CN110027352B - Novel embossing mechanism of forming box embossing machine - Google Patents

Abstract

The invention relates to a novel embossing mechanism of a forming box embossing machine, which comprises a supporting frame, an upper beam, a movable beam and a lower beam, wherein the lower beam is arranged at one end of the supporting frame far away from the ground, four upright posts are arranged on the lower beam, an oil cylinder is fixed on the upper beam, a piston rod and the movable beam are rigidly connected into a whole by a flange and a bolt, a workbench is arranged between the movable beam and the lower beam, one end of the movable beam, which faces the lower beam, is connected with an upper embossing die, a lower embossing die which is arranged opposite to the upper embossing die is arranged in the workbench, a pressed workpiece is arranged on the lower embossing die, and a bracket mechanism which plays a buffering role on the pressed workpiece when the oil cylinder drives the upper beam to perform embossing on the pressed workpiece on the workbench is arranged between the movable beam and the lower beam, and the novel embossing mechanism has the beneficial effects that: the bracket mechanism is arranged, so that the pressed workpiece can be buffered, the buffer indentation interval is adjustable, and the indentation effect and the yield are remarkably improved.

Description

Novel embossing mechanism of forming box embossing machine

Technical Field

The invention relates to the field of intelligent embossing machines of forming boxes, in particular to a novel embossing mechanism of an embossing machine of a forming box.

Background

The traditional hydraulic embossing machine comprises an upper beam, a movable beam and a lower beam, wherein the upper beam, the movable beam and the lower beam are connected into a whole through four upright posts and nuts, an oil cylinder is fixed on the upper beam, a piston rod and the movable beam are connected into a whole through flanges and bolts, a fixed workbench for placing a pressed workpiece is arranged on the lower beam, during operation, products are placed into the fixed workbench to be pressed, but the same hydraulic embossing machine has the condition that the pressed workpieces with different heights are different in embossing depth, the pressed workpieces are pressed through in some cases, and the fixed workbench matched with the pressed workpieces needs to be replaced when the pressed workpieces with different specifications are embossed, so that the traditional hydraulic embossing machine is troublesome to replace.

Disclosure of Invention

The technical problem to be solved by the present invention is to address the above-mentioned shortcomings of the prior art,

a novel embossing mechanism for a forming box embosser is provided.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a novel embossing mechanism of shaping box embossing machine, including the support frame, entablature, movable cross beam and entablature, the entablature sets up in the support frame one end of keeping away from ground, be provided with four stands on the entablature, movable cross beam and entablature wear to locate the stand in proper order, and the hydro-cylinder is fixed on the entablature, and piston, piston rod and movable cross beam become integrative by flange and bolt rigid connection, be provided with the workstation between movable cross beam and the entablature, the one end of movable cross beam orientation entablature is connected with the embossing mould, is provided with the lower embossing mould that sets up relatively with the embossing mould in the workstation, is pressed the work piece setting on the embossing mould down, its characterized in that: a bracket mechanism which plays a role in buffering the pressed workpiece when the oil cylinder drives the movable cross beam to emboss the pressed workpiece on the workbench is arranged between the movable cross beam and the lower cross beam.

According to the technical scheme, when the upper beam of the traditional hydraulic embossing machine drives the movable beam to implement embossing on the pressed workpiece arranged on the workbench of the lower beam towards one end of the movable beam through the oil cylinder, the embossed workpiece is too deep or is directly pressed through, so that the rejection rate is high, resource waste is caused, and production efficiency is reduced.

The novel embossing mechanism of the molding box embossing machine can be further provided with: the bracket mechanism comprises a first supporting plate, a cylinder shaft is arranged at the corresponding position of the two ends of the first supporting plate, a supporting cylinder is arranged at the corresponding position of the two ends of the lower beam, the cylinder shaft of the supporting cylinder props against the first supporting plate to enable the first supporting plate to be suspended between the movable beam and the lower beam, a connecting rod is arranged between the first supporting plate, two ends of the connecting rod are respectively connected with the connecting rod, second supporting plates are arranged at intervals, connecting grooves are arranged on two sides of the workbench, the workbench is connected with the second supporting plate through the connecting grooves, the distance between the first supporting plate and the lower beam is a first interval, a guide block is arranged at the corresponding position of the lower beam, the guide block penetrates through the guide limiting column and can axially move along the guide limiting column, a conveying mechanism is arranged between the first supporting plate and the second supporting plate, and a first interval adjusting mechanism is arranged between the guide block and one end of the movable beam, which faces the upper beam.

