CN109434914B

CN109434914B - Plate grooving device

Info

Publication number: CN109434914B
Application number: CN201811649730.9A
Authority: CN
Inventors: 林垂伍
Original assignee: Jiangxi Nanfeng Zhenyu Industry Group Co Ltd
Current assignee: Jiangxi Nanfeng Zhenyu Industry Group Co Ltd
Priority date: 2018-12-30
Filing date: 2018-12-30
Publication date: 2024-01-30
Anticipated expiration: 2038-12-30
Also published as: CN109434914A

Abstract

The invention relates to the technical field of plate processing machinery, in particular to a plate groove cutting device. The utility model provides a panel fluting device, includes frame, motor, processing part, workstation, processing part sets up on the riser of frame panel below, be provided with the dovetail on the riser, processing part passes through the belt and links to each other with the motor that also sets up in frame panel below. The automatic processing device is simple in structure and low in assembly cost, automatic processing can be realized by additionally arranging the automatic control system for the motor and each cylinder, processing efficiency is greatly improved, various groove shapes can be processed by arranging the cooperation of the automatic program control processing cylinder in and out action and the left and right action of the workbench cylinder, and the variety and the style of products are enriched.

Description

Plate grooving device

Technical Field

The invention relates to the technical field of plate processing machinery, in particular to a plate groove cutting device.

Background

The plate is widely applied in landscape design, various groove shapes (shown in figure 1) are needed to be processed on two sides of the plate by a plurality of plates for landscape, the existing processing method is complex in operation, uneven in effect level and low in processing efficiency when manual processing is adopted, and higher processing efficiency and effect can be achieved when a large-sized processing machine tool is adopted for processing, but the large-sized machine tool is complex in structure and high in manufacturing or purchasing cost, so that the production cost of the plate is increased.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a plate groove cutting device which is simple in structure, convenient to operate and low in production cost.

In order to achieve the above purpose, the present invention adopts the following technical scheme.

The utility model provides a panel fluting device, includes frame, motor, processing part, workstation, processing part sets up on the riser of frame panel below, be provided with the dovetail on the riser, processing part passes through the belt and links to each other with the motor that also sets up in frame panel below.

The processing part comprises a processing sleeve, two dovetail sliding blocks are arranged on the outer surface of the processing sleeve, and the two dovetail sliding blocks are connected to the two dovetail grooves, so that the processing sleeve can freely slide along the dovetail grooves.

The processing sleeve is internally provided with a processing shaft, the processing shaft is installed in the processing sleeve through a bearing and a bearing seat, the lower end of the processing shaft is provided with a belt pulley connected with a motor through a belt, the upper end of the processing shaft is provided with a cylindrical milling cutter, the processing part also comprises a processing cylinder arranged on a frame, and the processing cylinder is connected with the processing sleeve through a cylinder rod; the processing cylinder is used for driving the processing sleeve to slide along the dovetail groove.

The top surface of the frame is fixedly provided with two workbench slide rails and a workbench oil cylinder, the bottom of the workbench is provided with four sliding blocks and a stop block, the workbench is sleeved on the two workbench slide rails through the four workbench sliding blocks, the bottom of the workbench is also provided with the stop block, and an oil cylinder rod of the workbench oil cylinder is fixedly connected with the stop block; the workbench oil cylinder pushes or pulls the stop block through the oil cylinder rod to control the sliding action of the workbench on the workbench sliding rail.

The workbench is provided with a notch groove for a cylindrical milling cutter at the top of a processing shaft to extend out, at least one L-shaped cylinder frame is arranged beside the notch groove on the front surface of the workbench, and a pressing plate cylinder is arranged below each cylinder frame transverse plate.

As a further technical scheme of this scheme, the breach groove side of workstation top surface is provided with the locating piece, be equipped with the adjustment tank on the workstation under the locating piece, the locating piece passes the bolt of adjustment tank through the workstation bottom surface and fixes it at the workstation top surface, and the setting of locating piece is convenient for wait to process the placing of panel to and to waiting to process the location of long side, the setting of adjustment tank can let the locating piece adjust according to the needs of different positions on table surface. Two cushion blocks are fixedly arranged on the top surface of the workbench. The cushion blocks are arranged to cushion the plate to be processed to a certain height, so that the plate is separated from the table top of the workbench, and an operator can conveniently pick up and turn over the plate.

