CN113232101A

CN113232101A - Intelligent numerical control planing milling equipment for wood processing and production process

Info

Publication number: CN113232101A
Application number: CN202011483289.9A
Authority: CN
Inventors: 陈妹仔
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-08-10

Abstract

The invention provides intelligent numerical control planing and milling equipment for wood processing, which comprises a workbench, wherein a transverse rail parallel to the workbench is arranged on the surface of the workbench, a feeding frame is fixed in the middle of the transverse rail through a screw assembly, a group of positioning rods are arranged on two sides of the feeding frame and are in transmission connection with a driving motor fixed on the feeding frame, side plates are arranged on two sides of the transverse rail, a second telescopic cylinder is arranged on each side plate, a clamping plate is connected to the front end of the second telescopic cylinder, a vertical rail vertically connected with the transverse rail is arranged on one side of the transverse rail, and a planing tool capable of sliding along the vertical rail is arranged on the vertical rail.

Description

Intelligent numerical control planing milling equipment for wood processing and production process

Technical Field

The invention relates to the field of wood processing, in particular to intelligent numerical control planing and milling equipment for wood processing and a production process.

Background

A wood planing and milling equipment, i.e. a woodworking planer, is a woodworking machine tool which uses a rotary planer or a fixed planer to machine the plane or forming surface of wood, the woodworking planer is used for planing a reference surface of wood, a motor is used to drive a planing shaft to rotate at high speed, a hand is used to press a wood workpiece to be fed from a rear working table to a planing shaft of a front working table along a guide plate, the front working table is lower than the rear working table, the height of the front working table and the rear working table is adjustable, the height difference is the thickness of a planing layer, and the function of planing the plane is achieved in a circulating mode.

But the efficiency of traditional equipment planing is low, the precision is poor, operating personnel's intensity of labour is big, and operating personnel is bare-handed presses the timber work piece and moves towards the planer tool, buries down hidden danger for operating personnel's safety problem, and because each surface of the timber of rough machining probably has certain levelness error, traditional equipment planing can only process the roughness on each surface to the processing of timber work piece, still has the levelness error between each plane of timber work piece after the planing process, has influenced workpiece quality.

Disclosure of Invention

The invention aims to provide intelligent numerical control planing and milling equipment for automatically feeding wood processing and adjusting a reference surface to ensure the levelness of each surface and a production process.

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

the utility model provides a wood working is with intelligent numerical control planing equipment of milling and production technology, comprises a workbench, the surface of workstation is provided with the horizontal rail parallel with the workstation, the intermediate position of horizontal rail is fixed with the work or material rest through screw assembly, the both sides of going up the work or material rest are provided with a set of locating lever, the locating lever is connected with the driving motor transmission of last fixed on the work or material rest, the both sides of horizontal rail are provided with the curb plate, install the flexible cylinder of second on the curb plate, the front end of the flexible cylinder of second is connected with clamping plate, one side of horizontal rail is provided with the perpendicular rail of being connected with the horizontal rail is perpendicular, install on the perpendicular rail and follow the gliding planer tool of perpendicular rail.

As a further scheme of the invention: the planer tool comprises a connecting seat and a tool bit, wherein the connecting seat comprises an upper part and a lower part which are connected through a group of vertically arranged guide rods, the tool bit is arranged on the guide rods in a sliding mode, the top of the tool bit is connected with a first telescopic cylinder which is fixed on the upper end of the connecting seat in a structure, and the tool bit is controlled to move up and down along the guide rods through the first telescopic cylinder.

As a further scheme of the invention: the upper surface central point of connecting seat lower extreme structure is provided with the vertical infrared range finding probe that sets up upwards.

As a further scheme of the invention: the locating lever includes the body of rod, cylinder and pivot, and the surface both ends of the body of rod are provided with a set of cylinder that sets up with body of rod surface vertical, and the cylinder can be followed and is carried out axial rotation with body of rod junction, is provided with pressure sensor in the cylinder, and the vertical welding of another side that body of rod surface and cylinder installation face are relative has the pivot.

