CN217554342U

CN217554342U - Plastic uptake box charging equipment

Info

Publication number: CN217554342U
Application number: CN202221578298.0U
Authority: CN
Inventors: 杨武锦; 李炎球; 唐锦定
Original assignee: Siweike Ningbo Intelligent Equipment Co ltd
Current assignee: Siweike Ningbo Intelligent Equipment Co ltd
Priority date: 2022-06-23
Filing date: 2022-06-23
Publication date: 2022-10-11
Anticipated expiration: 2032-06-23

Abstract

The utility model discloses a plastic uptake box feeding device, which comprises a first stacking station, a second stacking station and a third feeding station, wherein a third conveying device is arranged for connecting the first stacking station and the second stacking station, and a stock bin device is movably arranged on the third conveying device; a suction transfer device and a plastic suction box jacking device are arranged at the third feeding station; the bin device comprises a first bin and a second bin; the plastic uptake box jacking device comprises a plurality of groups of lifting plates; the first storage bin comprises a bearing bottom plate and first guide rods, a plastic uptake box guide cavity is formed between every two adjacent first guide rods, a plurality of groups of plastic uptake box positioning seats are arranged in the plastic uptake box guide cavity, and a lifting avoiding groove is formed in the position, between every two adjacent plastic uptake box positioning seats, of the bearing bottom plate in a penetrating mode. The utility model discloses realize in time switching unloaded feed bin, guarantee that the plastic uptake box lasts the material loading and does not stop to moving the plastic uptake box that in time the jacking piles up behind the top layer plastic uptake box of getting, with optimizing the material loading continuity, improved the efficiency of the orderly material loading of plastic uptake box.

Description

Plastic uptake box charging equipment

Technical Field

The utility model relates to a charging equipment technical field, concretely relates to plastic uptake box charging equipment.

Background

The container strip of paper used for sealing is disposable special lock, its structure comprises lock sleeve and lock core, the packaging mode of strip of paper used for sealing generally is independent packing, need pick up a plastic uptake box alone promptly in order to load the strip of paper used for sealing, because current plastic uptake box charging equipment adopts the plastic uptake box that manual separation piled up usually and utilizes the conveyer belt to carry to follow-up equipment and packs processing, the material loading efficiency is slow, the plastic uptake box separation effect of piling up is poor, and the material loading stereotaxis of plastic uptake box is poor, influence the packing effect and the precision of follow-up strip of paper used for sealing to a great extent.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical problem, the utility model discloses a plastic uptake box charging equipment.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

a plastic uptake box feeding device comprises a first stacking station and a second stacking station which are arranged in parallel, wherein a third conveying device is arranged for connecting the first stacking station and the second stacking station, and a stock bin device is movably arranged on the third conveying device;

a third loading station is arranged between the first stacking station and the second stacking station, and a suction transfer device and a plastic suction box jacking device are arranged on the third loading station corresponding to the stock bin device;

the bin device comprises a first bin and a second bin which are arranged in parallel, the first bin moves to and fro between the first stacking station and the third loading station, and the second bin moves to and fro between the third loading station and the second stacking station;

the plastic uptake box jacking device comprises a plurality of groups of lifting plates which are horizontally arranged at intervals;

first feed bin including bearing bottom plate, a plurality of group vertically set up in first guide bar on the bearing bottom plate, adjacent form plastic uptake box direction chamber between the first guide bar, in be provided with a plurality of groups plastic uptake box positioning seats in the plastic uptake box direction chamber, adjacent run through between the plastic uptake box positioning seat bearing bottom plate is provided with the lift and dodges the groove, the lifter plate activity is worn to arrange in the lift dodges in the groove.

In the plastic uptake box feeding equipment, a first detection through hole penetrates through the plastic uptake box positioning seat, a fifth photoelectric switch is arranged on the bearing bottom plate corresponding to the first detection through hole, and the fifth photoelectric switch is electrically connected with the third conveying device.

Foretell plastic uptake box charging equipment, wherein first feed bin still includes the fixed plate, the fixed plate with bearing bottom plate fixes a position fixedly through the spacing blend stop of a plurality of groups, runs through the fixed plate intercommunication plastic uptake box direction chamber is provided with the plastic uptake box and picks up the groove.

In the above feeding apparatus for blister packs, a ninth material detection assembly is disposed on the fixing plate corresponding to the blister pack picking groove.

In the above feeding equipment for plastic uptake boxes, a plurality of groups of shifting pieces extend from the fixed plate to the picking groove of the plastic uptake box.

The plastic uptake box feeding equipment is characterized in that the structure of the second storage bin is the same as that of the first storage bin.

