CN108312614B - Conveying device for raw materials of packaging box - Google Patents

Abstract

The invention provides a conveying device for raw materials of a packaging box, and belongs to the technical field of machinery. It has solved the problem that prior art has had stability not high. This conveyor of packing carton raw materials, including the frame, still include conveyer belt, deflector, action wheel, follow driving wheel and excessive mechanism, the quantity of above-mentioned deflector is two and parallel links firmly in the frame, forms the pan feeding passageway that is used for placing the packing carton raw materials between two deflectors, and above-mentioned action wheel is connected on the deflector, and the aforesaid is connected in the frame from the driving wheel, and the excessive mechanism of above-mentioned is connected in the frame and excessive mechanism is located the action wheel and is followed between the driving wheel. This conveyor of packing carton raw materials stability is high.

Description

Conveying device for raw materials of packaging box

Technical Field

The invention belongs to the technical field of machinery, and relates to a conveying device for raw materials of a packaging box.

Background

In the process of manufacturing the small-sized packaging box, the long sheet-shaped raw materials are small in size and easy to dump after being stacked. Therefore, in an industrial operation, a long sheet-like raw material is generally conveyed by a conveyor belt, and a raw material for a package box is conveyed to a processing step. The processing operator takes out the raw materials, and then cuts and folds the raw materials at the corresponding process, thereby processing the packaging box.

However, the existing conveyor belt is generally horizontally arranged, and the raw materials of the packing boxes are easy to slide off the conveyor belt during the conveying process.

Disclosure of Invention

The invention aims to provide a conveying device for raw materials of packaging boxes, which has a compact structure and high stability and solves the problems in the prior art.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a conveyor of packing carton raw materials, which comprises a frame, a serial communication port, the conveyer belt is still included, a serial communication port, the action wheel, from driving wheel and excessive mechanism, the quantity of above-mentioned deflector is two and parallel links firmly in the frame, form the pan feeding passageway that is used for placing the packing carton raw materials between two deflectors, above-mentioned action wheel is connected on the deflector, the aforesaid is connected in the frame from the driving wheel, above-mentioned excessive mechanism is connected in the frame and excessive mechanism is located the action wheel and from between the driving wheel, above-mentioned conveyer belt cover is at the action wheel and from the driving wheel on and excessive mechanism is used in the conveyer belt middle part, conveyer belt middle part is parallel with the deflector under the effect of excessive mechanism, above-mentioned action wheel, from the driving wheel, conveyer belt and excessive mechanism form a conveying unit.

The conveying device is creatively provided with two conveying units which are symmetrically arranged, and the middle parts of the conveying belts in the two conveying units are in a vertical state. After the packing carton raw materials sent into the pan feeding passageway, the conveyer belt that removes drove the smooth movement of packing carton raw materials, that is to say, this device is carried the packing carton raw materials of state of erectting and is carried.

Particularly, the action wheel rotation in-process of two conveying unit, the conveyer belt that is located on the action wheel will continuously move to stably accomplish the transport of packing carton raw materials.

The conveyer belt between action wheel and transition mechanism is in the horizontality, overturns the conveyer belt 90 degrees under the effect of transition mechanism to make the conveyer belt between deflector and the follow driving wheel be the state of erectting. Two conveyor belts in a vertical state can stably convey the raw materials of the packing boxes.

In the above-mentioned conveyor of packing carton raw materials, excessive mechanism include guide plate and connecting rod, above-mentioned guide plate is the slice, above-mentioned connecting rod inner links firmly in the middle part of the guide plate, the connecting rod outer end links to each other with the frame, guide plate inner is perpendicular with the deflector, the guide plate outer end is parallel with the deflector, has the transition section of smooth transition between guide plate inner and outer end.

Because the inner end of the guide sheet is vertical to the guide plate, the outer end of the guide sheet is parallel to the guide plate. The lateral part of the conveying belt is tightly attached to the guide sheet, and the attaching stability between the conveying belt and the guide sheet can be packaged under the action of the transition section.

