure 12 positioned at a stacking discharging side, the stacking pressing structure 11 comprises a main machine base 111, a stacking pressing lifting seat 112, a first conveying structure 113, an upper offset driving structure 114 and a lower offset driving structure 115, the main machine base 111 is formed with two opposite main substrates 21, a first connecting rod 22 is connected between bottoms of the two main substrates 21, and a base section 211 extends from the bottom of each main substrate 21 towards the stacking discharging side; the stacking lifting seat 112 is arranged between the tops of the two main substrates 21 in a lifting manner; the first conveying structure 113 is disposed above the first link 22; the upper offset driving structure 114 is formed with a fixed end 301 and a telescopic driving end 302, the fixed end 301 is fixedly arranged at the top of the two-sided main substrate 21, and the telescopic driving end 302 extends to the stacking side and is hinged with the top of the stacking structure 12; the lower offset driving structure 115 is disposed between the first conveying structure 113 and the first link 22, and is hinged to the bottom of the unstacking structure 12;

The stacking structure 12 includes a deflection base 121, a stacking lifting base 122 and a second conveying structure 123, wherein the deflection base 121 is formed with two opposite deflection substrates 41 and a second connecting rod 42 is connected between the bottoms of the two deflection substrates 41, a clamping plate section 411 corresponding to a base section 211 is arranged at the bottom of each deflection substrate 41, and the stacking lifting base 122 can be arranged between the tops of the two deflection substrates 41 in a lifting manner; the second conveying structure 123 can be horizontally and correspondingly disposed above the second connecting rod 42 with the first conveying structure 113, so that the corrugated cardboard stack can be conveyed to the first conveying structure 113 and the second conveying structure 123, when the transition connection section of the corrugated cardboard stack is correspondingly located between the first conveying structure 113 and the second conveying structure 123, the stacking lifting seat 112 and the stacking lifting seat 122 descend to respectively press against two ends of the corrugated cardboard stack, and the corrugated cardboard stack is separated and output by the second conveying structure 123 along the transition connection section along with the operations of the upper offset driving structure 114, the lower offset driving structure 115 and the second conveying structure 123, as shown in fig. 4-8.

Further, in this embodiment, the main substrate 21 and the yaw substrate 41 are both provided with a lifting guide port 101 at the top thereof, which is externally connected, and a lifting driving cylinder 102 at the bottom of the outer side thereof, and the telescopic rod of the lifting driving cylinder 102 is correspondingly hinged to one end of the stacking lifting seat 112 or the stacking lifting seat 122, so that the telescopic rod of the lifting driving cylinder 102 stretches and contracts to drive the stacking lifting seat 112 or the stacking lifting seat 122 to lift.

Further, in this embodiment, the top of the inner side surfaces of the main substrate 21 and the yaw substrate 41 are respectively provided with two guide rails 103 parallel to the lifting guide opening 101 and a rack rail 104 connected to one side of the lifting guide opening 101 and parallel to the lifting guide opening 101, and the stacking lifting base 112 and the stacking lifting base 122 are respectively provided with a sliding block 105 capable of sliding along the guide rails 103 and a balance shaft 106 engaged with the rack rail 104 at the top thereof, so as to improve the stability of the stacking lifting base 112 and the stacking lifting base 122 during lifting.

Further, in the embodiment, the upper offset driving structure 114 includes two opposite fixing plates 31 and a synchronizing rod 32 connecting the two opposite fixing plates 31 and extending to one end of the stacking side, wherein a spacer block 311 is disposed between one end of the fixing plate 31 facing the stacking side and the main substrate 21, and bolts sequentially penetrate the fixing plate 31, the spacer block 311 and the main substrate 21 to form the fixing end 301, so as to fix the fixing plate 31; one end of the fixing plate 31 extending to the stacking side penetrates out of the stacking structure 12, a cylinder mounting seat 312 is arranged on one surface of the fixing plate facing the stacking structure 12, and an upper offset driving cylinder 313 is arranged on the cylinder mounting seat 312; the telescopic rod of the upper offset driving cylinder 313 penetrates between the top of the stacking structure 12 and the fixing plate 31 and is hinged with the top of the stacking structure 12 to form the telescopic driving end 302, and the telescopic rod of the upper offset driving cylinder 313 stretches to drive the top of the stacking structure 12 to swing in an offset manner.

