CN111571706A

CN111571706A - Portable panel board crosscut machine

Info

Publication number: CN111571706A
Application number: CN202010429197.6A
Authority: CN
Inventors: 董和平
Original assignee: Hangzhou Sanju Auto Parts Co ltd
Current assignee: Hangzhou Dragonsolar Optical Glass Co ltd
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2020-08-25
Anticipated expiration: 2040-05-20
Also published as: CN111571706B

Abstract

The invention discloses a portable instrument panel transverse cutting machine, and relates to the technical field of instrument panel processing devices; the plate transverse cutting device comprises a supporting mechanism wound with a plate, a workbench used for supporting the plate, a transverse cutting mechanism positioned above the workbench and used for transversely cutting the plate, a longitudinal cutting mechanism positioned above the workbench and used for longitudinally cutting the transversely cut plate, a finished plate storage mechanism used for storing the finished plate processed by the transverse cutting mechanism and the longitudinal cutting mechanism, a discharge conveyor belt used for conveying the finished plate to the storage mechanism, and a feeding mechanism used for conveying the plate to the position below the transverse cutting mechanism; possesses crosscut, rip cutting, ejection of compact, material loading function, and the convenience is good.

Description

Portable panel board crosscut machine

Technical Field

The invention belongs to the technical field of instrument panel processing devices, and particularly relates to a portable instrument panel transverse cutting machine.

Background

When the instrument panel is processed, a whole roll of plate needs to be transversely cut into strip-shaped plates by a transverse cutting machine, and then the strip-shaped plates are longitudinally cut for multiple times to finally form small finished plates; and taking the finished plate to remove silk screen printing, and finally punching to obtain the finished instrument panel.

However, the existing transverse cutting machine can only transversely cut the plate but cannot longitudinally cut the plate, and has single function and inconvenience.

Disclosure of Invention

The invention aims to overcome the defects of single function and inconvenience in the prior art, and provides a convenient instrument panel transverse cutting machine which is multifunctional and good in convenience.

In order to achieve the purpose, the invention adopts the following technical scheme:

a portable instrument panel transverse cutting machine comprises a supporting mechanism wound with a panel, a workbench used for supporting the panel, a transverse cutting mechanism located above the workbench and used for transversely cutting the panel, a longitudinal cutting mechanism located above the workbench and used for longitudinally cutting the transversely cut panel, a finished panel storage mechanism used for storing the finished panel processed by the transverse cutting mechanism and the longitudinal cutting mechanism, a discharge conveyor belt used for conveying the finished panel to the storage mechanism, and a feeding mechanism used for conveying the panel to the lower part of the transverse cutting mechanism; the transverse cutting mechanism comprises a transverse cutter for transversely cutting the plate and a transverse cutting cylinder for lifting the transverse cutter; the slitting mechanism comprises a plurality of slitting knives for slitting the plates after the transverse cutting knife rises so as to form a plurality of finished plates; the working table comprises a main table and a plurality of secondary tables positioned on one side of the main table, which is far away from the supporting mechanism; a transverse cutting groove matched with the transverse cutter is formed between the main table and the secondary table; the secondary station comprises a plurality of rotating discharging plates for sliding the finished plates onto a discharging conveyor belt after rotation, a motor for driving the rotating discharging plates, an auxiliary plate connected between the rotating discharging plates in a sliding manner, a longitudinal cutting groove positioned on the upper side of the auxiliary plate and used for being matched with the longitudinal cutter, and an auxiliary cylinder for driving the auxiliary plate to axially move; the rotary discharging plate is characterized in that an extrusion cylinder used for extruding the plate on the rotary discharging plate is arranged above the rotary discharging plate, and an extrusion column used for extruding the plate on the main table is arranged above the main table. The storage mechanism comprises a barrel positioned at one end of the discharging conveyor belt, a supporting plate positioned in the barrel and used for supporting a finished plate, a proximity switch positioned at the bottom of the barrel, a lifting mechanism used for lifting the supporting plate, and a correlation sensor which sends an instruction to the lifting mechanism under the blocking of the finished plate on the supporting plate so as to reduce the height of the supporting plate; the lifting mechanism comprises a sliding block, a lead screw and a second motor, wherein the sliding block is connected to the outer side of the cylinder body in a sliding mode, the lead screw penetrates through the sliding block and is in threaded connection with the sliding block, and the second motor is used for rotating the lead screw. Has the functions of transverse cutting, longitudinal cutting, discharging and feeding. The supporting plate can automatically descend along with the increase of the finished plates.