As a further technical scheme of the scheme, the lower end of the cylinder rod of the pressing plate cylinder is fixedly provided with a pressing plate block. The plate to be processed can be better pressed through the design of the pressing plate block.

As a further technical scheme of this scheme, the workstation top surface still is provided with the location blend stop, it has the through-hole to open on the location blend stop to cup joint on the location slide rail that is fixed in the workstation top surface through the through-hole, still cup joint spacing slider in the one side that the location blend stop kept away from cylindrical milling cutter on the location slide rail, be provided with fastening bolt on the spacing slider. The positioning baffle strip can slide on the positioning slide rail, and can rotate by taking the positioning slide rail as the center, so that the positioning baffle strip is used for positioning the non-processed narrow edges of the plate to be processed, and the position of the positioning baffle strip can be determined by screwing the fastening bolts on the limiting slide blocks after the positioning is finished. The plurality of positioning baffle strips are arranged according to the needs, the corresponding positioning baffle strips can be screwed off the top surface of the workbench, and other positioning baffle strips are screwed off the top surface of the workbench, so that the boards with different length specifications are rapidly switched for processing, and the positioning is required to be measured again when the boards with different specifications are not required to be replaced each time, and the working efficiency is greatly improved.

The other technical scheme of the invention is as follows: the utility model provides a panel fluting device, includes frame, motor, processing part, workstation, processing part sets up in the frame of frame panel below, processing part passes through the belt and links to each other with the motor that also sets up in the frame panel below.

The processing part is including fixing two processing slide rails in the frame, still includes the processing sleeve, processing sleeve surface is provided with two sleeve sliders, cup joints on two processing slide rails through these two sleeve sliders for processing sleeve can freely slide along processing slide rail.

The processing sleeve is internally provided with a processing shaft, the processing shaft is installed in the processing sleeve through a bearing and a bearing seat, the lower end of the processing shaft is provided with a belt pulley connected with a motor through a belt, the upper end of the processing shaft is provided with a cylindrical milling cutter, the processing part further comprises a processing cylinder arranged on a frame, and the processing cylinder is connected with the processing sleeve through a cylinder rod. The processing cylinder is used for driving the processing sleeve to slide along the processing slide rail.

The workbench is characterized in that two workbench sliding rails and a workbench oil cylinder are fixedly arranged on the top surface of the rack, four sliding blocks and a stop block are arranged at the bottom of the workbench, and the workbench is sleeved on the two workbench sliding rails through the four workbench sliding blocks, so that the workbench can freely slide along the workbench sliding rails. The bottom of the workbench is also provided with a stop block, and an oil cylinder rod of the workbench oil cylinder is fixedly connected with the stop block. The workbench oil cylinder pushes or pulls the stop block through the air cylinder rod to control the sliding action of the workbench on the workbench sliding rail.

The workbench is provided with a notch groove for the cylindrical milling cutter at the top of the processing shaft to extend out, the width of the notch groove is larger than the depth width of the plate to be processed, and the length of the notch groove is larger than the crossing length of the plate to be processed. The front of the workbench is provided with at least one L-shaped cylinder frame beside the notch groove, and a pressing plate cylinder is arranged below each cylinder frame transverse plate. The pressing plate cylinder is used for pressing the plate to be processed, so that the plate is processed by the cylindrical milling cutter.

When the processing device works, a plate to be processed is placed on a cushion block of a workbench, the long side abuts against a positioning block, the short side abuts against a positioning baffle bar, the plate to be processed is pressed on the workbench through a pressing plate cylinder, the processing cylinder is pulled to be close to the plate to be processed, and when a cylindrical milling cutter abuts against the plate, a required groove shape is processed through the cooperation of the inlet and outlet actions of the processing cylinder and the left and right actions of an oil cylinder of the workbench.

The automatic processing device is simple in structure and low in assembly cost, automatic processing can be realized by additionally arranging the automatic control system for the motor and each cylinder, processing efficiency is greatly improved, various groove shapes can be processed by arranging the cooperation of the automatic program control processing cylinder in and out action and the left and right action of the workbench cylinder, and the variety and the style of products are enriched.

Drawings

FIG. 1 is one of the sample shapes of the sheet after the groove has been machined.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

Fig. 3 is a right side view of the tooling assembly of fig. 1 according to the present invention.

Fig. 4 is a schematic side view of the portion of the processing sleeve of fig. 3.

FIG. 5 is a schematic view of the top structure of the frame of the present invention after the work table is removed.

