CN219705747U - Online strake slitting granulator of plastic-aluminum board production line - Google Patents

Abstract

The utility model belongs to the technical field of aluminum-plastic plate production lines, and relates to an online edge slitting and granulating machine for an aluminum-plastic plate production line, wherein the edge slitting and granulating machine is arranged at one side of the downstream of a plastic core plate edge cutter, edges cut by the plastic core plate edge cutter are continuously pulled into the edge slitting and granulating machine, the edge slitting and granulating machine comprises a longitudinal traction mechanism and a transverse cutting mechanism which are sequentially arranged along the conveying direction, the longitudinal traction mechanism comprises a first traction roller and a second traction roller which rotate in opposite directions, a plurality of longitudinal cutting tools for cutting the edges are arranged on the first traction roller and the second traction roller, the transverse cutting mechanism comprises a cutter frame rotating shaft, and a plurality of transverse cutting tools for cutting the edges are circumferentially arranged on the cutter frame rotating shaft. The online strake slitting and granulating machine for the aluminum-plastic plate production line provided by the utility model can reduce the occupied space and save labor and time.

Description

Online strake slitting granulator of plastic-aluminum board production line

Technical Field

The utility model belongs to the technical field of aluminum-plastic plate production lines, and relates to an online edging slitting and granulating machine for an aluminum-plastic plate production line.

Background

The aluminum-plastic plate is a composite plate of plastic and aluminum, and is generally processed in a production line through a production line. The processing technology is that the plastic plate core material is extruded first, and then the aluminum is rolled up to form the aluminum-plastic plate. Before the plastic plate core material and the upper and lower aluminum are compounded, the width of the plastic plate core material is different, and the compound procedure is affected. Therefore, the plastic plate core material needs to be trimmed before compounding, so that the width of the plastic plate core material is consistent, and the subsequent operation can be performed. The existing plastic board core materials are generally cut by using a trimming mechanism, and during production, the plastic residual materials are continuously cut by a blade of the trimming mechanism to form edge strips, so that the edge strips can be broken and recycled for saving cost, but a large amount of places are occupied by breaking procedures and equipment, and labor and time are wasted.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the online strake slitting and granulating machine for the aluminum-plastic plate production line, which can reduce the occupied space and save labor and time.

In order to solve the technical problems, the aim of the utility model is realized by the following technical scheme:

the utility model provides an online strake slitting granulator of plastic-aluminum board production line, strake slitting granulator sets up in one side of plastics core bead cutter low reaches, the strake that plastics core bead cutter cut pulls to the strake slitting granulator in succession, strake slitting granulator includes longitudinal traction mechanism and the transverse cutting mechanism that sets gradually along direction of delivery, longitudinal traction mechanism includes first traction roller and the second traction roller of looks pivoted, be provided with the longitudinal cutting cutter of a plurality of longitudinal cutting strakes on first traction roller and the second traction roller, transverse cutting mechanism includes the knife rest pivot, circumference is provided with the transverse cutting cutter of a plurality of transverse cutting strakes in the knife rest pivot.

In the above-mentioned aluminum-plastic panel production line on-line strake slitting granulator, first traction roller, second traction roller and knife rest pivot pass through same motor drive, the motor passes through gear drive group transmission with first traction roller, second traction roller and knife rest pivot and is connected. Of course, a plurality of motors may be used to drive the first pull roll, the second pull roll, and the tool holder spindle, respectively.

In the above-mentioned aluminum-plastic panel production line on-line strake slitting granulator, strake slitting granulator includes the frame, one side of frame workstation is provided with the motor, and the opposite side is provided with the casing, vertical traction mechanism and horizontal cutting mechanism all set up in the casing. Preferably, the height of the frame is consistent with that of an aluminum-plastic plate production line.

In the above-mentioned aluminum-plastic panel production line on-line strake slitting granulator, vertical traction mechanism sets up along direction of delivery downward sloping, be provided with the play feed bin that is located under the transverse cutting mechanism in the casing, one side of casing is provided with the discharge gate with play feed bin intercommunication. Further, a sloping plate for guiding the materials to the discharge port is arranged in the discharge bin. Further, a material collecting box or a material collecting bag is arranged below the material outlet.