By adopting the technical scheme, the workbench is connected with the second supporting plate through the connecting grooves arranged on two sides so as to be suspended between the movable cross beam and the lower cross beam, after the upper movable cross beam drives the upper indentation template to be close to the pressed workpiece arranged on the lower indentation template, the supporting cylinder slowly retracts due to the fact that the force of the oil cylinder is larger than that of the supporting cylinder, the workbench moves downwards along with the movable cross beam until the workbench abuts against the lower cross beam, the second supporting plate is arranged in the connecting groove because the workbench is provided with the connecting groove, the workbench does not move downwards after abutting against the lower cross beam, a part of the force of the oil cylinder is consumed for overcoming the acting force of the supporting cylinder in the process, the pressed workpiece between the upper indentation template and the lower indentation template is pressed out of the indentation in the process, when the workbench is propped against the lower beam, the acting force is not great, so that the problem that a pressed workpiece is punched or is deeply indented in the traditional hydraulic embossing machine is avoided, the distance between the second supporting plate and the lower beam is a first distance, the conveying mechanism arranged between the connecting rod and the first supporting plate can convey the workbench and the pressed workpiece arranged on the workbench at the same time after embossing is finished, the pressed workpiece is taken out through an external workpiece taking position after conveying, the distance between the first supporting plate and the lower beam can be adjusted by the first distance adjusting mechanism arranged on the movable beam, the guiding block is arranged on the first supporting plate, the guiding limit column is arranged on the movable beam, the maximum distance between the second distance is the maximum distance between the guiding limit column and the lower beam, the distance between the first supporting plate and the lower beam is adjusted by the distance between the whole bracket mechanism and the lower beam, when the pressure of the oil cylinder is too large, the buffer effect can be improved by adjusting the second interval, so that the embossing depth can be adjusted under the condition that the oil cylinder is not replaced.

The novel embossing mechanism of the molding box embossing machine can be further provided with: the conveying mechanism comprises an adjusting screw which is respectively close to the connecting rod and penetrates through the two first supporting plates, one end part of one end of the adjusting screw is provided with a first synchronizing wheel, the two first synchronizing wheels are connected through a first synchronizing belt, the other end of one adjusting screw, which is relatively provided with the first synchronizing wheel, is provided with a second synchronizing wheel, the position, which is close to the second synchronizing wheel, of the first supporting plate is provided with a third synchronizing wheel, the second synchronizing wheel is connected with the third synchronizing wheel through a second synchronizing belt, the two end parts of the second supporting plate are respectively provided with a fourth synchronizing wheel, the second supporting plate is connected with the adjusting screw through the fourth synchronizing wheel, and the fourth synchronizing wheels on the same second supporting plate are connected through the third synchronizing belt and synchronously rotate.

According to the technical scheme, the first synchronous wheels are arranged at the same end of the two adjusting screw rods and are connected through the first synchronous belts, synchronous rotation between the two first synchronous wheels is achieved, the second synchronous wheels are arranged at the other ends of the first synchronous wheels, which are arranged on one adjusting screw rod oppositely, the linkage shafts are arranged on the first supporting plates, the third synchronous wheels are arranged on the linkage shafts, the second synchronous wheels are connected with the third synchronous wheels through the second synchronous belts, the fourth synchronous wheels are arranged at the two end parts of the second supporting plates respectively and are connected with the adjusting screw rods through the fourth synchronous wheels, synchronous rotation between the fourth synchronous wheels at the two ends of the same second supporting plate through the third synchronous belts is achieved, and a servo motor for driving the third synchronous wheels to rotate is arranged at the linkage shafts to synchronously convey a workbench in the third synchronous belt arranged on the fourth synchronous wheels of the second supporting plate.

The novel embossing mechanism of the molding box embossing machine can be further provided with: the first interval adjustment mechanism comprises a second adjusting screw rod, one end of the second adjusting screw rod penetrates through the guide block, the other end of the second adjusting screw rod penetrates out of the movable cross beam to form an adjusting end, one end, close to the movable cross beam, of the adjusting end is provided with a first synchronous gear, one end, far away from the movable cross beam, of the adjusting end is provided with a maximum adjusting distance limiting plate, two ends of the maximum adjusting distance limiting plate are respectively connected with the same side adjusting end, one side of the movable cross beam is provided with a stepping motor, a motor shaft of the stepping motor is provided with a second synchronous gear, the second synchronous gear and the first synchronous gears synchronously rotate through chains, the adjusting end is provided with a minimum adjusting distance limiting plate between the maximum adjusting distance limiting plate and the second synchronous gear, and the movable cross beam is provided with a supporting block at the minimum adjusting distance limiting plate.