Foretell plastic uptake box charging equipment, wherein plastic uptake box jacking device including the lift mount pad, and all vertically set up in lead screw and second guide post in the lift mount pad, the drive shaft fixed connection of lead screw and first motor in the activity is provided with the lift transmission seat on the second guide post, the lift transmission seat with the lead screw transmission is connected, the lifter plate according to spacing distance level set up in on the lift transmission seat.

In the above feeding apparatus for plastic uptake boxes, the third conveying device includes two sets of horizontally arranged guide rails, a conveying base movably arranged on the guide rails, and a third cylinder fixedly connected to the conveying base, and the first bin and the second bin are arranged in parallel on the conveying base;

and a first buffer and a second buffer are respectively arranged at the first stacking station and the third loading station, and the conveying seat is provided with a buffer stop block corresponding to the first buffer and the second buffer.

In the above feeding apparatus for blister packs, the suction transfer device includes a fifth traverse device, a third lifting device movably disposed on the fifth traverse device, and a blister pack pickup device fixedly disposed on the third lifting device;

the plastic uptake box pickup device comprises a third pickup seat and a plurality of groups of second suction heads which are arranged on the third pickup seat in parallel according to the interval distance, and the second suction heads are arranged corresponding to the plastic uptake box pickup grooves.

In the above plastic uptake box feeding apparatus, the driving direction of the third conveying device is perpendicular to the driving direction of the plastic uptake box jacking device, the driving direction of the suction transfer device is perpendicular to the driving direction of the plastic uptake box jacking device, and the driving direction of the suction transfer device is perpendicular to the driving direction of the third conveying device.

The utility model has the advantages that: the utility model adopts the third conveying device and the bin device in a matching way to realize timely switching of unloaded bins, ensure that the plastic uptake boxes continuously feed materials without stopping working, and set the plastic uptake box jacking device in a matching way to jack the stacked plastic uptake boxes in time after the plastic uptake boxes at the top layer are moved, so as to optimize the feeding consistency of the plastic uptake boxes and improve the efficiency of orderly feeding of the plastic uptake boxes; the stacked plastic suction boxes are placed on the plastic suction box positioning seats, and directional feeding is carried out along the plastic suction box guide cavities, so that the orderliness and the efficiency of feeding of the plastic suction boxes are improved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

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

fig. 2 is a schematic front view of a third conveying device and a storage bin device in the present invention;

fig. 3 is a schematic perspective view of the middle bin device of the present invention;

fig. 4 is a schematic perspective view of the middle suction transfer device of the present invention;

fig. 5 is a schematic perspective view of the jacking device for the plastic uptake box of the present invention.

Detailed Description

The present invention is further described below with reference to specific embodiments, so that the technical solution of the present invention is easier to understand and master, rather than to limit the present invention.

The embodiment is as follows: referring to fig. 1 to 5, the feeding apparatus for plastic-absorbing boxes according to the present embodiment includes a first stacking station and a second stacking station which are arranged in parallel, a third conveying device 31 is arranged to connect the first stacking station and the second stacking station, and a bin device 32 is movably arranged on the third conveying device 31;

a third loading station is arranged between the first stacking station and the second stacking station, and a suction transfer device 33 and a suction box jacking device 34 are arranged on the third loading station corresponding to the stock bin device 32;

the bin device 32 comprises a first bin 321 and a second bin 322 which are arranged in parallel, wherein the first bin 321 is reciprocated to and from the first stacking station and the third loading station, and the second bin 322 is reciprocated to and from the third loading station and the second stacking station;

the plastic uptake box jacking device 34 comprises a plurality of groups of lifting plates 341 horizontally arranged at intervals;

the first storage bin 321 includes a bearing bottom plate 3211, a plurality of groups of first guide rods 3212 longitudinally arranged on the bearing bottom plate 3211, a plastic uptake box guide cavity is formed between adjacent first guide rods 3212, a plurality of groups of plastic uptake box positioning seats 3213 are arranged in the plastic uptake box guide cavity, a lifting avoiding groove 3214 is formed between adjacent plastic uptake box positioning seats 3213 by penetrating through the bearing bottom plate 3211, and the lifting plate 341 is movably inserted in the lifting avoiding groove 3214.

Specifically, the third conveying device 31 and the bin device 32 are cooperatively adopted to realize timely switching of empty bins and guarantee continuous feeding and non-stop operation of the blister boxes, and the blister box jacking device 34 is cooperatively arranged to timely jack the stacked blister boxes after the top blister box is moved, so that feeding continuity of the blister boxes is optimized, and efficiency of orderly feeding of the blister boxes is improved; the stacked plastic suction boxes are placed on the plastic suction box positioning seat 3213, and directionally feed along the plastic suction box guide cavity, so that the ordering and the high efficiency of feeding of the plastic suction boxes are improved.