In the above conveying device for raw materials of the packing box, the frame is fixedly connected with a cylindrical positioning cylinder, the outer end of the connecting rod is embedded in the positioning cylinder, and a locking structure capable of locking the connecting rod is arranged between the positioning cylinder and the connecting rod.

In the above-mentioned conveyor of packing carton raw materials, locking structure includes a through-hole and a locking lever that the lateral part of a location section of thick bamboo runs through, and above-mentioned locking lever inlays in through-hole department and with a location section of thick bamboo threaded connection, the locking lever inner supports and leans on the lateral part of connecting rod.

After the locking rod is released, the position of the connecting rod relative to the positioning cylinder can be changed, so that the guide sheet is far away from the guide plate or close to the guide plate.

Of course, after the position of the connecting rod is adjusted, the locking is screwed down again.

In the above-mentioned conveying device for raw materials of packaging boxes, the transition mechanism further comprises a first ejector rod connected to the frame, the first ejector rod is located on one side of the positioning cylinder, and the first ejector rod abuts against the inner end of the guide piece.

In the conveying device for the raw materials of the packaging box, the rack is fixedly connected with a cylindrical first auxiliary cylinder, the first auxiliary cylinder is connected with a first positioning rod, the first ejector rod is embedded in the first auxiliary cylinder, and the first positioning rod abuts against the first ejector rod.

In the above device for conveying the raw materials of the packaging box, the outer end of the ejector rod is connected with a first conical pressing head.

The first ejector rod can be locked on the first auxiliary barrel through the first positioning rod, and of course, the length of the first positioning rod can be properly adjusted through the structure.

The first pressure head and the ejector rod are arranged in a split mode, and once the first pressure head is abraded, the first pressure head and the ejector rod can be replaced independently, so that the use cost is effectively reduced.

In the above-mentioned conveying appliance for raw materials of packing boxes, the transition mechanism further comprises a second ejector rod connected to the frame, the second ejector rod is located at the other side of the positioning cylinder, and the second ejector rod abuts against the outer end of the guide piece.

In the conveying device for the raw materials of the packaging box, the frame is fixedly connected with a cylindrical auxiliary cylinder II, the auxiliary cylinder II is connected with a positioning rod II, the ejector rod II is embedded in the auxiliary cylinder II, and the positioning rod II is abutted against the ejector rod II.

In the above conveying device for the raw materials of the packing box, the two ends of the ejector rod are connected with the second conical pressing head.

The second ejector rod can be locked on the second auxiliary barrel through the second positioning rod, and the length of the second positioning rod can be properly adjusted through the structure.

The second pressure head and the ejector rod are arranged in a two-body mode, and once the second pressure head is abraded, the second pressure head and the ejector rod can be replaced independently, so that the use cost is effectively reduced.

In the conveying device for the raw materials of the packaging boxes, the rack is also connected with a plurality of pressing wheels, the axial lines of the pressing wheels are parallel to the side parts of the guide plates, and the pressing wheels abut against the conveying belt.

The conveying belt is pressed tightly by the pressing wheel, and the raw materials of the packing box conveyed to be packed can be stably contacted with the conveying belt.

Compared with the prior art, this conveyor of packing carton raw materials is owing to enable the conveyer belt and erect under the effect of excessive mechanism, and the packing carton raw materials is located between two conveyer belts of erectting, and the action wheel rotates the in-process to can drive the smooth and easy removal of packing carton raw materials. The operator of packing carton shaping process department can efficient shaping packing carton after taking off the raw materials on this device, that is to say, this conveyor can improve the shaping efficiency of packing carton.

Simultaneously, because two are carried and all are erect, the both sides of packing carton raw materials are supported and are leaned on the conveyer belt that corresponds, and the bottom of packing carton raw materials is supported and is leaned on in the frame, and the conveyer belt that removes can not only avoid the packing carton raw materials to drop, but also the drive packing carton raw materials that can also carry remove, and its stability is than higher.

In addition, the parts in the device are all arranged at the guide plate, so the device has compact structure and high practical value.

Because the conveyer belt receives the tensioning effect of excessive mechanism, the conveyer belt can not take place to rock at the removal in-process, further improvement its stability.