As a further scheme of the invention: the pivot sets up 1/4 department that is close to the work or material rest center side at the body of rod.

As a further scheme of the invention: the positioning rods on the two sides of the feeding frame are connected in a reverse transmission mode through the transmission gear set arranged in the feeding frame.

As a further scheme of the invention: the back of clamping board is provided with incomplete spherical protruding structure, and spherical protruding structure embeds has can free rolling ball, is provided with the screw hole in the ball, with the screw thread post pole threaded connection that the telescopic cylinder push rod front end set up of second, and the bottom side of the telescopic cylinder front end threaded rod of second is provided with outstanding spacing mesa, is provided with annular rubber packing ring between spacing mesa and the incomplete spherical protruding structure of clamping board.

As a further scheme of the invention: the front surface of the clamping plate is provided with a plurality of conical protruding structures, rubber anti-slip pads are arranged in groove structures formed among the conical protruding structures, the height of the upper surfaces of the rubber anti-slip pads is lower than the height of the highest points of the conical protrusions, and the top end structures of the conical protrusions extend out of the rubber anti-slip pads.

The production process of the intelligent numerical control planing and milling for wood processing is characterized by comprising the following steps of: the method comprises the following steps:

step 1: the planer tool is controlled to move to the edge position of one side of the vertical rail through the vertical rail, the clamping plate at the top of the second telescopic cylinder on the corresponding side penetrates through the space between the tool bit and the infrared distance measuring probe, and the first telescopic cylinder contracts to drive the tool bit to ascend so as to finish the initial reset of the device;

step 2: the method comprises the following steps that a wood workpiece to be processed is transversely placed between two rollers of a positioning rod of a loading frame for loading, a driving motor operates to drive the positioning rods on the left side and the right side of the loading frame to respectively rotate anticlockwise and clockwise, the wood workpiece is driven by an upper roller to rotate by taking a lower roller as a fulcrum, and the upper reference surface of the workpiece is positioned;

and step 3: the transverse rail drives the feeding frame clamped with the wood workpiece to move to a position corresponding to the clamping plate, and second telescopic cylinders on two sides extend out to drive the clamping plates to clamp the wood workpiece;

and 4, step 4: the driving motor reversely rotates to drive the positioning rod to reversely rotate to release the clamping of the wood workpiece, and the transverse rail drives the feeding rack to reset;

and 5: controlling the movement of the planer tool to carry out tool setting operation, and operating a set program to process the upper surface of the wood workpiece after the tool setting operation is finished;

step 6: the planer tool resets again, the transverse rail drives the feeding rack to move and clamps the wood workpiece again through the positioning rod, the second telescopic cylinders on the two sides contract to release clamping on the wood workpiece, the transverse rail drives the feeding rack to reset, the positioning rod reversely resets, and blanking operation is carried out;

and 7: manually overturning the wood workpiece by 180 degrees, enabling the machined surface of the workpiece to be placed on the positioning rod downwards, driving the motor to rotate reversely, driving the positioning rod to rotate reversely, clamping the wood workpiece by taking the machined surface as a reference plane, and repeating the step 3-4;

and 8: and (3) controlling the planer tool to move to carry out tool setting operation, operating a set program to process the upper surface of the wood workpiece after tool setting is finished, detecting and recording the distance between the infrared distance measuring probe and the lower surface of the wood workpiece in real time until a set value is reached, and repeating the step 6.

Advantageous effects

1. The wood workpiece is driven by the upper roller to rotate by taking the lower roller as a fulcrum until two sides of the upper surface are attached to the upper roller, so that the upper reference surface of the workpiece is positioned, the reference surface is set, the clamping precision of the wood workpiece is facilitated, the phenomenon that the clamping angle of the workpiece is inaccurate to increase the planing quantity of the workpiece due to the fact that end surfaces of two sides of the workpiece incline is prevented, the processing efficiency is improved, and waste of raw materials is prevented.

