CN210311087U

CN210311087U - Carton stacking device

Info

Publication number: CN210311087U
Application number: CN201920895045.8U
Authority: CN
Inventors: 黄天星; 丁德宽; 张驹
Original assignee: Suzhou Yingpaike Automation Equipment Co ltd
Current assignee: Suzhou Yingpaike Automation Equipment Co ltd
Priority date: 2019-06-14
Filing date: 2019-06-14
Publication date: 2020-04-14
Anticipated expiration: 2029-06-14

Abstract

The utility model discloses a carton piles up device, the device includes the backup pad, the feed storehouse, brush strip and thrustor, wherein, the feed storehouse is installed in the top of backup pad, and form a accommodation space between the backup pad, the feed storehouse makes the carton vertical place in the backup pad and lie in accommodation space, the runner that formation and accommodation space are linked together between the top of backup pad and the backup pad is located to the brush strip, thrustor will be located the carton in the accommodation space and push the runner, under the effect of brush strip, the carton is in vertical state, thrustor constantly releases the carton from accommodation space, make the carton pile up and arrange in the backup pad. The utility model discloses can pile up a plurality of cartons automatically and arrange neatly, replace the manual work to carry out piling up of carton, practice thrift manufacturing cost when improving work efficiency.

Description

Carton stacking device

Technical Field

The utility model belongs to the technical field of an automation equipment technique and specifically relates to a carton piles up device is related to.

Background

Cartons are widely used for the sale and packaging of various products such as food, cigarettes, medicines, and the like. After the paper box is filled with products such as cigarettes, medicines and the like, the paper box is further subjected to boxing operation. For improving the packing efficiency, the manual work is usually piled up a plurality of cartons together and then is put in the box, however, the manual work is carried out piling up of carton, has still caused manufacturing cost increase when causing production efficiency to be low on the one hand, and on the other hand causes the carton easily to pile up and arranges untidy, finally makes the packing chaotic.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a carton that can replace the manual work to realize that the carton is automatic to be piled up piles up device.

In order to achieve the above object, the utility model provides a following technical scheme: a carton stacking apparatus comprising

The supporting plate is used for bearing the paper box;

the feeding bin is arranged above the supporting plate, an accommodating space for accommodating the paper box is formed between the feeding bin and the supporting plate, and the feeding bin is provided with a feeding cavity which enables the paper box to be vertically placed on the supporting plate and located in the accommodating space;

the brush strip is arranged above the support plate and arranged along the moving direction of the paper box, a flow channel communicated with the accommodating space is formed between the brush strip and the support plate, and the brush strip enables the paper box to keep a vertical state when moving in the flow channel;

and the pushing mechanism is arranged close to the feeding bin and is used for pushing the paper box positioned in the accommodating space into the flow channel from the accommodating space.

Preferably, the feeding cavity comprises a feeding hole, a discharging hole and a discharging cavity for enabling the paper box to be in a vertical state, and the discharging cavity is located between the feeding hole and the discharging hole and is close to the discharging hole.

Preferably, the feeding cavity further comprises a transition cavity for enabling the paper box to transition into the discharging cavity, and the transition cavity is located between the feeding hole and the discharging cavity.

Preferably, the feed bin includes preceding baffle, the backplate that sets up relatively, and connects preceding baffle, backplate and the relative left baffle and the right baffle that sets up, preceding baffle, backplate, left baffle and right baffle all have straight portion and flexion, form between the straight portion of preceding baffle, the straight portion of backplate, the straight portion of left baffle and the straight portion of right baffle ejection of compact die cavity, form between the flexion of preceding baffle, backplate, the flexion of left baffle and the flexion of right baffle the transition die cavity.

Preferably, the bent part of the front baffle is connected with the bent part of the right baffle, and forms a gap with the bent part of the left baffle; the bent portion of the rear baffle is connected with the bent portion of the right baffle, and forms a gap with the bent portion of the left baffle.