FIG. 6 is a schematic view of the bottom structure of the table of the present invention.

FIG. 7 is a schematic view of the top structure of the table of the present invention.

Fig. 8 is a right-side view of a processing unit according to another embodiment of the present invention.

Fig. 9 is a schematic side view of the portion of the processing sleeve of fig. 8.

In the figure: the machining device comprises a frame 1, a workbench sliding rail 11, a workbench oil cylinder 12, a motor 2, a machining part 3, a dovetail groove 31, a machining sliding rail 31', a machining sleeve 32, a machining shaft 33, a cylindrical milling cutter 34, a machining cylinder 35, a dovetail sliding block 36, a sleeve sliding block 36', a workbench 4, a workbench sliding block 41, a stop block 42, a notch groove 43, a cylinder frame 44, a pressing plate cylinder 45, a positioning block 46, a cushion block 47, a positioning stop bar 48, a limiting sliding block 49 and a positioning sliding rail 410.

Detailed Description

One of the shapes of the plate sample after the groove was machined is shown in fig. 1.

Embodiment one.

As shown in fig. 2, the plate grooving device comprises a frame 1, a motor 2, a processing part 3 and a workbench 4, wherein the processing part 3 is arranged on a vertical plate below a panel of the frame 1, a dovetail groove 31 is arranged on the vertical plate, and the processing part 3 is connected with the motor 2 which is also arranged below the panel of the frame 1 through a belt.

As shown in fig. 3 and 4, the machining part 3 includes a machining sleeve 32, and two dovetail sliders 36 are disposed on an outer surface of the machining sleeve 32, and are connected to the two dovetail grooves 31 through the two dovetail sliders 36, so that the machining sleeve 32 can freely slide along the dovetail grooves 31.

A processing shaft 33 is arranged in the processing sleeve 32, the processing shaft 33 is installed in the processing sleeve 32 through a bearing and a bearing seat, a belt pulley connected with the motor 2 through a belt is arranged at the lower end of the processing shaft 33, a cylindrical milling cutter 34 is arranged at the upper end of the processing shaft, the processing part 3 further comprises a processing air cylinder 35 arranged on the frame 1, and the processing air cylinder 35 is connected with the processing sleeve 32 through an air cylinder rod; the machining cylinder 35 is used for driving the machining sleeve 32 to slide along the dovetail groove 31.

As shown in fig. 5 and 6, the top surface of the frame 1 is fixedly provided with two table slide rails 11 and a table oil cylinder 12, the bottom of the table 4 is provided with four sliding blocks and a stop block, the table 4 is sleeved on the two table slide rails 11 through the four table sliding blocks 41, the bottom of the table 4 is also provided with a stop block 42, and an oil cylinder rod of the table oil cylinder 12 is fixedly connected with the stop block 42; the table cylinder 12 pushes or pulls the stopper 42 through a cylinder rod to control the sliding motion of the table 4 on the table slide rail 11.

As shown in fig. 7, the workbench 4 is provided with a notch groove 43 for extending the cylindrical milling cutter at the top of the machining shaft 33, two L-shaped air cylinder frames 44 are arranged beside the notch groove 43 on the front surface of the workbench 4, and a pressing plate air cylinder 45 is arranged below a transverse plate of each air cylinder frame 44.

The positioning block 46 is arranged beside the notch groove 43 on the top surface of the workbench 4, an adjusting groove is formed in the workbench 4 below the positioning block 46, the positioning block 46 is fixed on the top surface of the workbench 4 through bolts penetrating through the adjusting groove on the bottom surface of the workbench 4, the positioning block is convenient to place a plate to be processed, the long side to be processed is positioned, and the adjusting groove can enable the positioning block to be adjusted on the workbench according to the requirements of different positions. Two cushion blocks 47 are fixedly arranged on the top surface of the workbench 4. The cushion blocks are arranged to cushion the plate to be processed to a certain height, so that the plate is separated from the table top of the workbench 4, and the operator can conveniently pick up and turn over the plate.

The lower end of the cylinder rod of the pressing plate cylinder 45 is fixedly provided with a pressing plate block. The plate to be processed can be better pressed through the design of the pressing plate block.