In the above-mentioned online strake slitting granulator of plastic-aluminum board production line, gear drive group includes: the driving shaft is connected with the motor through a synchronous belt transmission, a first driving gear and a second driving gear are coaxially sleeved on the driving shaft, the first driving gear is meshed with a transverse cutting driving gear sleeved at one end of a cutter frame rotating shaft, the second driving gear is meshed with an intermediate gear, the intermediate gear is meshed with a first traction driving gear sleeved at one end of a first traction roller, the other end of the first traction roller is sleeved with a second traction driving gear, and the second traction driving gear is meshed with a third traction driving gear sleeved on the second traction roller.

In the above-mentioned aluminum-plastic panel production line on-line strake slitting granulator, the interval is provided with a plurality of first cutting knife wheels on the first traction roller, the interval is provided with a plurality of second cutting knife wheels on the second traction roller, crisscross setting of inlaying of first cutting knife wheel and second cutting knife wheel. Further, a gap is reserved between the first cutting knife wheel and the second cutting knife wheel.

In the above-mentioned aluminum-plastic panel production line on-line strake slitting granulator, be provided with a plurality of inclined mounting platform along circumference in the knife rest pivot, horizontal cutting tool passes through the fastener to be fixed on mounting platform, horizontal cutting tool's blade slope sets up and along axial distribution.

In the above-mentioned aluminum-plastic panel production line is in line strake slitting pelleter, horizontal cutting tool is provided with the multiunit, and multiunit horizontal cutting tool distributes along the axial, and same group horizontal cutting tool is located on same circumference face.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model provides an online edge strip slitting and granulating machine for an aluminum-plastic plate production line, which is characterized in that edges cut by a plastic core plate edge cutter are continuously pulled into the edge strip slitting and granulating machine, and then slitting and granulating are carried out by the edge strip slitting and granulating machine, so that plastic edges with different widths on the production line are cut into uniform strips, and then cut into granules to be stored into bags for direct recycling, thereby realizing full-automatic online processing of the edges, and reducing occupied space and labor waste.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the transmission structure of the present utility model;

reference numerals: 1. a first pull roll; 2. a second traction roller; 3. a longitudinal cutting tool; 4. a tool rest rotating shaft; 5. a transverse cutting tool; 6. a motor; 7. a frame; 8. a housing; 9. a synchronous belt; 10. a drive shaft; 11. a first drive gear; 12. a second drive gear; 13. a transverse cutting drive gear; 14. an intermediate gear; 15. a first traction drive gear; 16. a second traction drive gear; 17. and a third traction drive gear.

Detailed Description

The utility model is further described in the following embodiments with reference to the figures, see fig. 1-2:

the utility model provides an online strake slitting granulator of plastic-aluminum board production line, strake slitting granulator sets up in one side of plastics core bead cutter low reaches, the strake that plastics core bead cutter cut is continuous pulls to in the strake slitting granulator, strake slitting granulator includes longitudinal traction mechanism and the transverse cutting mechanism that sets gradually along direction of delivery, longitudinal traction mechanism includes first pull roll 1 and the second pull roll 2 of looks pivoted, be provided with the longitudinal cutting cutter 3 of a plurality of longitudinal cutting strakes on first pull roll 1 and the second pull roll 2, transverse cutting mechanism includes knife rest pivot 4, circumference is provided with the transverse cutting cutter 5 of a plurality of transverse cutting strakes on the knife rest pivot 4.

During operation, the extruded plastic plate core material is pulled by a traction machine to move along the conveying direction, the plastic core trimming machine is installed to set the width in the moving process to cut off redundant strakes, the strakes are still moved into the strake slitting and granulating machine along the conveying direction by being pulled by a longitudinal traction mechanism, the strakes between the first traction roller 1 and the second traction roller 2 are pulled by relative rotation, meanwhile, the strakes are cut into narrow strips with the same size by the longitudinal cutting tools 3 on the first traction roller 1 and the second traction roller 2 in the conveying process, the strakes are continuously moved forward to a transverse cutting mechanism, the knife rest rotating shaft 4 drives the transverse cutting tools 5 to rotate at a constant speed, and the strakes moving to the transverse cutting mechanism are cut into small blocks.