Preferably, the pushing mechanism comprises a first pushing piece extending into the accommodating space to push the paper box out of the accommodating space and a first power source driving the first pushing piece to move, and the first pushing piece is connected with the first power source.

Preferably, the carton feeding mechanism comprises a conveyor belt having an input end and an output end, the output end of the conveyor belt being provided with the supply bin.

Preferably, the paper box feeding device further comprises a material pushing mechanism used for pushing the paper boxes on the conveyor belt into the feeding bin, and the material pushing mechanism comprises a second pushing piece and a second power source connected with the second pushing piece.

Preferably, the carton stacking machine further comprises a discharging mechanism used for moving the stacked cartons out of the supporting plate, the discharging mechanism comprises a third pushing piece and a third power source connected with the third pushing piece, and the length of the third pushing piece is not less than the length of the stacked cartons in preset number.

The utility model has the advantages that:

the utility model discloses can pile up a plurality of cartons automatically and arrange neatly, replace the manual work to carry out piling up of carton, practice thrift manufacturing cost when improving work efficiency.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the paper cassette removal transport mechanism of the present invention;

fig. 3 is a schematic sectional view of the feeding bin of the present invention.

Reference numerals: 10. the automatic feeding device comprises a supporting plate, 20, a feeding bin, 21, a feeding cavity, 211, a feeding hole, 212, a discharging hole, 213, a discharging cavity, 214, a transition cavity, 22, a front baffle, 23, a rear baffle, 24, a left baffle, 25, a right baffle, 26, a straight part, 27, a bending part, 30, a brush strip, 31, a flow channel, 40, a pushing mechanism, 41, a first pushing piece, 42, a first power source, 50, an accommodating space, 60, a gap, 70, a paper box conveying mechanism, 71, a conveying belt, 80, a material pushing mechanism, 81, a second pushing piece, 82, a second power source, 90, a discharging mechanism, 91, a third pushing piece, 92 and a third power source.

Detailed Description

The technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention.

Referring to fig. 1, 2 and 3, the carton stacking apparatus disclosed in the present invention includes a supporting plate 10, a feeding bin 20, a brush strip 30 and a pushing mechanism 40. Wherein the support plate 10 is used for carrying cartons; the feeding bin 20 is arranged above the support plate 10, and forms an accommodating space 50 with the support plate 10, the accommodating space 50 is used for accommodating a paper box, and further, the feeding bin 20 is provided with a feeding cavity 21 which enables the paper box to be vertically placed on the support plate 10 and is positioned in the accommodating space 50; the brush strip 30 is arranged above the support plate 10 and arranged along the moving direction of the paper box, a flow passage 31 communicated with the accommodating space 50 is formed between the brush strip 30 and the support plate 10, and when the paper box moves in the flow passage 31, the paper box is in a vertical state under the action of the brush strip; the urging mechanism 40 is provided near the supply bin 20 for urging the paper cassette located in the accommodating space 50 from the accommodating space 50 into the flow path 31.

In implementation, firstly, a first paper box to be stacked is added into the feeding bin 20 in a manual or mechanical adding manner, the first paper box to be stacked is sequentially and vertically placed on the supporting plate 10 and located in the accommodating space 50 under the action of the feeding cavity 21, and after the pushing mechanism 40 pushes the first paper box to be stacked out of the accommodating space 50 into the flow channel 31, the brush strip 30 stops the first paper box to keep the vertical state; secondly, a second paper box to be stacked is added into the feeding bin 20 in a manual adding or mechanical adding mode, the second paper box to be stacked is sequentially and vertically placed on the supporting plate 10 and located in the accommodating space 50 under the action of the feeding cavity 21, the pushing mechanism 40 pushes the second paper box to be stacked out of the accommodating space 50 into the flow channel 31, so that the second paper box to be stacked is tightly attached to the first paper box, and the first paper box is stacked; finally, the above process is repeated, and when a predetermined number of cartons are stacked, the pushing mechanism 40 stops pushing the cartons out of the accommodating space 50.