2. The positioning device can position the reference surface through the machined surface by reversely installing the workpiece and reversely rotating the positioning rod, and position the reference surface for machining the back surface of the workpiece, thereby ensuring the levelness of the front surface and the back surface of the workpiece to be uniform and improving the machining precision of the wood workpiece.

3. According to the invention, the connecting part of the clamping plate and the second telescopic cylinder is provided with the ball and rubber washer structure, and through the matching of the rubber washer and the ball, when the clamping plate clamps a workpiece, the clamping plate can generate slight angle change along with the end surface of the workpiece so as to be attached to the end surface of the workpiece, so that the phenomenon that the clamping angle is inaccurate to increase the planing quantity of the workpiece due to the deflection of the end surfaces at two sides of the workpiece is prevented, the processing efficiency is improved, and the waste of raw materials is prevented.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the planer tool of the present invention.

FIG. 3 is a schematic view of a positioning rod of the present invention.

FIG. 4 is a schematic diagram of the movement of the positioning rod of the present invention.

FIG. 5 is a schematic view of the positioning principle of the positioning rod of the present invention.

Figure 6 is a cross-sectional view of a chuck structure of the present invention.

In FIGS. 1-6: 1-workbench, 2-vertical rail, 3-planer tool, 4-connecting seat, 5-guide rod, 6-tool bit, 7-first telescopic cylinder, 8-infrared distance measuring probe, 9-transverse rail, 10-feeding rack, 11-positioning rod, 1101-rod body, 1102-roller, 1103-rotating shaft, 12-driving motor, 13-side plate, 14-second telescopic cylinder, 1401-push rod, 1402-limiting table board, 1403-threaded rod, 15-clamping plate, 1501-ball, 1502-rubber anti-skid pad and 16-rubber gasket.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word, include the elements or items listed after that word, and their equivalents, without excluding other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Referring to fig. 1-6, in the embodiment of the present invention, an intelligent numerical control planing and milling device for wood processing includes a worktable 1, a vertical rail 2, a planer tool 3, a connecting seat 4, a guide rod 5, a tool bit 6, a first telescopic cylinder 7, an infrared distance measuring probe 8, a transverse rail 9, a feeding frame 10, a positioning rod 11, a rod body 1101, a roller 1102, a rotating shaft 1103, a driving motor 12, a side plate 13, a second telescopic cylinder 14, a push rod 1401, a limiting table 1402, a threaded rod 1403, a clamping plate 15, a ball 1501, a rubber anti-slip pad 1502, and a rubber washer 16, wherein the surface of the worktable 1 is provided with the transverse rail 9 parallel to the worktable 1, the middle position of the transverse rail 9 is fixed with the feeding frame 10 through a screw assembly, two sides of the feeding frame 10 are provided with a set of positioning rods 11, the positioning rods 11 are in transmission connection with the driving motor 12 fixed on the feeding frame 10, two sides of the transverse rail 9 are provided with the side plates 13, the side plates 13 are provided with the second telescopic cylinder 14, the front end of the second telescopic cylinder 14 is connected with a clamping plate 15, one side of the transverse rail 9 is provided with a vertical rail 2 vertically connected with the transverse rail 9, and the vertical rail 2 is provided with a planer tool 3 capable of sliding along the vertical rail 2.

Wherein: planer tool 3 comprises connecting seat 4 and tool bit 6, and connecting seat 4 includes upper and lower two parts, connects through a set of guide arm 5 of vertical setting, and the slip is provided with tool bit 4 on the guide arm 5, and the top of tool bit 4 is connected with the first telescopic cylinder 7 of connecting seat 4 upper end structural fixity, controls the up-and-down motion of tool bit 4 along guide arm 5 through first telescopic cylinder 7.