Drawings

Fig. 1 is a schematic top view of the apparatus for conveying the raw material of the packing box.

Fig. 2 is a schematic view of the structure of the guide piece of the conveying device for the raw materials of the packing box.

In the figure, 1, a frame; 2. a conveyor belt; 3. a guide plate; 4. a driving wheel; 5. a driven wheel; 6. a guide piece; 7. a connecting rod; 8. a positioning cylinder; 9. a lock lever; 10. a first ejector rod; 11. a first auxiliary cylinder; 12. a first positioning rod; 13. a second ejector rod; 14. a second auxiliary cylinder; 15. a second positioning rod; 16. pressing a first press head; 17. a second pressure head; 18. and (4) pressing the wheel.

Detailed Description

As shown in fig. 1 and 2, a conveying device for raw materials of a packing box comprises a frame 1, a conveying belt 2, two guide plates 3, a driving wheel 4, a driven wheel 5 and a transition mechanism, wherein the two guide plates 3 are parallelly and fixedly connected to the frame 1, a feeding channel for placing the raw materials of the packing box is formed between the two guide plates 3, the driving wheel 4 is connected on the guide plates 3, the driven wheel 5 is connected on the frame 1, the transition mechanism is connected on the frame 1 and is positioned between the driving wheel 4 and the driven wheel 5, the conveyer belt 2 is sleeved on the driving wheel 4 and the driven wheel 5, the transition mechanism acts on the middle part of the conveyer belt 2, under the action of the transition mechanism, the middle part of the conveying belt 2 is parallel to the guide plates 3, the driving wheel 4, the driven wheel 5, the conveying belt 2 and the transition mechanism form a conveying unit, and the outer sides of the two guide plates 3 are respectively provided with a conveying unit corresponding to the two guide plates.

The transition mechanism comprises a guide sheet 6 and a connecting rod 7, the guide sheet 6 is sheet-shaped, the inner end of the connecting rod 7 is fixedly connected to the middle of the guide sheet 6, the outer end of the connecting rod 7 is connected with the rack 1, the inner end of the guide sheet 6 is perpendicular to the guide plate 3, the outer end of the guide sheet 6 is parallel to the guide plate 3, and a smooth transition section is arranged between the inner end and the outer end of the guide sheet 6.

The frame 1 is fixedly connected with a cylindrical positioning cylinder 8, the outer end of the connecting rod 7 is embedded in the positioning cylinder 8, and a locking structure capable of locking the connecting rod 7 is arranged between the positioning cylinder 8 and the connecting rod 7.

The locking structure comprises a through hole penetrating through the side part of the positioning cylinder 8 and a locking rod 9, the locking rod 9 is embedded in the through hole and is in threaded connection with the positioning cylinder 8, and the inner end of the locking rod 9 abuts against the side part of the connecting rod 7.

The transition mechanism further comprises a first ejector rod 10 connected to the rack 1, the first ejector rod 10 is located on one side of the positioning cylinder 8, and the first ejector rod 10 abuts against the inner end of the guide sheet 6.

The frame 1 is fixedly connected with a cylindrical auxiliary cylinder I11, the auxiliary cylinder I11 is connected with a positioning rod I12, the ejector rod I10 is embedded in the auxiliary cylinder I11, and the positioning rod I12 abuts against the ejector rod I10.

The outer end of the ejector rod I10 is connected with a conical pressure head I16.

The transition mechanism further comprises a second ejector rod 13 connected to the rack 1, the second ejector rod 13 is located on the other side of the positioning cylinder 8, and the second ejector rod 13 abuts against the outer end of the guide sheet 6.

The frame 1 is fixedly connected with a cylindrical auxiliary cylinder II 14, the auxiliary cylinder II 14 is connected with a positioning rod II 15, the ejector rod II 13 is embedded in the auxiliary cylinder II 14, and the positioning rod II 15 abuts against the ejector rod II 13.

The outer end of the second ejector rod 13 is connected with a second conical pressure head 17.