Preferably, a first detection through hole penetrates through the plastic suction box positioning seat 3213, a fifth photoelectric switch 3215 is disposed on the supporting base 3211 corresponding to the first detection through hole, and the fifth photoelectric switch 3215 is electrically connected to the third conveying device 31; when the fifth photoelectric switch 3215 in the first storage bin 321 detects that the blister box guide cavity does not contain a blister box, the third conveying device 31 is started to switch the second storage bin 322 to the third loading station, so that the automation degree of the equipment is greatly improved.

Further, the first storage bin 321 further includes a fixing plate, the fixing plate and the bearing bottom plate 3211 are positioned and fixed by a plurality of sets of limiting barrier strips 3216, and a blister box picking groove is formed through the fixing plate and communicated with the blister box guide cavity; through setting up the plastic uptake box picks up the fixed plate in groove, when reinforcing first feed bin 321's structural strength, further improve the material loading directionality of plastic uptake box.

Further, a ninth arriving material detecting component 3217 is arranged on the fixing plate corresponding to the plastic uptake box picking groove; the ninth incoming material detecting component 3217 is configured to detect whether the plastic suction box positioning seat 3213 has reached the highest position of the plastic suction box guiding cavity, and when the ninth incoming material detecting component 3217 detects that the plastic suction box has reached the highest position, the plastic suction box jacking device 34 stops working.

Furthermore, a plurality of groups of shifting pieces 3218 are arranged on the fixing plate in an extending manner corresponding to the plastic uptake box picking grooves, and the shifting pieces 3218 are used for assisting in separating the plastic uptake boxes when the plastic uptake boxes are picked by the absorbing and transferring device 33, so that the feeding efficiency of the plastic uptake boxes is improved.

Specifically, the second silo 322 has the same structure as the first silo 321.

Preferably, the plastic uptake box jacking device 34 comprises a lifting mounting seat, and a screw rod and a second guide post both longitudinally arranged in the lifting mounting seat, the screw rod is fixedly connected with a driving shaft of the first motor 342, a lifting transmission seat is movably arranged on the second guide post, the lifting transmission seat is in transmission connection with the screw rod, and the lifting plate 341 is horizontally arranged on the lifting transmission seat at intervals; through utilizing first motor 342 accurate control the number of rotations of lead screw, and then accurate control the lifting transmission seat rises a material loading height, every time the absorption is moved and is carried device 33 and pick up the back of one deck plastic uptake box, first motor 342 drive the lifting transmission seat rises to order about lifter plate 341 to promote the plastic uptake box that piles up and rise a material loading height, in order to realize plastic uptake box and pile up the material loading, wherein the material loading height is the interval of piling up between the adjacent plastic uptake box.

Further, the third conveying device 31 includes two sets of guide rails horizontally arranged, a conveying base movably arranged on the guide rails, and a third cylinder fixedly connected with the conveying base, and the first storage bin 321 and the second storage bin 322 are arranged in parallel on the conveying base; the third cylinder controls the first bin 321 and the second bin 322 to move transversely synchronously to realize bin switching, and when the first bin 321 is unloaded, the fully loaded second bin 322 is moved to the third loading station, so that the operations are alternated, the stacking and loading are not stopped, and the product loading efficiency is improved;

a first buffer and a second buffer are respectively arranged at the first stacking station and the third loading station, and the conveying seat is provided with a buffer stop block corresponding to the first buffer and the second buffer; when the third conveying device 31 drives the bin device 32 to move transversely until the buffer stop abuts against the first buffer, the second bin 322 is located in the third loading station for loading; when the third conveying device 31 drives the stock bin device 32 to move transversely until the buffer stop abuts against the second buffer, the first stock bin 321 is located in the third feeding station to perform feeding operation, and the influence of the excessive transverse movement of the stock bin device 32 on the feeding effect is avoided.

Further, the suction transfer device 33 includes a fifth traverse device 331, a third lifting device 332 movably disposed on the fifth traverse device 331, and a blister box pickup device fixedly disposed on the third lifting device 332; specifically, the fifth traverse device 331 may preferably be a linear air cylinder, a linear guide, or the like, and the third lifting device 332 may preferably be a device driven by an air cylinder or a motor;

the plastic uptake box picking device comprises a third picking seat and a plurality of groups of second suction heads 333 which are arranged on the third picking seat in parallel according to the interval distance, the second suction heads 333 are arranged corresponding to the plastic uptake box picking grooves, and a negative pressure generating device is externally connected with the second suction heads 333; the negative pressure generating device is used for generating negative pressure when the second suction head 333 sucks the blister box.

