CN218614543U - Numerical control four-side planer machine tool - Google Patents

Abstract

The utility model discloses a numerical control four-side planer machine tool relates to the wood working field. This lathe includes the box organism, is provided with feeding mechanism in the organism, still including setting up the electrical system at the organism feed end, and the organism is provided with the protection casing all around, and organism upper portion is equipped with feeding mechanism, and organism upper portion has set gradually preceding lower cutter mechanism, back lower cutter mechanism, right side vertical cutter mechanism, left side vertical cutter mechanism, preceding upper cutter mechanism and back upper cutter mechanism along the direction of feed, right side vertical cutter mechanism, left side vertical cutter mechanism, preceding upper cutter mechanism and back upper cutter mechanism are connected with servo motor respectively, and the organism feed end is provided with movable table, the movable table top is provided with the conveyer, be equipped with main operating panel on the electrical system, be equipped with vice operating panel on the protection casing. The utility model provides a current numerical control four side moulder machine tool machining position control technical problem that wastes time and energy.

Description

Numerical control four-side planer machine tool

Technical Field

The utility model relates to a timber processing technology field, concretely relates to numerical control four side moulder bed.

Background

A four-side planing machine is a planing machine product of a woodworking machine. The wood planing machine is mainly used for processing wood products such as battens, wood boards, decorative wood strips, wood floors and the like, and performing planing treatment on the upper side, the lower side and the side faces of wood. The four-side planer is a woodworking machine for finely processing the external surface of the specification wool, not only can process the specification wool into square material with rectangular section, but also can process various clean forming materials with different section shapes.

The prior art has the following problems:

1. in the conventional four-side planer, the left vertical cutter is fixed in width and the upper cutter is fixed in thickness, and the adjustment is completed by manually rotating the adjusting screw rod, so that the required size is achieved by multiple times of adjustment and multiple times of trial runs, and time and labor are wasted;

2. in the conventional four-side planer, abnormal material clamping can occur due to the fact that processing wood is broken, the wood has knots, the wood is too short and the like in the processing process, and at the moment, a screw rod is required to be manually operated, the left vertical cutter mechanism, the upper adjusting upper cutter mechanism and the upper pressure adjusting material beam structure are withdrawn, so that sufficient space is reserved in the planer, and an abnormal workpiece can be taken out; after the screw rod is taken out, when the screw rod is restored to the previous machining size, the screw rod needs to be manually adjusted to the original position, the operation is troublesome, and time and labor are wasted;

3. the existing numerical control four-side planer is CN201821636886.9 of following section, though the width is decided to left side founding sword, go up the sword and decide thick also to adopt servo motor + ball screw to adjust, when appearing unusual card material and need taking out, need go respectively to control left side founding sword mechanism, go up sword mechanism and press the material beam structure, give out sufficient space in making the machine, just can take out unusual work piece. After the workpiece is taken out, the left vertical cutter mechanism, the upper cutter mechanism and the material pressing beam structure need to be controlled respectively to restore the original processing positions.

In patent CN201821636886.9, a quick positioner of four sides planer arbor is disclosed, including the lathe, the lathe is connected with arbor device, lower arbor device, left arbor device and right arbor device, it is the same with lower arbor device structure to go up arbor device, and left arbor device is the same with right arbor device structure, and the drive that relies on servo motor in going up the arbor device makes and goes up the arbor and reciprocate to this position of controlling the upper arbor. The left cutter shaft device controls the position of the left cutter shaft by driving the left cutter shaft to move left and right by the servo motor. In the face of wood processing of various varieties and specifications, the cutter shaft can be adjusted by controlling the servo motor by adopting the structure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a numerical control four side moulder bed, structural servo motor, the numerical control that adopts ball screw to carry out width of processing and thickness is adjusted, utilizes the accuracy nature of servo motor location to reach quick effectual accent machine, can show the ground and practice thrift the debugging time, uses manpower sparingly to user of service's quality requirement has been reduced.

A numerical control four-side planer comprises a machine body, wherein an electrical system is arranged at the upper part of the machine body close to a feeding end, a feeding mechanism is also arranged above the machine body, and a protective cover is arranged around the machine body; the upper part of the machine body is sequentially provided with a front lower cutter mechanism, a rear lower cutter mechanism, a right vertical cutter mechanism, a left vertical cutter mechanism, a front upper cutter mechanism and a rear upper cutter mechanism along the feeding direction; the feeding end of the machine body is also provided with a movable workbench; an adjustable movable guiding rule component is fixedly arranged beside the movable workbench, and a conveyor is also arranged above the movable workbench; a main operation panel is arranged on the electric system; and the protective cover is provided with an auxiliary operation panel.