Preferably, the feeding mechanism comprises a supporting roller for supporting the lower side of the plate material, and a pressing roller for pressing the plate material on the supporting roller; the main platform upside is equipped with the recess with the backing roll adaptation, the backing roll rotates to be connected in the recess, the backing roll is gone up to follow and is leveled with the workstation upside. The structure is simple.

Preferably, a support is arranged on one side of the workbench far away from the supporting mechanism, the rotary discharging plate is rotatably connected to one side of the support close to the workbench, and the auxiliary plate penetrates through the support and is in sliding connection with the support.

Preferably, the transverse cutting mechanism further comprises a supporting seat for supporting the transverse cutter, the extrusion column penetrates through the supporting seat and is in sliding connection with the supporting seat, and a spring is sleeved at the upper end of the extrusion column; the upper end of the spring is connected with the upper end of the extrusion column, and the lower end of the spring is connected with the upper side of the supporting seat; the upper end of the support is fixedly connected with a cross beam, and the transverse cutting cylinder is located between the cross beam and the supporting seat. The spring has a buffering function.

Preferably, a cavity is formed in the support, the longitudinal cutter comprises a cutter body and a cutter handle, the longitudinal cutter is located above the auxiliary plate, the middle of the cutter handle is rotatably connected to the support, one end, far away from the cutter body, of the cutter handle is located in the cavity and connected with a pull line, a line channel for passing through the pull line is formed in the support, the upper end of the pull line upwards penetrates out of the line channel and is connected with a lifting plate, a transmission rod is fixedly connected to the lifting plate and penetrates through the cross beam and is in sliding connection with the cross beam, and the lower end of the transmission rod corresponds to the upper. When the extrusion column moves upwards to extrude the transmission rod, the cutter body can be driven to rotate, so that longitudinal cutting is realized.

Preferably, the two opposite sides of the auxiliary plate are provided with guide strips arranged along the axial direction of the auxiliary plate, the two opposite sides of the rotary discharging plate are provided with guide grooves matched with the guide strips, the guide strips are slidably connected in the corresponding guide grooves, one side of the workbench, which is far away from the supporting mechanism, is provided with a connecting beam, one end of the auxiliary plate, which is far away from the supporting mechanism, is fixedly connected to the connecting beam, and the auxiliary cylinder is connected to the connecting beam. The connecting beam plays a role in transmission.

The invention has the beneficial effects that: the invention provides a portable instrument panel transverse cutting machine; the device has the functions of transverse cutting, longitudinal cutting, discharging and feeding; time and labor are saved, and the convenience is good.

Drawings

FIG. 1 is a partial cross-sectional view of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is an enlarged view of FIG. 2 at B;

FIG. 4 is a cross-sectional view C-C of FIG. 3;

FIG. 5 is a schematic view of the present invention with the slitting knife and the squeeze roll concealed;

FIG. 6 is a cross-sectional view taken along line D-D of FIG. 5;

FIG. 7 is a schematic view of the sheet after it has been extruded onto the primary and secondary stations;

FIG. 8 is a schematic view of a panel after it has been cross-cut;

FIG. 9 is a schematic view of a sheet being slit to form a finished sheet;

FIG. 10 is a cross-sectional view E-E of FIG. 9;

FIG. 11 is a schematic view of the discharge after rotating one of the rotating discharge plates;

FIG. 12 is a schematic view of all finished boards being transported to a storage mechanism after all rotating take-off plates have been rotated in sequence.

In the figure: the device comprises a plate 1, a main table 3, a rotary discharging plate 4, a discharging conveyor belt 5, a transverse cutter 6, a longitudinal cutter 7, a transverse cutting groove 9, an auxiliary plate 10, a longitudinal cutting groove 11, an auxiliary cylinder 12, a supporting roller 13, an extrusion roller 14, a groove 15, a support 16, a cavity 17, a rotary rod 18, a cutter body 19, a cutter handle 20, a supporting seat 21, an extrusion column 22, a spring 23, a cross beam 24, a pull wire 25, a wire channel 26, a lifting plate 27, a transmission rod 28, an extrusion cylinder 29, a guide strip 30, a guide groove 31, a connecting beam 32, a cylinder 33, a supporting plate 34, a proximity switch 35, a correlation sensor 36, a sliding block 37, a lead screw 38, a second motor 39, a horn mouth 40 and a finished.