The top surface of the workbench 4 is also provided with a positioning baffle bar 48, the positioning baffle bar 48 is provided with a through hole, the positioning baffle bar 48 is sleeved on a positioning slide rail 410 fixed on the top surface of the workbench 4 through the through hole, the positioning slide rail 410 is also sleeved with a limit slide block 49 on one side of the positioning baffle bar 48 far away from the cylindrical milling cutter 34, and the limit slide block 49 is provided with a fastening bolt. The positioning baffle strip 48 can slide on the positioning slide rail, and can rotate by taking the positioning slide rail as the center, so as to be used for positioning the non-processed narrow edges of the plate to be processed, and after the positioning, the fastening bolts on the limiting slide blocks are screwed down, so that the position of the positioning baffle strip can be determined. The plurality of positioning baffle strips 48 are arranged according to the requirement, the corresponding positioning baffle strips can be screwed off the top surface of the workbench 4, and other positioning baffle strips are screwed off the top surface of the workbench, so that the plates with different length specifications are rapidly switched for processing, and the positioning is not required to be measured again each time when the plates with different specifications are replaced, so that the working efficiency is greatly improved.

Embodiment two: the front surface of the workbench 4 is provided with two L-shaped air cylinder frames 44 beside the notch groove 43, and a pressing plate air cylinder 45 is arranged below a transverse plate of the air cylinder frames 44. The other structure is the same as that of the first embodiment.

Embodiment three.

As shown in fig. 2, the plate grooving device comprises a frame 1, a motor 2, a processing part 3 and a workbench 4, wherein the processing part 3 is arranged on the frame 1 below a panel of the frame 1, and the processing part 3 is connected with the motor 2 which is also arranged below the panel of the frame 1 through a belt.

As shown in fig. 8 and 9, the machining part 3 includes two machining slide rails 31' fixed on the frame 1, and further includes a machining sleeve 32, two sleeve sliders 36' are disposed on the outer surface of the machining sleeve 32, and the two sleeve sliders 36' are sleeved on the two machining slide rails 31', so that the machining sleeve 32 can freely slide along the machining slide rails 31 '.

The processing sleeve 32 is internally provided with a processing shaft 33, the processing shaft 33 is installed in the processing sleeve 32 through a bearing and a bearing seat, the lower end of the processing shaft 33 is provided with a belt pulley connected with the motor 2 through a belt, the upper end of the processing shaft is provided with a cylindrical milling cutter 34, the processing part 3 further comprises a processing cylinder 35 arranged on the frame 1, and the processing cylinder 35 is connected with the processing sleeve 32 through a cylinder rod. The machining cylinder 35 is used for driving the machining sleeve 32 to slide along the machining slide rail 31'.

The top surface of the frame 1 is fixedly provided with two workbench slide rails 11 and a workbench oil cylinder 12, the bottom of the workbench 4 is provided with four sliding blocks and a stop block, and the workbench 4 is sleeved on the two workbench slide rails 11 through the four workbench sliding blocks 41, so that the workbench 4 can freely slide along the workbench slide rails 11. The bottom of the workbench 4 is also provided with a stop block 42, and an oil cylinder rod of the workbench oil cylinder 12 is fixedly connected with the stop block 42. The table cylinder 12 pushes or pulls the stopper 42 through the cylinder rod to control the sliding motion of the table 4 on the table slide rail 11.

The workbench 4 is provided with a notch groove 43 for extending out of the cylindrical milling cutter at the top of the processing shaft 33, the width of the notch groove is larger than the depth width of the plate to be processed, and the length of the notch groove is larger than the span length of the plate to be processed. The front surface of the workbench 4 is provided with at least one L-shaped air cylinder frame 44 beside the notch groove 43, and a pressing plate air cylinder 45 is arranged below a transverse plate of each air cylinder frame 44. The platen cylinder 45 is used to press the sheet material to be processed so as to receive the processing of the cylindrical milling cutter 34.

The top surface of the workbench 4 is also provided with a positioning baffle bar 48, the positioning baffle bar 48 is provided with a through hole, the positioning baffle bar 48 is sleeved on a positioning slide rail 410 fixed on the top surface of the workbench 4 through the through hole, the positioning slide rail 410 is further sleeved with a limit slide block 49 on one side of the positioning baffle bar 48 far away from the cylindrical milling cutter 34, and the limit slide block 49 is provided with a fastening bolt. The positioning baffle strip 48 can slide on the positioning slide rail, and can rotate by taking the positioning slide rail as the center, so as to be used for positioning the non-processed narrow edges of the plate to be processed, and after the positioning, the fastening bolts on the limiting slide blocks are screwed down, so that the position of the positioning baffle strip can be determined. The plurality of positioning baffle strips 48 are arranged according to the requirement, the corresponding positioning baffle strips can be screwed off the top surface of the workbench 4, and other positioning baffle strips are screwed off the top surface of the workbench, so that the plates with different length specifications are rapidly switched for processing, and the positioning is not required to be measured again each time when the plates with different specifications are replaced, so that the working efficiency is greatly improved.