Optionally or preferably, the feeding mechanism is a compression roller feeding device capable of being lifted electrically, the feeding rollers are all driven by universal couplings, the compression mode is air cylinder compression, the pressure of each section of air cylinder is independently adjusted, feeding is smooth and stable, no burning and cutting marks exist on the surface of a machined workpiece, and the feeding mechanism can be adapted to machined workpieces with different thicknesses.

Optionally or preferably, a side pressing plate for assisting feeding, a first side idler wheel assembly, a second side idler wheel assembly and a third side idler wheel assembly are further arranged on the machine body assembly; the side pressing plate is arranged on the discharging side of the second lower cutter mechanism; the first side idler wheel assembly is arranged between the side pressing plate and the second lower cutter mechanism; the third side idler wheel assembly is arranged on the feeding side of the first lower cutter mechanism; and the second side idler wheel assembly is arranged between the first lower cutter mechanism and the third side idler wheel assembly.

Alternatively or preferably, the conveyor is an upper press roller type conveyor which can be adjusted correspondingly according to the thickness of the workpiece.

Optionally or preferably, the main operation panel is provided with a system switch, an indicator light, a main emergency stop button, a power switch, a lighting lamp switch and a main display screen.

Optionally or preferably, the auxiliary operating panel is provided with a left vertical cutter inching advance and retreat button, an auxiliary display screen, a feeding mechanism inching lifting self-resetting button, a feeding inching advance and retreat self-resetting button, an auxiliary emergency stop button, a front upper cutter inching lifting button and a rear upper cutter inching lifting button, when a user debugs the machine, the left vertical cutter inching advance and retreat button is operated, and the left vertical cutter mechanism can be inching widened or narrowed; the upper knife is operated to inching the lifting knob, and the upper knife mechanism can inching be lifted or lowered; the feeding mechanism is operated to inching lift the self-reset button, and the feeding mechanism can inching lift or lower; the current position data values of all mechanisms can be synchronously displayed on the auxiliary display screen, so that the operation of personnel is greatly facilitated.

Optionally or preferably, the front upper cutter mechanism comprises a horizontal sliding seat, an upper horizontal spindle, an upper cutter motor, an upper cutter ball screw rod, an upper cutter lifting servo motor and a transmission case, wherein:

one end of the horizontal sliding seat is connected with an upper cutter ball screw rod, and the other end of the horizontal sliding seat is provided with an upper horizontal shaft seat; one end of the upper cutter ball screw rod, which is far away from the horizontal sliding seat, is connected with a bearing assembly, and the other end of the bearing assembly is connected with an upper cutter lifting servo motor through a servo motor supporting plate; the upper horizontal main shaft is arranged on the upper horizontal shaft seat and is connected with the transmission case; the transmission case is provided with a cutter feeding motor; the rear upper knife mechanism has the same structure as the front upper knife mechanism.

Optionally or preferably, the left vertical cutter mechanism comprises a vertical shaft sliding plate, a vertical cutter motor, a vertical cutter advancing and retreating servo motor, a lifting rod, a vertical cutter ball screw, a vertical cutter spindle, a belt, a vertical cutter spindle seat, a spindle shield and a gear, wherein:

the vertical shaft sliding plate is of an L-shaped structure, the vertical cutter motor is arranged on the short side of the vertical shaft sliding plate, the vertical cutter spindle penetrates through the middle of the long side of the vertical shaft sliding plate, a vertical cutter spindle seat is arranged on the lower part of the vertical shaft sliding plate, the vertical cutter spindle is provided with a spindle shield at one end above the vertical shaft sliding plate, and the other end of the vertical cutter spindle is connected with the vertical cutter motor through a belt; the vertical cutter ball screw is arranged on the vertical shaft sliding plate and is connected with a vertical cutter advancing and retreating servo motor; one end of the lifting rod is connected with the vertical knife advance and retreat servo motor, and the other end of the lifting rod is connected with the vertical knife main shaft through a gear and a crankshaft mechanism.

Based on the technical scheme, the following technical effects can be generated:

1. the utility model adopts a servo motor and a ball screw to carry out numerical control adjustment on the processing width and thickness, particularly, a left vertical cutter mechanism controls the processing width, a front upper cutter mechanism and a rear upper cutter mechanism control the processing thickness, and the accuracy of servo positioning is utilized to achieve quick and effective machine adjustment, thereby obviously saving the debugging time, saving the labor and reducing the quality requirement on users;

2. the utility model discloses be equipped with vice operating panel, go up the sword including left side and advance and retreat from restoring to the throne knob, vice display screen, first sword of going up and down from restoring to the throne knob, second go up the sword and go up and down from restoring to the throne knob, vice emergency stop button and feeding mechanism and go up and down from restoring to the throne knob, convenience of customers operation.