Detailed Description

The invention is explained in further detail below with reference to the figures and the detailed description:

example (b):

referring to fig. 1 to 12, a portable instrument panel transverse cutting machine comprises a supporting mechanism wound with a panel 1, a workbench for supporting the panel 1, a transverse cutting mechanism located above the workbench and used for transversely cutting the panel 1, a longitudinal cutting mechanism located above the workbench and used for longitudinally cutting the transversely cut panel 1, a storage mechanism for storing finished panels 41 processed by the transverse cutting mechanism and the longitudinal cutting mechanism, a discharge conveyor belt 5 for conveying the finished panels 41 to the storage mechanism, and a feeding mechanism for conveying the panel 1 to the lower part of the transverse cutting mechanism.

The transverse cutting mechanism comprises a transverse cutting knife 6 for transversely cutting the plate 1 and a transverse cutting cylinder for lifting the transverse cutting knife 6.

The longitudinal cutting mechanism comprises a plurality of longitudinal cutters 7 which longitudinally cut the plate 1 after the transverse cutter 6 rises so as to form a plurality of finished plates 41.

The workbench comprises a main platform 3 and a plurality of secondary platforms which are positioned on one side of the main platform 3 away from the supporting mechanism; a transverse cutting groove 9 used for being matched with the transverse cutting knife 6 is formed between the main table 3 and the secondary table.

The secondary station comprises a plurality of rotating discharging plates 4 which rotate to slide the finished plates 41 onto a discharging conveyor belt 5, a motor for driving the rotating discharging plates 4, an auxiliary plate 10 which is connected between the rotating discharging plates 4 in a sliding manner, a longitudinal cutting groove 11 which is positioned on the upper side of the auxiliary plate 10 and is matched with the longitudinal cutter 7, and an auxiliary cylinder 12 for driving the auxiliary plate 10 to move axially.

The extrusion device is characterized in that an extrusion cylinder 29 for extruding the plate 1 onto the rotary discharging plate 4 is arranged above the rotary discharging plate 4, and an extrusion column 22 for extruding the plate 1 onto the main table 3 is arranged above the main table 3.

Feed mechanism including be used for supporting panel 1 downside backing roll 13, be used for the squeeze roll 14 on backing roll 13 with panel 1 extrusion, 3 upsides of main station are equipped with the recess 15 with backing roll 13 adaptation, backing roll 13 rotates to be connected in recess 15, backing roll 13 is gone up along and is flushed with the workstation upside.

The side of the workbench far away from the supporting mechanism is provided with a bracket 16, the rotary discharging plate 4 is rotatably connected to the side of the bracket 16 near the workbench, and the auxiliary plate 10 penetrates through the bracket 16 and is in sliding connection with the bracket 16.

The transverse cutting mechanism further comprises a supporting seat 21 for supporting the transverse cutter 6, the extrusion column 22 penetrates through the supporting seat 21 and is in sliding connection with the supporting seat 21, and a spring 23 is sleeved at the upper end of the extrusion column 22; the upper end of the spring 23 is connected with the upper end of the extrusion column 22, and the lower end of the spring 23 is connected with the upper side of the support seat 21; the upper end of the bracket 16 is fixedly connected with a cross beam 24, and the cross cutting cylinder is positioned between the cross beam 24 and the supporting seat 21.

Be equipped with cavity 17 on the support 16, the longitudinal cutting knife 7 includes cutter body 19 and handle of a knife 20, the longitudinal cutting knife 7 is located the accessory plate 10 top, handle of a knife 20 middle part is rotated and is connected on support 16, the one end that cutter body 19 was kept away from to handle of a knife 20 is located cavity 17 and is connected with acting as go-between 25, be equipped with the line way 26 that is used for through acting as go-between 25 on the support 16, the line way 26 is upwards worn out and is connected with lifter plate 27 to the upper end of acting as go-between 25, the rigid coupling has transfer line 28 on the lifter plate 27, transfer line 28 pass crossbeam 24 and with crossbeam 24 sliding connection, transfer line 28 lower extreme and extrusion column.

The opposite sides of the auxiliary plate 10 are provided with guide strips 30 arranged along the axial direction of the auxiliary plate 10, the opposite sides of the rotary discharging plate 4 are provided with guide grooves 31 matched with the guide strips 30, the guide strips 30 are slidably connected in the corresponding guide grooves 31, one side of the workbench far away from the supporting mechanism is provided with a connecting beam 32, one end of the auxiliary plate 10 far away from the supporting mechanism is fixedly connected on the connecting beam 32, and the auxiliary cylinder 12 is connected on the connecting beam 32.

The storage mechanism comprises a cylinder 33 positioned at one end of the discharging conveyor belt 5, a supporting plate 34 positioned in the cylinder 33 and used for supporting a finished plate 41, a proximity switch 35 positioned at the bottom of the cylinder 33, a lifting mechanism used for lifting the supporting plate 34, and an opposite sensor 36 which gives an instruction to the lifting mechanism under the blocking of the finished plate 41 on the supporting plate 34 so as to reduce the height of the supporting plate 34.