By adopting the technical scheme, the first synchronous gear arranged on the second synchronous gear linkage adjusting end arranged on the stepping motor is used, when the stepping motor works, the bracket mechanism connected with the other end of the second adjusting screw rod moves up and down along the shaft of the second adjusting screw rod, so that the second interval is adjusted, the first synchronous gear is separated from the second adjusting screw rod when the adjusting distance is overlarge, the setting of the minimum adjusting distance limiting plate is used for preventing the second interval from being adjusted to the minimum, the maximum adjusting distance limiting plate is directly pressed on the first adjusting gear to enable the first adjusting gear to be worn, the supporting block plays a supporting role on the minimum adjusting distance limiting plate, and the minimum adjusting distance limiting plate is prevented from being directly pressed on the first adjusting gear to enable the first adjusting gear to be worn.

The beneficial effects of the invention are as follows: the bracket mechanism is arranged, so that the pressed workpiece can be buffered, the buffer indentation interval is adjustable, and the indentation effect and the yield are remarkably improved.

The invention is described in further detail below with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic diagram of an assembly structure of a bracket mechanism and a workbench according to an embodiment of the invention.

Fig. 3 is a schematic structural view of a first spacing adjustment mechanism according to an embodiment of the present invention.

Detailed Description

See fig. 1-3: the novel embossing mechanism of the forming box embossing machine comprises a supporting frame 1, an upper beam 2, a movable beam 3 and a lower beam 4, wherein the lower beam 4 is arranged at one end of the supporting frame 1 far away from the ground, four upright posts 41 are arranged on the lower beam 4, the movable beam 3 and the upper beam 2 sequentially penetrate through the upright posts 41, an oil cylinder 5 is fixed on the upper beam 2, a piston rod and the movable beam 3 are rigidly connected into a whole by a flange and a bolt, a workbench 5 is arranged between the movable beam 3 and the lower beam 4, one end of the movable beam 3 facing the lower beam 4 is connected with an upper embossing die 31, a lower embossing die 51 which is arranged opposite to the upper embossing die 31 is arranged in the workbench 5, a pressed workpiece 6 is arranged on the lower embossing die 51, a bracket mechanism which plays a buffering role on the pressed workpiece 6 when the oil cylinder drives the upper beam 2 to emboss the pressed workpiece 6 on the workbench 5 is arranged between the movable beam 3 and the lower beam 4, the bracket mechanism comprises a first supporting plate 71, a supporting cylinder 72 with cylinder shafts in a stretching state is arranged at the corresponding positions of the two ends of the first supporting plate 71 on the lower beam 4, the cylinder shafts of the supporting cylinder 72 prop against the first supporting plate 71 to enable the first supporting plate 71 to be suspended between the movable beam 3 and the lower beam 4, a connecting rod 73 which is arranged oppositely is arranged between the first supporting plate 71, a second supporting plate 74 with two ends respectively connected with the connecting rod 73 and arranged at intervals is arranged on the connecting rod 73, connecting grooves 52 are arranged on the two sides of the workbench 5, the workbench 5 is connected with the second supporting plate 74 through the connecting grooves 52, the distance between the first supporting plate 71 and the lower beam 4 is a first interval 411, a guide block 75 which is arranged oppositely is arranged at one end of the first supporting plate 71 far away from the second supporting plate 74, a guide limit column 42 is arranged at the corresponding position of the guide block 75 on the lower beam 4, the guide block 75 is arranged in the guide limit column 42 in a penetrating way and can axially move along the guide limit column 42, a conveying mechanism is arranged between the first supporting plate 71 and the second supporting plate 74, a first interval adjusting mechanism is arranged between the guide block 75 and one end of the movable beam 3, which faces the upper beam 2, the conveying mechanism comprises adjusting screw rods 76 which are respectively close to the connecting rods 73 and penetrate through the two first supporting plates 71, one end parts of the adjusting screw rods 76 are provided with first synchronizing wheels 761, the two first synchronizing wheels 761 are connected through a first synchronizing belt 762, the other end of one adjusting screw rod 76, which is oppositely provided with the first synchronizing wheel 761, is provided with a second synchronizing wheel 763, a third synchronizing wheel 711 is arranged at the position of the first supporting plate 71, which is close to the second synchronizing wheel 763, the second synchronizing wheel 763 is connected with the third synchronizing wheel 711 through the second synchronizing belt 712, two end parts of the second supporting plate 74 are respectively provided with a fourth synchronizing wheel 741, the second supporting plate 74 is connected to the adjusting screw rod 76 through a fourth synchronizing wheel 741, the fourth synchronizing wheel 741 on the same second supporting plate 74 is connected with and synchronously rotates through a third synchronizing belt 742, the first interval adjusting mechanism comprises a second adjusting screw 81, one end of the second adjusting screw 81 penetrates through the other end of the guide block 75 and penetrates out of the movable cross beam 3 to form an adjusting end 811, one end of the adjusting end 811, which is close to the movable cross beam 3, is provided with a first synchronizing gear 812, one end of the adjusting end 811, which is far away from the movable cross beam 3, is provided with a maximum adjusting distance limiting plate 813, two ends of the maximum adjusting distance limiting plate 813 are respectively connected with the same side adjusting end 811, one side of the movable cross beam 3 is provided with a stepping motor 814, a motor shaft of the stepping motor 814 is provided with a second synchronizing gear 815, the second synchronizing gear 815 and each first synchronizing gear 812 synchronously rotate through a chain 816, the adjusting end 811 is provided with a minimum adjusting distance limiting plate 817 between the maximum adjusting distance limiting plate 813 and the second synchronizing gear 815, and the movable cross member 3 is provided with a supporting block 818 at the minimum adjusting distance limiting plate 816.