In this embodiment, the first pull roll 1, the second pull roll 2 and the tool rest rotating shaft 4 are driven by the same motor 6, and the motor 6 is in transmission connection with the first pull roll 1, the second pull roll 2 and the tool rest rotating shaft 4 through a gear transmission set. Of course, in other embodiments, a plurality of motors 6 may be used to drive the first traction roller 1, the second traction roller 2, and the tool rest rotating shaft 4, and this structure may omit a transmission structure, and the motor 6 shaft may be connected to the first traction roller 1, the second traction roller 2, and the tool rest rotating shaft 4 through a coupling, but multiple motors 6 are required to drive.

Further, referring to fig. 1, the edge strip slitting and granulating machine includes a frame 7, a motor 6 is disposed on one side of a workbench of the frame 7, a casing 8 is disposed on the other side of the workbench, and the longitudinal traction mechanism and the transverse cutting mechanism are both disposed in the casing 8. Preferably, the height of the frame 7 is consistent with that of an aluminum plastic plate production line.

The longitudinal traction mechanism is arranged in a downward inclined mode along the conveying direction, so that the strakes can easily enter the transverse cutting mechanism, a discharging bin located right below the transverse cutting mechanism is arranged in the machine shell 8, and a discharging hole communicated with the discharging bin is formed in one side of the machine shell 8. Further, a sloping plate for guiding the materials to the discharge port is arranged in the discharge bin. Further, a material collecting box or a material collecting bag is arranged below the material outlet. During operation, the crushed aggregates sequentially pass through the material outlet bin and the material outlet hole and enter the movable material collecting box or the material collecting bag.

Referring to fig. 2, the gear assembly includes: the driving shaft 10 is in transmission connection with the motor 6 through the synchronous belt 9, a first driving gear 11 and a second driving gear 12 are coaxially sleeved on the driving shaft 10, the first driving gear 11 is meshed with a transverse cutting driving gear 13 sleeved at one end of the cutter frame rotating shaft 4, the second driving gear 12 is meshed with an intermediate gear 14, the intermediate gear 14 is meshed with a first traction driving gear 15 sleeved at one end of the first traction roller 1, the other end of the first traction roller 1 is sleeved with a second traction driving gear 16, and the second traction driving gear 16 is meshed with a third traction driving gear 17 sleeved on the second traction roller 2. When the automatic cutting machine works, the motor 6 drives the driving shaft 10 to rotate, the first driving gear 11 and the second driving gear 12 rotate along with the driving shaft, the first driving gear 11 drives the transverse cutting driving gear 13 and the cutter rest rotating shaft 4 to rotate simultaneously through the intermediate gear 14 hinged on the machine shell 8, the second driving gear 12 drives the first traction driving gear 15 and the first traction roller 1 to rotate simultaneously, and the rotating first traction roller 1 drives the third traction driving gear 17 and the second traction roller 2 to rotate simultaneously after being transmitted through the second traction driving gear 16.

The longitudinal cutting tool 3 in this embodiment has a specific structure that a plurality of first cutting wheels are arranged on the first traction roller 1 at intervals, a plurality of second cutting wheels are arranged on the second traction roller 2 at intervals, and the first cutting wheels and the second cutting wheels are in staggered embedding arrangement. Further, a gap is reserved between the first cutting knife wheel and the second cutting knife wheel.

The specific structure of the transverse cutting tool 5 in this embodiment is that a plurality of inclined mounting platforms are arranged on the tool rest rotating shaft 4 along the circumferential direction, the transverse cutting tool 5 is fixed on the mounting platforms through fasteners, and the cutting edges of the transverse cutting tool 5 are obliquely arranged and axially distributed.