The lifting mechanism comprises a sliding block 37 connected to the outer side of the cylinder 33 in a sliding manner, a lead screw 38 penetrating through the sliding block 37 and in threaded connection with the sliding block 37, and a second motor 39 for rotating the lead screw 38.

Principle of embodiment:

referring to fig. 7, the supporting mechanism is used to support the whole roll of sheet material 1, which is not unwound for the mature prior art; panel 1 passes between squeeze roll 14 and backing roll 13 after coming out from supporting mechanism, then be located inferior bench, squeeze cylinder 29 moves earlier, extrude panel downwards on rotating ejection of compact board 4, rotation ejection of compact board 4 this moment is the level form, under the effect of gib block 30, inferior bench has fine stability, the axis of rotation that rotates ejection of compact board 4 is located the central line that rotates ejection of compact board 4, squeeze cylinder 29 is located the axis of rotation top that rotates ejection of compact board 4, under squeeze cylinder 29's effect, it is difficult for taking place to rotate ejection of compact board 4 to rotate.

Referring to fig. 8, the support 21 is then moved downwards by the transverse cutting cylinder (not shown), the lower end of the pressing column 22 first presses the sheet against the primary table 3, and then the spring 23 is extended, and the sheet is transversely cut into an elongated sheet by the transverse cutter 6 and the transverse cutting groove 9, which is positioned on the secondary table.

Referring to fig. 9 and 10, the transverse air cylinder drives the supporting seat 21 to move upwards, when the upper end of the extrusion column 22 extrudes the transmission rod 28, the spring 23 shortens, the rotating rod 18 rotates under the action of the pull wire 25, the cutter body 19 rotates towards the longitudinal cutting groove 11, and finally, longitudinal cutting is realized, the plate is longitudinally cut into individual finished plate 41, each rotary discharging plate 4 corresponds to one finished plate 41, in the process, because the longitudinal cutting force of the cutter body 19 on the plate is provided by the extrusion column 22, and the pressure of the extrusion column 22 is provided by the spring 23, the longitudinal cutting force is gradually increased along with the compression amount of the spring 23, and the impact of the cutter body 19 on the auxiliary plate 10 is reduced.

After slitting, the extrusion cylinder 29 moves upwards, the auxiliary plate 10 moves towards the side away from the supporting mechanism under the action of the auxiliary cylinder 12, the auxiliary plate 10 is separated from the rotating discharge plates 4, then one of the rotating discharge plates 4 rotates, the finished plate 41 slides down onto the discharge conveyor 5 under the action of gravity, and falls onto the supporting plate 34 in the cylinder 33 under the action of the discharge conveyor 5, and only one rotating discharge plate 4 rotates at a time to sequentially convey all the finished plates onto the supporting plate 34, as shown in fig. 12.

It is important to note that the slitting knife 7 is always positioned between the finished boards during the discharging process, so that the finished boards are prevented from being shelved with the adjacent finished boards when rotating along with the rotating discharging plate 4.

After all the finished plates are output, the supporting seat 21 moves downwards for a certain distance, the extrusion column 22 and the transmission rod 28 are separated, the spring 23 is restored, a coil spring for restoring the slitting knife 7 is arranged at the joint of the transmission rod 18 and the support 16, the pulling force on the pulling wire is reset to zero, and the slitting knife 7 reversely rotates to the initial position.

Then, the rotating discharging plates 4 are rotated back to the horizontal state, and the auxiliary plate 10 is re-inserted between the rotating discharging plates 4, and for the insertion convenience, one end of the guide groove 31 near the bracket 16 is provided with a bell mouth 40 for the insertion convenience of the guide strip 30, see fig. 4.

It should be noted that, initially, the supporting plate 34 is located at the upper end of the barrel 33, the supporting plate 34 is close to the discharging conveyor belt 5, when the number of the finished plates on the supporting plate 34 increases, the finished plates can block the correlation sensor 36, at this time, the correlation sensor 36 sends a signal to the second motor 39, the screw 38 rotates, the supporting plate 34 stops after descending for a certain distance, as the subsequent finished plates enter the barrel, the correlation sensor 36 is blocked at each time, and the supporting plate 34 all descends for a certain distance, so that it is ensured that the falling height of the finished plates is not too large, and is not easy to be disturbed.