Referring to fig. 2 and 3, the feeding cavity 21 includes a feeding hole 211, a discharging hole 212 and a discharging cavity 213, wherein the discharging cavity 213 is used for enabling the paper box to be in a vertical state, the discharging cavity 213 is located between the feeding hole 211 and the discharging hole 212 and is close to the discharging hole 212, in implementation, the paper box entering from the feeding hole 211 further enters the discharging cavity 213, the paper box becomes in a vertical state under the action of the discharging cavity 213, and the paper box in the vertical state falls onto the supporting plate 10 through the discharging hole 212 and is located in the accommodating space 50.

Further, the supply cavity 21 further includes a transition cavity 214 for making the paper box transition to the discharge cavity 213, and the transition cavity 214 is located between the feeding port 211 and the discharge cavity 213, of course, the supply cavity 21 is not limited to the above structure, and may be set according to actual requirements, so that the paper box is vertically placed on the support plate 10 and located in the accommodating space 50. In this embodiment, the transition cavity 214 is arcuate.

As shown in fig. 2, the feed bin 20 includes a front baffle 22, a rear baffle 23, a left baffle 24, and a right baffle 25. The left baffle 24 and the right baffle 25 are arranged oppositely, the front baffle 22 is connected with the left baffle 24 and the right baffle 25, the rear baffle 23 is also connected with the left baffle 24 and the right baffle 25, and the front baffle 22 and the rear baffle 23 are arranged oppositely.

Further, the front baffle 22, the rear baffle 23, the left baffle 24 and the right baffle 25 each comprise a straight portion 26 and a curved portion 27 connected with each other, wherein the discharge cavity 213 is formed between the straight portion 26 of the front baffle 22, the straight portion 26 of the rear baffle 23, the straight portion 26 of the left baffle 24 and the straight portion 26 of the right baffle 25; the transition cavity 214 is formed among the bent portion 27 of the front baffle 22, the bent portion 27 of the rear baffle 23, the bent portion 27 of the left baffle 24 and the bent portion 27 of the right baffle 25.

Further, as shown in fig. 2 and 3, the curved portion 27 of the front baffle 22 is connected to the curved portion 27 of the right baffle 25, and forms a gap 60 with the curved portion 27 of the left baffle 24; similarly, the curved portion 27 of the back shield 23 is continuous with the curved portion 27 of the right shield 25 and forms a gap 60 with the curved portion 27 of the left shield 24. The gap 60 ensures that the transition cavity 214 does not catch the carton as it passes through the transition cavity 214. Of course, the curved portion 27 of the front flap 22 may be connected to both the curved portions 27 of the left and

right flaps

24 and 25, and the curved portion 27 of the back flap 23 may be connected to both the curved portions 27 of the left and

right flaps

24 and 25, but it is desirable to ensure that the carton does not become jammed as it passes through the transition cavity 214.

As shown in fig. 2, the pushing mechanism 40 includes a first pushing member 41 and a first power source 42, the first pushing member 41 extends into the accommodating space 50 under the action of an external force to push the paper box out of the accommodating space 50, and the first power source 42 is connected to the first pushing member 41 for driving the first pushing member 41 to move. In the present embodiment, the first power source 42 is preferably a cylinder.

As shown in fig. 1, the carton stacking apparatus further comprises a carton conveying mechanism 70 for conveying cartons into the supply bin 20, which comprises a conveyor belt 71, the conveyor belt 71 having an input end and an output end, the output end of the conveyor belt 71 being disposed at the supply bin 20. In practice, the cartons are manually placed at the input end of the conveyor 71, and the cartons are moved to the output end of the conveyor 71 by the conveyor 71 and further conveyed into the supply bin 20.