The frame 1 is also connected with a plurality of pinch rollers 18, the axial lead of the pinch rollers 18 is parallel to the side part of the guide plate 3, and the pinch rollers 18 are propped against the conveying belt 2.

The conveying device is creatively provided with two conveying units which are symmetrically arranged, and the middle parts of the conveying belts in the two conveying units are in a vertical state. After the packing carton raw materials sent into the pan feeding passageway, the conveyer belt that removes drove the smooth movement of packing carton raw materials, that is to say, this device is carried the packing carton raw materials of state of erectting and is carried.

Particularly, the action wheel rotation in-process of two conveying unit, the conveyer belt that is located on the action wheel will continuously move to stably accomplish the transport of packing carton raw materials.

The conveyer belt between action wheel and transition mechanism is in the horizontality, overturns the conveyer belt 90 degrees under the effect of transition mechanism to make the conveyer belt between deflector and the follow driving wheel be the state of erectting. Two conveyor belts in a vertical state can stably convey the raw materials of the packing boxes.

Claims (1)

1. A conveying device for raw materials of a packaging box comprises a rack and is characterized by further comprising two conveying belts, guide plates, a driving wheel, a driven wheel and a transition mechanism, wherein the two guide plates are fixedly connected to the rack in parallel, a feeding channel for placing the raw materials of the packaging box is formed between the two guide plates, the driving wheel is connected to the guide plates, the driven wheel is connected to the rack, the transition mechanism is connected to the rack and positioned between the driving wheel and the driven wheel, the conveying belts are sleeved on the driving wheel and the driven wheel, the transition mechanism acts on the middle of the conveying belts, the middle of the conveying belts is parallel to the guide plates under the action of the transition mechanism, the driving wheel, the driven wheel, the conveying belts and the transition mechanism form a conveying unit, and conveying units corresponding to the conveying units are arranged on the outer sides of the two guide plates;

the transition mechanism comprises a guide sheet and a connecting rod, the guide sheet is sheet-shaped, the inner end of the connecting rod is fixedly connected with the middle part of the guide sheet, the outer end of the connecting rod is connected with the rack, the inner end of the guide sheet is vertical to the guide plate, the outer end of the guide sheet is parallel to the guide plate, and a transition section with smooth transition is arranged between the inner end and the outer end of the guide sheet;

the rack is fixedly connected with a cylindrical positioning cylinder, the outer end of the connecting rod is embedded in the positioning cylinder, and a locking structure capable of locking the connecting rod is arranged between the positioning cylinder and the connecting rod;

the locking structure comprises a through hole and a lock rod, wherein the side part of the positioning cylinder penetrates through the through hole, the lock rod is embedded in the through hole and is in threaded connection with the positioning cylinder, and the inner end of the lock rod abuts against the side part of the connecting rod;

the transition mechanism also comprises a first ejector rod connected to the rack, the first ejector rod is positioned at one side of the positioning cylinder, and the first ejector rod abuts against the inner end of the guide sheet;

the rack is fixedly connected with a cylindrical first auxiliary cylinder, the first auxiliary cylinder is connected with a first positioning rod, the first ejector rod is embedded in the first auxiliary cylinder, and the first positioning rod abuts against the first ejector rod;

the outer end of the ejector rod I is connected with a conical pressure head I;

the transition mechanism also comprises a second ejector rod connected to the rack, the second ejector rod is positioned on the other side of the positioning cylinder, and the second ejector rod abuts against the outer end of the guide sheet;

the machine frame is fixedly connected with a cylindrical auxiliary cylinder II, the auxiliary cylinder II is connected with a positioning rod II, the ejector rod II is embedded in the auxiliary cylinder II, and the positioning rod II abuts against the ejector rod II;

the outer end of the ejector rod is connected with a second conical pressure head;

the frame is also connected with a plurality of pinch rollers, the axial lead of the pinch rollers is parallel to the side part of the guide plate, and the pinch rollers are abutted against the conveying belt;

two guide pieces are arranged on the same conveying unit, and a plurality of press wheels connected to the rack are positioned between the two guide pieces of the same conveying unit.

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