Claims

1. A portable instrument panel transverse cutting machine is characterized by comprising a supporting mechanism wound with a panel, a workbench used for supporting the panel, a transverse cutting mechanism positioned above the workbench and used for transversely cutting the panel, a longitudinal cutting mechanism positioned above the workbench and used for longitudinally cutting the transversely cut panel, a finished panel storage mechanism used for storing the finished panel processed by the transverse cutting mechanism and the longitudinal cutting mechanism, a discharging conveyor belt used for conveying the finished panel to the storage mechanism, and a feeding mechanism used for conveying the panel to the lower part of the transverse cutting mechanism; the transverse cutting mechanism comprises a transverse cutter for transversely cutting the plate and a transverse cutting cylinder for lifting the transverse cutter; the slitting mechanism comprises a plurality of slitting knives for slitting the plates after the transverse cutting knife rises so as to form a plurality of finished plates; the working table comprises a main table and a plurality of secondary tables positioned on one side of the main table, which is far away from the supporting mechanism; a transverse cutting groove matched with the transverse cutter is formed between the main table and the secondary table; the secondary station comprises a plurality of rotating discharging plates for sliding the finished plates onto a discharging conveyor belt after rotation, a motor for driving the rotating discharging plates, an auxiliary plate connected between the rotating discharging plates in a sliding manner, a longitudinal cutting groove positioned on the upper side of the auxiliary plate and used for being matched with the longitudinal cutter, and an auxiliary cylinder for driving the auxiliary plate to axially move; an extrusion cylinder for extruding the plate on the rotary discharging plate is arranged above the rotary discharging plate, and an extrusion column for extruding the plate on the main table is arranged above the main table; the storage mechanism comprises a barrel positioned at one end of the discharging conveyor belt, a supporting plate positioned in the barrel and used for supporting a finished plate, a proximity switch positioned at the bottom of the barrel, a lifting mechanism used for lifting the supporting plate, and a correlation sensor which sends an instruction to the lifting mechanism under the blocking of the finished plate on the supporting plate so as to reduce the height of the supporting plate; the lifting mechanism comprises a sliding block, a lead screw and a second motor, wherein the sliding block is connected to the outer side of the cylinder body in a sliding mode, the lead screw penetrates through the sliding block and is in threaded connection with the sliding block, and the second motor is used for rotating the lead screw.

2. The portable instrument panel cross cutting machine of claim 1, wherein the feeding mechanism comprises a supporting roller for supporting the lower side of the panel, a pressing roller for pressing the panel on the supporting roller; the main platform upside is equipped with the recess with the backing roll adaptation, the backing roll rotates to be connected in the recess, the backing roll is gone up to follow and is leveled with the workstation upside.

3. The portable instrument panel transverse cutting machine according to claim 1, wherein a support is provided on a side of the worktable away from the supporting mechanism, the rotary discharging plate is rotatably connected to a side of the support adjacent to the worktable, and the auxiliary plate penetrates through the support and is slidably connected with the support.

4. The portable instrument panel transverse cutting machine according to claim 3, wherein the transverse cutting mechanism further comprises a supporting seat for supporting the transverse cutting knife, the extrusion column penetrates through the supporting seat and is slidably connected with the supporting seat, and a spring is sleeved on the upper end of the extrusion column; the upper end of the spring is connected with the upper end of the extrusion column, and the lower end of the spring is connected with the upper side of the supporting seat; the upper end of the support is fixedly connected with a cross beam, and the transverse cutting cylinder is located between the cross beam and the supporting seat.

5. The portable instrument panel transverse cutting machine according to claim 4, wherein the bracket is provided with a cavity, the slitting knife comprises a knife body and a knife handle, the slitting knife is positioned above the auxiliary plate, the middle of the knife handle is rotatably connected to the bracket, one end of the knife handle, which is far away from the knife body, is positioned in the cavity and is connected with a pull wire, the bracket is provided with a wire passage for passing through the pull wire, the upper end of the pull wire upwards penetrates out of the wire passage and is connected with a lifting plate, the lifting plate is fixedly connected with a transmission rod, the transmission rod penetrates through the cross beam and is slidably connected with the cross beam, and the lower end of the transmission rod corresponds to the upper end.

6. The portable instrument panel transverse cutting machine according to claim 3, wherein the auxiliary plate is provided with guide bars arranged along the axial direction of the auxiliary plate on opposite sides thereof, the rotary discharging plate is provided with guide grooves matched with the guide bars on opposite sides thereof, the guide bars are slidably connected in the corresponding guide grooves, a connecting beam is provided on a side of the worktable away from the supporting mechanism, an end of the auxiliary plate away from the supporting mechanism is fixedly connected to the connecting beam, and the auxiliary cylinder is connected to the connecting beam.