Further, in this embodiment, the first connecting rod 22 is located below the second connecting rod 42, two fixing bases 221 are oppositely disposed on the first connecting rod 22, and the first conveying structure 113 is disposed above the top of the two fixing bases 221.

Further, in this embodiment, the lower offset driving structure 115 includes two lower offset driving cylinders 51 disposed opposite to each other, each lower offset driving cylinder 51 is disposed in a fixed seat 221, and one end of the telescopic rod of the lower offset driving cylinder 51, which corresponds to the second connecting rod 42, is hinged to allow the telescopic rod of the lower offset driving cylinder 51 to stretch and retract, so as to drive the bottom of the breaking structure 12 to swing in an offset manner.

Further, a plurality of reinforcing rods 61 are connected between the top of the two main substrates 21 and between the top of the two deflection substrates 41 to improve the stability of the main frame 111 and the deflection frame 121.

It can be appreciated that the application method of the breaking device for the stacked corrugated boards comprises the following steps: the corrugated cardboard stack is input into the breaking host 10, referring to fig. 8, one end of the corrugated cardboard stack is input onto the second conveying structure 123 from the first conveying structure 113, and when the transition connecting section of the corrugated cardboard stack moves between the first conveying structure 113 and the second conveying structure 123, the stacking lifting seat 112 and the breaking lifting seat 122 descend to respectively press against both ends of the corrugated cardboard stack; referring to fig. 6 and 7, following the operations of the upper offset driving structure 114, the lower offset driving structure 115 and the second conveying structure 123, that is, the telescopic rod of the upper offset driving cylinder 313 stretches out and draws back, the top offset swing of the stacking structure 12 and the telescopic rod of the lower offset driving cylinder 51 stretch out and draw back, the bottom offset swing of the stacking structure 12 is driven, and the corrugated cardboard stacks are broken along the transition connecting section; referring to fig. 4, the second conveying structure 123 outputs stacks of packets. Thus, breaking and stacking of the corrugated cardboard stacks are completed.

In summary, according to the device for breaking off the whole stack of stacked corrugated boards, through the cooperation between the stacking pressing structure 11 and the stacking breaking structure 12, when the transition connecting section of the corrugated board stack is correspondingly located between the first conveying structure 113 and the second conveying structure 123, the stacking pressing lifting seat 112 and the stacking breaking lifting seat 122 descend to respectively press against two ends of the corrugated board stack, and the corrugated board stack is broken off along the transition connecting section along with the operation of the upper offset driving structure 114, the lower offset driving structure 115 and the second conveying structure 123, and the second conveying structure 123 outputs the separated stack, so that the breaking off and separating efficiency of the corrugated board stack is effectively improved.

Any combination of the various embodiments of the invention should be considered as being within the scope of the present disclosure, as long as the inventive concept is not violated; within the scope of the technical idea of the invention, any combination of various simple modifications and different embodiments of the technical proposal without departing from the inventive idea of the invention should be within the scope of the invention.

Claims

1. The utility model provides a device is broken off with fingers and thumb to whole buttress of corrugated container board after pile up which characterized in that: the breaking machine comprises a breaking machine body (10), wherein the breaking machine body (10) is provided with a stacking structure (11) positioned at a stacking side and a stacking structure (12) positioned at a stacking discharging side, the stacking structure (11) comprises a main machine base (111), a stacking lifting seat (112), a first conveying structure (113), an upper offset driving structure (114) and a lower offset driving structure (115), the main machine base (111) is provided with two opposite main base plates (21) and a first connecting rod (22) connected between the bottoms of the two main base plates (21), and a base section (211) extends from the bottom of each main base plate (21) towards the stacking discharging side; the stacking lifting seat (112) is arranged between the tops of the two main substrates (21) in a lifting manner; the first conveying structure (113) is arranged above the first connecting rod (22); the upper offset driving structure (114) is provided with a fixed end (301) and a telescopic driving end (302), the fixed end (301) is fixedly arranged at the top of the two-sided main substrate (21), and the telescopic driving end (302) extends to the stacking side and is hinged with the top of the stacking structure (12); the lower offset driving structure (115) is arranged between the first conveying structure (113) and the first connecting rod (22), and is hinged with the bottom of the unstacking structure (12);