Claims (3)

1. The utility model provides a novel embossing mechanism of shaping box embossing machine, including the support frame, entablature, movable cross beam and entablature, the entablature sets up in the support frame one end of keeping away from ground, be provided with four stands on the entablature, movable cross beam and entablature wear to locate the stand in proper order, and the hydro-cylinder is fixed on the entablature, and piston, piston rod and movable cross beam become integrative by flange and bolt rigid connection, be provided with the workstation between movable cross beam and the entablature, the one end of movable cross beam orientation entablature is connected with the embossing mould, is provided with the lower embossing mould that sets up relatively with the embossing mould in the workstation, is pressed the work piece setting on the embossing mould down, its characterized in that: the automatic embossing machine is characterized in that a bracket mechanism which plays a buffering role on the pressed workpiece when the oil cylinder drives the movable cross beam to emboss the pressed workpiece on the workbench is arranged between the movable cross beam and the lower cross beam, the bracket mechanism comprises a first supporting plate, a supporting cylinder with a cylinder shaft in an extending state is arranged at the corresponding position of the two ends of the first supporting plate, the cylinder shaft of the supporting cylinder props against the first supporting plate to enable the first supporting plate to be suspended between the movable cross beam and the lower cross beam, a connecting rod which is oppositely arranged is arranged between the first supporting plate, two ends of the connecting rod are respectively connected with the connecting rod and are arranged at intervals, connecting grooves are formed in two sides of the workbench, the workbench is connected with the second supporting plate through the connecting grooves, the distance between the first supporting plate and the lower cross beam is a first interval, one end, which is far away from the second supporting plate, of the first supporting plate is provided with guide blocks which are oppositely arranged, the lower cross beam is provided with guide limit columns at the corresponding positions of the guide blocks, the guide blocks penetrate through the guide limit columns and can move along the axial directions of the guide limit columns, a conveying mechanism is arranged between the first supporting plate and the second supporting plate, and the first supporting plate is arranged between the first supporting plate and the movable cross beam, and the first supporting plate is arranged at the first end, which faces upwards.

2. The novel embossing mechanism of a forming box embosser of claim 1 wherein: the conveying mechanism comprises an adjusting screw which is respectively close to the connecting rod and penetrates through the two first supporting plates, one end part of one end of the adjusting screw is provided with a first synchronizing wheel, the two first synchronizing wheels are connected through a first synchronizing belt, the other end of one adjusting screw, which is relatively provided with the first synchronizing wheel, is provided with a second synchronizing wheel, the position, which is close to the second synchronizing wheel, of the first supporting plate is provided with a third synchronizing wheel, the second synchronizing wheel is connected with the third synchronizing wheel through a second synchronizing belt, the two end parts of the second supporting plate are respectively provided with a fourth synchronizing wheel, the second supporting plate is connected with the adjusting screw through the fourth synchronizing wheel, and the fourth synchronizing wheels on the same second supporting plate are connected through the third synchronizing belt and synchronously rotate.

3. The novel embossing mechanism of a forming box embosser of claim 1 wherein: the first interval adjustment mechanism comprises a second adjusting screw rod, one end of the second adjusting screw rod penetrates through the guide block, the other end of the second adjusting screw rod penetrates out of the movable cross beam to form an adjusting end, one end, close to the movable cross beam, of the adjusting end is provided with a first synchronous gear, one end, far away from the movable cross beam, of the adjusting end is provided with a maximum adjusting distance limiting plate, two ends of the maximum adjusting distance limiting plate are respectively connected with the same side adjusting end, one side of the movable cross beam is provided with a stepping motor, a motor shaft of the stepping motor is provided with a second synchronous gear, the second synchronous gear and the first synchronous gears synchronously rotate through chains, the adjusting end is provided with a minimum adjusting distance limiting plate between the maximum adjusting distance limiting plate and the second synchronous gear, and the movable cross beam is provided with a supporting block at the minimum adjusting distance limiting plate.