Wherein: the upper surface central point of connecting seat 4 lower extreme structure is provided with vertical infrared distance measuring probe 8 that sets up, detects and work piece distance through infrared distance measuring probe 8, detects work piece thickness.

Wherein: the positioning rod 11 comprises a rod body 1101, rollers 1102 and rotating shafts 1103, a group of rollers 1102 perpendicular to the surface of the rod body 1101 are arranged at two ends of the surface of the rod body 1101, the rollers 1102 can axially rotate along the joint with the rod body 1101, pressure sensors are arranged in the rollers 1102, the rotating shafts 1103 are vertically welded on the other surface, opposite to the roller mounting surface, of the surface of the rod body 1101, the pressure sensors sense the pressure applied to the rollers 1102, the rotation of the positioning rod 11 is stopped in time, and the workpiece is prevented from being damaged.

Wherein: the rotating shaft 1103 is arranged at the 1/4 position of the rod body 1101 close to the center of the feeding frame 10, and the length of the lever arm is increased through the position arrangement, so that the positioning rod 11 drives the workpiece to rotate when initial clamping is performed conveniently.

Wherein: the locating rods 11 on the two sides of the feeding frame 10 are connected in a reverse transmission mode through the transmission gear set arranged in the feeding frame 10.

Wherein: the back of clamping plate 15 is provided with incomplete spherical protruding structure, ball 1501 that can freely roll is embedded to spherical protruding structure, be provided with the screw hole in the ball 1501, screw post 1403 threaded connection with the setting of the 14 push rods 1401 front end of second telescopic cylinder, the bottom side of the 14 front end screw post 1403 of second telescopic cylinder is provided with outstanding spacing mesa 1402, be provided with annular rubber packing ring 16 between spacing mesa 1402 and the incomplete spherical protruding structure of clamping plate 15, through the cooperation of rubber packing ring 16 and ball 1501, when clamping plate 15 carries out the clamping to the work piece, clamping plate 15 can take place slight angle change with the laminating work piece terminal surface along with the work piece terminal surface, prevent to lead to the inaccurate volume of digging of increasing the work piece of clamping angle because of there is the skew in work piece both sides terminal surface, machining efficiency has been improved and the waste of raw and other materials is prevented.

Wherein: the front of clamping plate 15 is provided with a plurality of conical protruding structures, is provided with rubber slipmat 1502 in the groove structure that forms between the conical protruding structure, and the upper surface height of rubber slipmat 1502 is less than the protruding peak height of toper, and the protruding top structure of toper is followed rubber slipmat 1502 and is popped out, improves the stability of clamping plate to the work piece clamping through protruding structure and rubber slipmat.

step 1: the planer tool 3 is controlled to move to the edge position of one side of the vertical rail 2 through the vertical rail 2, the clamping plate 15 at the top of the second telescopic cylinder 14 on the corresponding side penetrates through the space between the tool bit 6 and the infrared distance measuring probe 8, and the first telescopic cylinder 7 contracts to drive the tool bit 6 to ascend so as to complete the initial reset of the device;

step 2: a wood workpiece to be processed is transversely placed between two rollers 1102 of a positioning rod 11 of a loading frame 10 for loading, a driving motor 12 operates to drive the positioning rods 11 on the left side and the right side of the loading frame 10 to respectively rotate anticlockwise and clockwise, the wood workpiece is driven by an upper roller 1102 to rotate by taking a lower roller 1102 as a fulcrum, and the reference surface on the upper side of the workpiece is positioned;

and step 3: the transverse rail 9 drives the feeding frame 10 which is clamped with the wood workpiece to move to a position corresponding to the clamping plate 15, and the second telescopic cylinders 14 on the two sides extend out to drive the clamping plate 15 to clamp the wood workpiece;