Drawings

Fig. 1 is a front view of the structure of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a side view of the structure of the present invention;

FIG. 4 is a schematic structural view of the main operating panel of the present invention;

FIG. 5 is a schematic view of the structure of the auxiliary operating panel of the present invention;

FIG. 6 is a schematic structural view of the front upper cutter mechanism of the present invention;

FIG. 7 is a schematic structural view of the left vertical cutter mechanism of the present invention;

FIG. 8 is a schematic view of the left vertical cutter mechanism of the present invention;

FIG. 9 is a schematic view of the structure of the vertical knife of the present invention;

fig. 10 is a schematic view of the installation of the vertical knife structure of the present invention.

In the figure, 1-a machine body, 2-a feeding mechanism, 3-a front lower cutter mechanism, 4-a rear lower cutter mechanism, 5-a right vertical cutter mechanism, 6-a left vertical cutter mechanism, 7-a front upper cutter mechanism, 8-a movable workbench, 9-a protective cover, 10-a side pressure plate, 11-a movable guiding rule component, 12-a side guiding wheel component I, 13-a side guiding wheel component II, 14-a side guiding wheel component III, 15-a rear upper cutter mechanism, 16-an electrical system, 17-a conveyor, 18-a main operation panel, 19-a secondary operation panel, 181-a system switch, 182-an indicator light, 183-a main emergency stop button, 184-a power switch, 185-a lighting lamp switch, 186-a main display screen, 191-a left vertical cutter point moving forward and backward button, 192-a secondary display screen, 193-feeding mechanism inching lifting self-resetting button, 194-feeding inching advancing and retreating self-resetting button, 195-pair emergency stop button, 196-front upper knife inching lifting mechanism, 197-rear upper knife mechanism inching lifting mechanism, 601-vertical shaft sliding plate, 602-vertical knife motor, 603-vertical knife advancing and retreating servo motor, 604-lifting rod, 605-vertical knife ball screw, 606-vertical knife spindle, 607-belt, 608-vertical knife spindle seat, 609-spindle shield, 610-gear, 701-horizontal sliding seat, 702-upper horizontal spindle, 703-upper horizontal shaft seat, 704-upper knife motor, 705-upper knife ball screw, 706-upper knife lifting servo motor, 707-servo motor supporting plate, 708-bearing assembly, 709-gear box.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

As shown in fig. 1-10, a numerical control four-side planer is characterized by comprising a machine body 1, wherein an electrical system 16 is arranged at the upper part of the machine body 1 close to a feeding end, a feeding mechanism 2 is also arranged above the machine body 1, and a protective cover 9 is arranged around the machine body 1; the upper part of the machine body 1 is sequentially provided with a front lower cutter mechanism 3, a rear lower cutter mechanism 4, a right vertical cutter mechanism 5, a left vertical cutter mechanism 6, a front upper cutter mechanism 7 and a rear upper cutter mechanism 15 along the feeding direction; the feeding end of the machine body 1 is also provided with a movable workbench 8; an adjustable movable guiding rule assembly 11 is fixedly arranged beside the movable workbench 8, and a conveyor 17 is further arranged above the movable workbench 8; a main operation panel 18 is arranged on the electric system 16; the protection cover 9 is provided with a sub operation panel 19.

The feeding mechanism 2 is a compression roller feeding device capable of being lifted electrically.

The machine body 1 is further provided with a side pressing plate 10, a first side idler wheel assembly 12, a second side idler wheel assembly 13 and a third side idler wheel assembly 14, the side pressing plate 10 is arranged between the rear lower cutter mechanism 4 and the right vertical cutter mechanism 5, the first side idler wheel assembly 12 is arranged between the side pressing plate 10 and the rear lower cutter mechanism 4, the third side idler wheel assembly 14 is arranged between the front lower cutter mechanism 3 and the conveyor 17, and the second side idler wheel assembly 13 is arranged between the front lower cutter mechanism 3 and the third side idler wheel assembly 14.

The conveyor 17 is an upper press-roll conveyor.

The main operation panel 18 is provided with a system switch 181, an indicator lamp 182, a main emergency stop button 183, a power switch 184, an illumination lamp switch 185 and a main display screen 186.