Embodiment four: the front surface of the workbench 4 is provided with two L-shaped air cylinder frames 44 beside the notch groove 43, and a pressing plate air cylinder 45 is arranged below a transverse plate of the air cylinder frames 44. Other structures are the same as the embodiments.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides a panel fluting device, includes frame (1), motor (2), processing part (3), workstation (4), its characterized in that: the machining part (3) is arranged on a vertical plate below a panel of the frame (1), a dovetail groove (31) is formed in the vertical plate, the machining part (3) is connected with a motor (2) which is also arranged below the panel of the frame (1) through a belt, the machining part (3) comprises a machining sleeve (32), two dovetail sliding blocks (36) are arranged on the outer surface of the machining sleeve (32), the two dovetail sliding blocks (36) are connected to the two dovetail grooves (31), a machining shaft (33) is arranged in the machining sleeve (32), the machining shaft (33) is arranged in the machining sleeve (32) through a bearing and a bearing seat, a belt pulley connected with the motor (2) through the belt is arranged at the lower end of the machining shaft (33), a cylindrical milling cutter (34) is arranged at the upper end of the machining part (3), and the machining cylinder (35) is further connected with the machining sleeve (32) through a cylinder rod;

two workbench sliding rails (11) and a workbench oil cylinder (12) are fixedly arranged on the top surface of the rack (1), four sliding blocks and a stop block are arranged at the bottom of the workbench (4), the workbench (4) is sleeved on the two workbench sliding rails (11) through the four workbench sliding blocks (41), the stop block (42) is further arranged at the bottom of the workbench (4), and an oil cylinder rod of the workbench oil cylinder (12) is fixedly connected with the stop block (42);

the workbench (4) is provided with a notch groove (43) for a cylindrical milling cutter at the top of the processing shaft (33) to extend out, at least one L-shaped cylinder frame (44) is arranged beside the notch groove (43) on the front surface of the workbench (4), a pressing plate cylinder (45) is arranged below each cylinder frame (44) transverse plate, and a pressing plate block is fixedly arranged at the lower end of a cylinder rod of each pressing plate cylinder (45); a positioning block (46) is arranged beside a notch groove (43) on the top surface of the workbench (4), an adjusting groove is formed in the workbench (4) below the positioning block (46), and the positioning block (46) is fixed on the top surface of the workbench (4) through bolts penetrating through the adjusting groove on the bottom surface of the workbench (4); two cushion blocks (47) are fixedly arranged on the top surface of the workbench (4).

2. The utility model provides a panel fluting device, includes frame (1), motor (2), processing part (3), workstation (4), its characterized in that: the processing component (3) is arranged on the frame (1) below the panel of the frame (1), the processing component (3) is connected with the motor (2) which is also arranged below the panel of the frame (1) through a belt, the processing component (3) comprises two processing sliding rails (31 ') which are fixed on the frame (1), the processing component further comprises a processing sleeve (32), the outer surface of the processing sleeve (32) is provided with two sleeve sliding blocks (36'), the two sleeve sliding blocks (36 ') are sleeved on the two processing sliding rails (31'), a processing shaft (33) is arranged in the processing sleeve (32), the processing shaft (33) is arranged in the processing sleeve (32) through a bearing, the lower end of the processing shaft (33) is provided with a belt pulley which is connected with the motor (2) through the belt, the upper end of the processing shaft (33) is provided with a cylindrical milling cutter (34), and the processing component (3) further comprises a processing cylinder (35) which is arranged on the frame (1) and is connected with the processing sleeve (32) through a cylinder rod;

3. A sheet material grooving apparatus according to claim 1 or 2, wherein: the top surface of the workbench (4) is also provided with a positioning baffle strip (48), the positioning baffle strip (48) is provided with a through hole, the positioning baffle strip is sleeved on a positioning slide rail (410) fixed on the top surface of the workbench (4) through the through hole, the positioning slide rail (410) is further sleeved with a limit slide block (49) on one side, far away from the cylindrical milling cutter (34), of the positioning baffle strip (48), and the limit slide block (49) is provided with a fastening bolt.