and 4, step 4: the driving motor 12 rotates reversely to drive the positioning rod 11 to rotate reversely to release the clamping of the wood workpiece, and the transverse rail 9 drives the feeding rack 10 to reset;

and 5: controlling the planer tool 3 to move to carry out tool setting operation, and operating a set program to process the upper surface of the wood workpiece after tool setting is finished;

step 6: the planer tool 3 is reset again, the transverse rail 9 drives the feeding rack 10 to move and clamps the wood workpiece again through the positioning rod 11, the second telescopic air cylinders 14 on the two sides contract to release clamping on the wood workpiece, the transverse rail 9 drives the feeding rack 10 to reset, the positioning rod rotates reversely 11 to reset, and blanking operation is carried out;

and 7: manually overturning the wood workpiece by 180 degrees, enabling the machined surface of the workpiece to face downwards and placing the workpiece on the positioning rod 11, driving the motor 12 to rotate reversely, driving the positioning rod 11 to rotate reversely, clamping the wood workpiece by taking the machined surface as a reference plane, and repeating the step 3-4;

and 8: and (3) controlling the planer tool 3 to move to carry out tool setting operation, operating a set program to process the upper surface of the wood workpiece after tool setting is finished, detecting and recording the distance between the infrared distance measuring probe 8 and the lower surface of the wood workpiece in real time until a set value is reached, and repeating the step 6.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, and these should be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent.

Claims

1. The utility model provides a wood working is with intelligent numerical control planing equipment that mills, a serial communication port, including workstation (1), the surface of workstation (1) is provided with horizontal rail (9) parallel with workstation (1), the intermediate position of horizontal rail (9) is fixed with work or material rest (10) through screw assembly, the both sides of going up work or material rest (10) are provided with a set of locating lever (11), fixed driving motor (12) transmission connection on locating lever (11) and the work or material rest (10) of last work or material rest, the both sides of horizontal rail (9) are provided with curb plate (13), install second telescopic cylinder (14) on curb plate (13), the front end of second telescopic cylinder (14) is connected with clamping plate (15), one side of horizontal rail (9) is provided with perpendicular rail (2) of being connected with horizontal rail (9), install on perpendicular rail (2) and to follow perpendicular rail (2) gliding planer tool (3).

2. The intelligent numerical control planing and milling equipment for wood processing according to claim 1, characterized in that: planer tool (3) comprise connecting seat (4) and tool bit (6), and connecting seat (4) are connected through a set of guide arm (5) of vertical setting including upper and lower two parts, and the top and the first telescopic cylinder (7) of structural fixed in connecting seat (4) upper end of tool bit (4) are connected, control the up-and-down motion of tool bit (4) along guide arm (5) through first telescopic cylinder (7) on guide arm (5) are provided with tool bit (4) in the slip on guide arm (5).

3. The intelligent numerical control planing and milling equipment for wood processing according to claim 2, characterized in that: the central position of the upper surface of the lower end structure of the connecting seat (4) is provided with an infrared distance measuring probe (8) which is vertically arranged upwards.

4. The intelligent numerical control planing and milling equipment for wood processing according to claim 1, characterized in that: the positioning rod (11) comprises a rod body (1101), rollers (1102) and a rotating shaft (1103), wherein a group of rollers (1102) which are perpendicular to the surface of the rod body (1101) are arranged at two ends of the surface of the rod body (1101), the rollers (1102) can axially rotate at the joint of the rollers (1101) and the rod body (1101), pressure sensors are arranged in the rollers (1102), and the rotating shaft (1103) is vertically welded on the surface of the rod body (1101) and the other surface opposite to the roller mounting surface.

5. The intelligent numerical control planing and milling equipment for wood processing according to claim 4, characterized in that: the rotating shaft (1103) is arranged at 1/4, which is close to one side of the center of the feeding rack (10), of the rod body (1101).