Further, the driving direction of the third conveying device 31 is perpendicular to the driving direction of the blister box lifting device 34, the driving direction of the suction transfer device 33 is perpendicular to the driving direction of the blister box lifting device 34, and the driving direction of the suction transfer device 33 is perpendicular to the driving direction of the third conveying device 31.

The utility model discloses at the during operation, including following step:

(1) The third conveying device 31 moves the first stock bin 321 stacked with blister boxes to the third loading station;

(2) The plastic uptake box jacking device 34 jacks the stacked plastic uptake boxes to rise by a loading height, the suction transfer device 33 picks up the plastic uptake box at the top layer in the first storage bin 321 and then moves to the next station, and the suction and the loading are repeated until the first storage bin 321 is unloaded;

(3) The third conveying device 31 moves the second storage bin 322 stacked with the blister boxes to the third loading station, and the step (2) is repeated to complete the alternate loading operation.

The utility model has reasonable and ingenious design, realizes timely switching of unloaded storage bins by cooperatively adopting the third conveying device and the storage bin device, ensures that the plastic uptake boxes continuously feed materials without stopping working, and is cooperatively provided with the plastic uptake box jacking device to jack the stacked plastic uptake boxes in time after the top plastic uptake box is moved, so as to optimize the feeding continuity of the plastic uptake boxes and improve the efficiency of orderly feeding of the plastic uptake boxes; the stacked plastic suction boxes are placed on the plastic suction box positioning seats, directional feeding is performed along the plastic suction box guide cavities, and the orderliness and the high efficiency of feeding of the plastic suction boxes are improved.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. The technical solutions of the present invention can be used by those skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, without departing from the scope of the present invention, using the technical means and content disclosed above. Therefore, the protection scope of the present invention should be covered by the equivalent changes made according to the shape, structure and principle of the present invention, all without departing from the technical solution of the present invention.

Claims

1. The plastic uptake box feeding equipment is characterized by comprising a first stacking station and a second stacking station which are arranged in parallel, wherein a third conveying device is arranged for connecting the first stacking station and the second stacking station, and a bin device is movably arranged on the third conveying device;

2. The plastic uptake box loading apparatus as claimed in claim 1, wherein a first detecting through hole is provided through the plastic uptake box positioning seat, and a fifth photoelectric switch is provided on the carrying bottom plate corresponding to the first detecting through hole, and the fifth photoelectric switch is electrically connected to the third conveying device.

3. The plastic uptake box loading apparatus as claimed in claim 2, wherein the first storage bin further comprises a fixing plate, the fixing plate and the bearing bottom plate are positioned and fixed by a plurality of groups of limiting barrier strips, and a plastic uptake box picking groove is provided through the fixing plate and communicated with the plastic uptake box guide cavity.

4. The blister box feeding device according to claim 3, wherein a ninth feeding detection assembly is provided on the fixed plate corresponding to the blister box pick-up slot.

5. The blister box feeding device according to claim 4, wherein a plurality of groups of shifting pieces extend from the fixed plate corresponding to the blister box picking grooves.

6. The blister box feeding apparatus according to claim 5, wherein the second magazine has the same structure as the first magazine.

7. The plastic uptake box loading apparatus of claim 6, wherein the plastic uptake box jacking device comprises a lifting mounting seat, a screw rod and a second guide post both longitudinally arranged in the lifting mounting seat, the screw rod is fixedly connected with a driving shaft of the first motor, a lifting transmission seat is movably arranged on the second guide post, the lifting transmission seat is in transmission connection with the screw rod, and the lifting plate is horizontally arranged on the lifting transmission seat according to a spacing distance.

8. The plastic uptake box loading apparatus according to claim 7, wherein the third conveyor comprises two sets of horizontally disposed guide rails, a conveying base movably disposed on the guide rails, and a third cylinder fixedly connected to the conveying base, and the first and second bins are disposed in parallel on the conveying base;

9. The blister box feeding apparatus according to claim 8, wherein the suction transferring device comprises a fifth traverse device, a third lifting device movably arranged on the fifth traverse device, and a blister box picking device fixedly arranged on the third lifting device;

10. The blister box feeding equipment according to claim 9, wherein the driving direction of the third conveying device is perpendicular to the driving direction of the blister box lifting device, the driving direction of the suction transfer device is perpendicular to the driving direction of the blister box lifting device, and the driving direction of the suction transfer device is perpendicular to the driving direction of the third conveying device.