The auxiliary operation panel 19 is provided with a left vertical knife inching advance and retreat button 191, an auxiliary display screen 192, a feeding mechanism inching lifting self-reset button 193, a feeding inching advance and retreat automatic reset button 194, an auxiliary emergency stop button 195, a front upper knife inching lifting button 196 and a rear upper knife inching lifting button 197.

The front upper knife mechanism 7 comprises a horizontal sliding base 701, an upper horizontal main shaft 702, an upper knife motor 704, an upper knife ball screw 705, an upper knife lifting servo motor 706 and a transmission case 709, wherein:

one end of the horizontal sliding seat 701 is connected with an upper cutter ball screw 705, and the other end is provided with an upper horizontal shaft seat 703; one end of the upper cutter ball screw 705, which is far away from the horizontal sliding seat 701, is connected with a bearing assembly 708, and the other end of the bearing assembly 708 is connected with an upper cutter lifting servo motor 706 through a servo motor supporting plate 707; the upper horizontal main shaft 702 is arranged on the upper horizontal shaft seat 703 and is connected with the transmission case 709; the transmission case 709 is provided with a knife feeding motor 704; the rear upper knife mechanism 15 has the same structure as the front upper knife mechanism 7.

The left vertical cutter mechanism 6 comprises a vertical shaft sliding plate 601, a vertical cutter motor 602, a vertical cutter advancing and retreating servo motor 603, a lifting rod 604, a vertical cutter ball screw 605, a vertical cutter spindle 606, a belt 607, a vertical cutter spindle seat 608, a spindle shield 609 and a gear 610, wherein:

the vertical shaft sliding plate 601 is of an L-shaped structure, the vertical cutter motor 602 is arranged on the short side of the vertical shaft sliding plate 601, the vertical cutter spindle 606 penetrates through the middle of the long side of the vertical shaft sliding plate 601, the vertical cutter spindle 606 is arranged on the lower part of the vertical shaft sliding plate 601 and is provided with a vertical cutter spindle seat 608, one end of the vertical cutter spindle 606, which is positioned above the vertical shaft sliding plate 601, is provided with a spindle shield 609, and the other end of the vertical cutter spindle 606 is connected with the vertical cutter motor 602 through a belt 607; the vertical cutter ball screw 605 is arranged on the vertical shaft sliding plate 601 and is connected with a vertical cutter advancing and retreating servo motor 603; one end of the lifting rod 604 is connected with the vertical cutter advancing and retreating servo motor 603, and the other end is connected with the vertical cutter main shaft 606 through a gear 610 and a crankshaft mechanism.

The specific implementation process comprises the following steps:

as in fig. 8, machining width adjustment: inputting the position size of the left vertical cutter to be positioned on a human-computer interface of the machine, starting the left vertical cutter mechanism 6, driving the left vertical cutter mechanism 6 to move forwards and backwards by the vertical cutter advancing and retreating servo motor 603, and very accurately determining the relative position of the workpiece 20 and the movable guiding rule component 11 so as to ensure the machining width value of the workpiece 20 after being planed by the left vertical cutter;

as in fig. 9, machining thickness adjustment: the position sizes of the front upper cutter and the rear upper cutter to be positioned are respectively input on a human-computer interface of the machine, the front upper cutter mechanism 7 and the rear upper cutter mechanism 15 are started, the upper cutter servo lifting servo motor 706 drives the front upper cutter mechanism 7 to move up and down by taking the front upper cutter mechanism 7 as an example, so that the processing thickness value of the workpiece 20 is ensured;

the embodiment has the following advantages:

1. the utility model adopts a servo motor and a ball screw to carry out numerical control adjustment on the processing width and thickness, particularly, a left vertical cutter mechanism controls the processing width, a front upper cutter mechanism and a rear upper cutter mechanism control the processing thickness, and the accuracy of servo positioning is utilized to achieve quick and effective machine adjustment, thereby obviously saving the debugging time, saving the labor and reducing the quality requirement on users;

2. the utility model discloses be equipped with vice operating panel, go up the sword including left side and advance and retreat from restoring to the throne knob, vice display screen, first sword of going up and down from restoring to the throne knob, second go up the sword and go up and down from restoring to the throne knob, vice emergency stop button and feeding mechanism and go up and down from restoring to the throne knob, convenience of customers operation.

The present invention has been described in detail with reference to the accompanying drawings and the embodiments, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the scope of the present invention. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application are intended to be covered by the present invention.