6. The intelligent numerical control planing and milling equipment for wood processing according to claim 1, characterized in that: the positioning rods (11) on the two sides of the feeding frame (10) are in reverse transmission connection through the transmission gear set arranged in the feeding frame (10).

7. The intelligent numerical control planing and milling equipment for wood processing according to claim 1, characterized in that: the back of the clamping plate (15) is provided with an incomplete spherical protruding structure, a ball (1501) capable of rolling freely is embedded in the spherical protruding structure, a threaded hole is formed in the ball (1501), the ball is in threaded connection with a threaded post rod (1403) arranged at the front end of a push rod (1401) of the second telescopic cylinder (14), the side face of the bottom of the threaded rod (1403) at the front end of the second telescopic cylinder (14) is provided with a protruding limiting table top (1402), and an annular rubber gasket (16) is arranged between the limiting table top (1402) and the incomplete spherical protruding structure of the clamping plate (15).

8. The intelligent numerical control planing and milling equipment for wood processing according to claim 1, characterized in that: the front surface of the clamping plate (15) is provided with a plurality of conical protruding structures, rubber anti-slip pads (1502) are arranged in groove structures formed among the conical protruding structures, the height of the upper surfaces of the rubber anti-slip pads (1502) is lower than the height of the highest points of the conical protrusions, and the top end structures of the conical protrusions extend out of the rubber anti-slip pads (1502).

9. The production process of the intelligent numerical control planing and milling for wood processing is characterized by comprising the following steps of: the method comprises the following steps:

step 1: the planer tool (3) is controlled to move to the edge of one side of the vertical rail (2) through the vertical rail (2), the clamping plate (15) at the top of the second telescopic cylinder (14) on the corresponding side penetrates through the space between the tool bit (6) and the infrared distance measuring probe (8), and the first telescopic cylinder (7) contracts to drive the tool bit (6) to ascend so as to complete the initial reset of the device;

step 2: the method comprises the steps that a wood workpiece to be processed is transversely placed between two rollers (1102) of a positioning rod (11) of a loading frame (10) for loading, a driving motor (12) operates to drive the positioning rods (11) on the left side and the right side of the loading frame (10) to respectively rotate anticlockwise and clockwise, the wood workpiece is driven by an upper roller (1102) to rotate by taking a lower roller (1102) as a fulcrum, and the upper reference surface of the workpiece is positioned;

and step 3: the transverse rail (9) drives the feeding frame (10) clamped with the wood workpiece to move to a position corresponding to the clamping plate (15), and second telescopic cylinders (14) on two sides extend out to drive the clamping plate (15) to clamp the wood workpiece;

and 4, step 4: the driving motor (12) rotates reversely to drive the positioning rod (11) to rotate reversely to release clamping of the wood workpiece, and the transverse rail (9) drives the feeding rack (10) to reset;

and 5: controlling the planer tool (3) to move to carry out tool setting operation, and operating a set program to process the upper surface of the wood workpiece after tool setting is finished;

step 6: the planer tool (3) resets again, the transverse rail (9) drives the feeding rack (10) to move and clamps the wood workpiece again through the positioning rod (11), the second telescopic cylinders (14) on the two sides contract to release clamping of the wood workpiece, the transverse rail (9) drives the feeding rack (10) to reset, the positioning rod reverses (11) to reset, and blanking operation is carried out;

and 7: manually overturning the wood workpiece by 180 degrees, enabling the machined surface of the workpiece to be placed on the positioning rod (11) downwards, driving the motor (12) to rotate reversely, driving the positioning rod (11) to rotate reversely, clamping the wood workpiece by taking the machined surface as a reference plane, and repeating the step 3-4;

and 8: and (3) controlling the planer tool (3) to move to carry out tool setting operation, operating a set program to process the upper surface of the wood workpiece after tool setting is finished, detecting and recording the distance between the infrared distance measuring probe (8) and the lower surface of the wood workpiece in real time until a set value is reached, and repeating the step (6).