When the width of the edge strip to be cut is very wide, a plurality of groups of transverse cutting tools 5 can be arranged, the transverse cutting tools 5 are provided with a plurality of groups, the transverse cutting tools 5 are distributed along the axial direction, and the same transverse cutting tools 5 are positioned on the same circumferential surface. In this embodiment, two sets of transverse cutting tools 5 are provided in total.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model in this way, therefore: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides an online strake slitting granulator of plastic-aluminum board production line, strake slitting granulator sets up in one side of plastics core bead cutter low reaches, a serial communication port, the strake that plastics core bead cutter cut is in continuous traction to strake slitting granulator, strake slitting granulator includes longitudinal traction mechanism and the transverse cutting mechanism that sets gradually along direction of delivery, longitudinal traction mechanism includes first pull roll (1) and second pull roll (2) that rotate in opposite directions, be provided with longitudinal cutting cutter (3) of a plurality of longitudinal cutting strakes on first pull roll (1) and second pull roll (2), transverse cutting mechanism includes knife rest pivot (4), circumference is provided with transverse cutting cutter (5) of a plurality of transverse cutting strakes on knife rest pivot (4).

2. The on-line edging slitting cutter for aluminum plastic panel production line according to claim 1, wherein the first traction roller (1), the second traction roller (2) and the cutter rest rotating shaft (4) are driven by the same motor (6), and the motor (6) is in transmission connection with the first traction roller (1), the second traction roller (2) and the cutter rest rotating shaft (4) through a gear transmission group.

3. The on-line strake slitting and granulating machine of the aluminum-plastic plate production line according to claim 2, wherein the strake slitting and granulating machine comprises a frame (7), a motor (6) is arranged on one side of a workbench of the frame (7), a machine shell (8) is arranged on the other side of the workbench of the frame, and the longitudinal traction mechanism and the transverse cutting mechanism are both arranged in the machine shell (8).

4. The aluminum-plastic panel production line is characterized in that the longitudinal traction mechanism is arranged in a downward inclined mode along the conveying direction, a discharging bin located under the transverse cutting mechanism is arranged in the machine shell (8), and a discharging hole communicated with the discharging bin is formed in one side of the machine shell (8).

5. A plastic-aluminum panel production line on-line strake slitting and dicing machine as recited in claim 3, wherein the gear drive set comprises: the automatic cutting machine comprises a driving shaft (10) connected with a motor (6) through a synchronous belt (9) in a transmission manner, a first driving gear (11) and a second driving gear (12) are coaxially sleeved on the driving shaft (10), the first driving gear (11) is meshed with a transverse cutting driving gear (13) sleeved on one end of a cutter frame rotating shaft (4), the second driving gear (12) is meshed with an intermediate gear (14), the intermediate gear (14) is meshed with a first traction driving gear (15) sleeved on one end of a first traction roller (1), a second traction driving gear (16) is sleeved on the other end of the first traction roller (1), and a third traction driving gear (17) sleeved on a second traction roller (2) is meshed with the second traction driving gear (16).

6. The on-line edging slitting cutter for the aluminum plastic panel production line according to claim 1, wherein a plurality of first cutting knife wheels are arranged on the first traction roller (1) at intervals, a plurality of second cutting knife wheels are arranged on the second traction roller (2) at intervals, and the first cutting knife wheels and the second cutting knife wheels are arranged in a staggered and inlaid mode.

7. The aluminum-plastic panel production line on-line edging slitting cutter according to claim 1, wherein a plurality of inclined mounting platforms are arranged on the cutter rest rotating shaft (4) along the circumferential direction, the transverse cutting cutters (5) are fixed on the mounting platforms through fasteners, and the cutting edges of the transverse cutting cutters (5) are obliquely arranged and axially distributed.

8. The aluminum-plastic panel production line on-line strake slitting and granulating machine according to claim 7, wherein a plurality of groups of transverse cutting tools (5) are arranged, the groups of transverse cutting tools (5) are distributed along the axial direction, and the same group of transverse cutting tools (5) are positioned on the same circumferential surface.