Claims (8)

1. A numerical control four-side planer is characterized by comprising a machine body (1), wherein an electric system (16) is arranged at the upper part of the machine body (1) close to a feeding end, a feeding mechanism (2) is also arranged above the machine body (1), and a protective cover (9) is arranged around the machine body (1); the upper part of the machine body (1) is sequentially provided with a front lower cutter mechanism (3), a rear lower cutter mechanism (4), a right vertical cutter mechanism (5), a left vertical cutter mechanism (6), a front upper cutter mechanism (7) and a rear upper cutter mechanism (15) along the feeding direction; the feeding end of the machine body (1) is also provided with a movable workbench (8); an adjustable movable guiding rule component (11) is fixedly arranged beside the movable workbench (8), and a conveyor (17) is also arranged above the movable workbench (8); a main operation panel (18) is arranged on the electric system (16); an auxiliary operation panel (19) is arranged on the protective cover (9).

2. A numerically controlled four-sided planer machine tool according to claim 1, characterized in that the feeding mechanism (2) is an electrically liftable roller feeder.

3. The numerical control four-side planer according to claim 1 wherein the machine body (1) is further provided with a side pressing plate (10), a first side idler assembly (12), a second side idler assembly (13) and a third side idler assembly (14) for assisting feeding, the side pressing plate (10) is arranged between the rear lower cutter mechanism (4) and the right upright cutter mechanism (5), the first side idler assembly (12) is arranged between the side pressing plate (10) and the rear lower cutter mechanism (4), the third side idler assembly (14) is arranged between the front lower cutter mechanism (3) and the conveyor (17), and the second side idler assembly (13) is arranged between the front lower cutter mechanism (3) and the third side idler assembly (14).

4. A numerically controlled tetrahedral planing machine according to claim 1, characterized in that the conveyor (17) is an upper press-and-roll conveyor.

5. A numerically controlled four-sided planer machine tool according to claim 1 wherein the main operating panel (18) is provided with a system switch (181), an indicator light (182), a main emergency stop button (183), a power switch (184), a light switch (185) and a main display screen (186).

6. The digital controlled four-side planer according to claim 1 wherein the secondary operating panel (19) is provided with a left knife jogging advance and retreat button (191), a secondary display screen (192), a feeding mechanism jogging elevation self-reset button (193), a feeding jogging advance and retreat automatic reset button (194), a secondary emergency stop button (195), a front upper knife jogging elevation button (196) and a rear upper knife jogging elevation button (197).

7. A numerically controlled four-sided planer machine tool according to claim 1 wherein the front upper cutter mechanism (7) comprises a horizontal slide (701), an upper horizontal spindle (702), an upper cutter motor (704), an upper cutter ball screw (705), an upper cutter lifting servo motor (706) and a transmission case (709), wherein:

one end of the horizontal sliding seat (701) is connected with an upper cutter ball screw rod (705), and the other end is provided with an upper horizontal shaft seat (703); one end of the upper cutter ball screw rod (705), which is far away from the horizontal sliding seat (701), is connected with a bearing assembly (708), and the other end of the bearing assembly (708) is connected with an upper cutter lifting servo motor (706) through a servo motor supporting plate (707); the upper horizontal main shaft (702) is arranged on the upper horizontal shaft seat (703) and is connected with the transmission case (709); the transmission case (709) is provided with an upper knife motor (704); the rear upper knife mechanism (15) has the same structure as the front upper knife mechanism (7).

8. The numerical control four-side planer according to claim 1 wherein the left vertical cutter mechanism (6) comprises a vertical shaft slide plate (601), a vertical cutter motor (602), a vertical cutter advance and retreat servo motor (603), a lifting rod (604), a vertical cutter ball screw (605), a vertical cutter spindle (606), a belt (607), a vertical cutter spindle seat (608), a spindle shield (609) and a gear (610), wherein:

the vertical shaft sliding plate (601) is of an L-shaped structure, the vertical cutter motor (602) is arranged on the short side of the vertical shaft sliding plate (601), the vertical cutter spindle (606) penetrates through the middle of the long side of the vertical shaft sliding plate (601), the vertical cutter spindle (606) is arranged on the lower part of the vertical shaft sliding plate (601) and is provided with a vertical cutter spindle seat (608), one end of the vertical cutter spindle (606) above the vertical shaft sliding plate (601) is provided with a spindle shield (609), and the other end of the vertical cutter spindle (606) is connected with the vertical cutter motor (602) through a belt (607); the vertical cutter ball screw (605) is arranged on the vertical shaft sliding plate (601) and is connected with the vertical cutter advancing and retreating servo motor (603); one end of the lifting rod (604) is connected with the vertical cutter advancing and retreating servo motor (603), and the other end of the lifting rod is connected with the vertical cutter main shaft (606) through a gear (610) and a crankshaft mechanism.

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