The stacking structure (12) comprises a deflection base (121), stacking lifting bases (122) and a second conveying structure (123), wherein the deflection base (121) is provided with two opposite deflection base plates (41) and a second connecting rod (42) connected between the bottoms of the two deflection base plates (41), the bottom of each deflection base plate (41) is provided with a clamping plate section (411) which is correspondingly abutted against a base section (211), and the stacking lifting bases (122) can be arranged between the tops of the two deflection base plates (41) in a lifting manner; the second conveying structure (123) can be horizontally and correspondingly arranged above the second connecting rod (42) with the first conveying structure (113), corrugated cardboard stacks are conveyed to the first conveying structure (113) and the second conveying structure (123), when transition connecting sections of the corrugated cardboard stacks are correspondingly positioned between the first conveying structure (113) and the second conveying structure (123), the stacking lifting seat (112) and the stacking lifting seat (122) are lowered to respectively prop against two ends of the corrugated cardboard stacks, and the corrugated cardboard stacks are broken along the transition connecting sections and are output by the second conveying structure (123) along with the operation of the upper offset driving structure (114), the lower offset driving structure (115) and the second conveying structure (123).

2. The breaking device for stacking corrugated boards according to claim 1, wherein: the main base plate (21) and the deflection base plate (41) are respectively provided with a lifting guide opening (101) which is communicated with the outside at the top, and a lifting driving cylinder (102) is arranged at the bottom of the outer side surface of the main base plate, and the telescopic rod of the lifting driving cylinder (102) is correspondingly hinged with one end of a stacking lifting seat (112) or a stacking lifting seat (122) for the telescopic rod of the lifting driving cylinder (102) to stretch and retract so as to drive the stacking lifting seat (112) or the stacking lifting seat (122) to lift.

3. The breaking device for stacking corrugated boards according to claim 2, wherein: the main base plate (21) and the deflection base plate (41) are respectively provided with two guide rails (103) parallel to the lifting guide opening (101) and a rack rail (104) connected to one side of the lifting guide opening (101) and parallel to the lifting guide opening (101) at the top of the inner side face of the main base plate and the deflection base plate, the stack pressing lifting seat (112) and the stack breaking lifting seat (122) are respectively provided with a sliding block (105) capable of sliding along the guide rails (103) at two ends of the main base plate and each guide rail (103) and a balance shaft (106) meshed with the rack rail (104) at the top of the main base plate.

4. The breaking device for stacking corrugated boards according to claim 1, wherein: the upper offset driving structure (114) comprises two opposite fixing plates (31) and a synchronizing rod (32) which is connected between one ends of the two opposite fixing plates (31) extending to the stacking side, a cushion block (311) is arranged between one end of the fixing plate (31) facing the stacking side and the main substrate (21), and bolts sequentially penetrate the fixing plate (31), the cushion block (311) and the main substrate (21) to fix the fixing plate (31); one end of the fixing plate (31) extending to the stacking side penetrates out of the stacking structure (12), a cylinder mounting seat (312) is arranged on one surface of the fixing plate facing the stacking structure (12), and an upper offset driving cylinder (313) is arranged on the cylinder mounting seat (312); the telescopic rod of the upper offset driving cylinder (313) penetrates between the top of the unstacking structure (12) and the fixed plate (31) and is hinged with the top of the unstacking structure (12), and the telescopic rod of the upper offset driving cylinder (313) stretches to drive the top of the unstacking structure (12) to swing in an offset mode.

5. The breaking device for stacking corrugated boards according to claim 1, wherein: the first connecting rod (22) is located below the second connecting rod (42), two fixing seats (221) are oppositely arranged on the first connecting rod (22), and the first conveying structure (113) is arranged above the tops of the two fixing seats (221).

6. The breaking device for stacking corrugated boards according to claim 5, wherein: the lower offset driving structure (115) comprises two lower offset driving cylinders (51) which are oppositely arranged, each lower offset driving cylinder (51) is correspondingly arranged in a fixed seat (221), one end, corresponding to a telescopic rod of the lower offset driving cylinder (51), of the second connecting rod (42) is hinged, the telescopic rod of the lower offset driving cylinder (51) stretches, and the bottom of the breaking structure (12) is driven to swing in an offset mode.