Further, the paper box conveying mechanism 70 further includes a material pushing mechanism 80 for pushing the paper boxes on the conveyor belt 71 into the feeding bin 20, the conveyor belt 71 is located between the material pushing mechanism 80 and the feeding bin 20, and of course, the specific position of the material pushing mechanism 80 can be set according to actual requirements. The material pushing mechanism 80 comprises a second pushing member 81 and a second power source 82, the second pushing member 81 is used for pushing the paper box into the feeding bin 20 under the action of external force, and the second power source 82 is used for providing acting force for the second pushing member 81, is connected with the second pushing member 81, and drives the second pushing member 81 to move. In practice, the cartons placed on the conveyor belt 71 are moved to the feeding bin 20 through the conveyor belt 71, and the pushing mechanism 80 pushes the cartons placed on the conveyor belt 71 into the feeding bin 20. In the present embodiment, the second power source 82 is preferably a cylinder.

As shown in fig. 2, the carton stacking apparatus further comprises an discharging mechanism 90, the discharging mechanism 90 is used for removing the stacked cartons from the support plate 10, and comprises a third pushing member 91 and a third power source 92, and the length of the third pushing member 91 is not less than the length of the stacked cartons by a preset amount, so as to ensure that the stacked cartons can be removed from the support plate 10 at one time. In this embodiment, the third power source 92 is preferably a cylinder.

The technical contents and features of the present invention have been disclosed as above, however, those skilled in the art can still make various substitutions and modifications based on the teaching and disclosure of the present invention without departing from the spirit of the present invention, therefore, the protection scope of the present invention should not be limited to the contents disclosed in the embodiments, but should include various substitutions and modifications without departing from the present invention, and should be covered by the claims of the present patent application.

Claims

1. A carton stacking apparatus, comprising

The supporting plate is used for bearing the paper box;

2. A carton stacking apparatus as claimed in claim 1, wherein the feeding cavity comprises a feeding port, a discharging port and a discharging cavity for enabling the cartons to be in a vertical state, and the discharging cavity is located between the feeding port and the discharging port and is arranged close to the discharging port.

3. A carton stacking apparatus as in claim 2, wherein the infeed cavity further comprises a transition cavity for transitioning the cartons into the outfeed cavity, the transition cavity being located between the infeed and outfeed cavities.

4. A carton stacking apparatus as in claim 3, wherein the supply bin comprises oppositely disposed front and rear panels, and oppositely disposed left and right panels connecting the front and rear panels, the front, rear, left and right panels each having a flat portion and a curved portion, the discharge cavity being formed between the flat portion of the front panel, the flat portion of the rear panel, the flat portion of the left panel and the flat portion of the right panel, the transition cavity being formed between the curved portion of the front panel, the curved portion of the rear panel, the curved portion of the left panel and the curved portion of the right panel.

5. A carton stacking apparatus as in claim 4, wherein the curved portion of the front flap is connected to the curved portion of the right flap and forms a gap with the curved portion of the left flap; the bent portion of the rear baffle is connected with the bent portion of the right baffle, and forms a gap with the bent portion of the left baffle.

6. A carton stacking apparatus as claimed in claim 1, wherein the urging mechanism comprises a first urging member which is extended into the accommodating space to urge the carton out of the accommodating space, and a first power source which drives the first urging member to move, the first urging member being connected to the first power source.

7. A carton stacking apparatus as in claim 1, further comprising a carton transport mechanism for transporting cartons into a supply bin, said carton transport mechanism comprising a conveyor belt having an input end and an output end, said supply bin being disposed at said output end of said conveyor belt.

8. A carton stacking apparatus as in claim 7, further comprising a pusher mechanism for pushing cartons on the conveyor into the supply bin, the pusher mechanism comprising a second pusher and a second power source connected to the second pusher.

9. A carton stacking apparatus as in claim 1, further comprising an outfeed mechanism for removing stacked cartons from the support plate, said outfeed mechanism comprising a third ejector and a third power source connected to said third ejector, and wherein the length of said third ejector is not less than the length of a predetermined number of stacked cartons.