CN106625887B - Timber four sides saw with secondary positioning mechanism - Google Patents

Abstract

A wooden door four-side saw with a secondary positioning mechanism comprises a rack base, wherein a feeding roller is arranged at one end of the rack base, a discharging roller is arranged at the other end of the rack base, a conveying belt and a sucking disc are arranged between the feeding roller and the discharging roller, a door plate is guided to the conveying belt by the feeding roller, conveyed and fixed by the sucking disc for processing and then guided out by the discharging roller, a door inner hole is formed in the door plate, a Y-axis guide rail is arranged on one side of the rack base, a Y-axis sliding seat is arranged on the Y-axis guide rail, and a processing support arm is arranged on the rack base; a first X-axis slide rail is arranged on one side of the machining support arm, a second X-axis slide rail is arranged on the other side of the machining support arm, and a third X-axis slide rail is arranged at the top end of the machining support arm; a first saw knife is arranged on the first X-axis slide rail; a second saw blade is arranged on the second X-axis slide rail; and a secondary positioning frame is arranged on the third X-axis slide rail, secondary positioning supports extend from two sides of the secondary positioning frame, and a secondary positioning leaning rod is connected to each secondary positioning support.

Description

Timber four sides saw with secondary positioning mechanism

Technical Field

The invention relates to the technical field of door sawing machines, in particular to a wooden door four-side saw with a secondary positioning mechanism.

Background

With the improvement of aesthetic value of consumers, a door panel with a door inner hole appears on the market, then a decoration panel is additionally arranged on the door inner hole, so that the door panel is more attractive, or a glass panel is additionally arranged in the door inner hole, so that a room provided with the door panel can conveniently observe the scenery outside the door for the consumers to select;

in the process of manufacturing the door plate, firstly, a door inner hole is formed in a complete wood plate, and then the wood plate is sawed through the four edges of the wood door to form the door plate;

however, in the existing processing technology, a relatively precise positioning device is not provided, so that the inner edge of the door inner hole (in the case of the case, the shape of the door inner hole is rectangular, but other shapes are not excluded) and the outer edge of the door plate achieve precise verticality and balance, and the technical requirement of the processing procedure is extremely high; therefore, the present invention has been developed to solve the above-mentioned drawbacks and to provide an accurate positioning mechanism.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provides a wood door four-edge saw with a secondary positioning mechanism.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a wooden door four-side saw with a secondary positioning mechanism comprises a rack base, wherein one end of the rack base is provided with a feeding roller, the other end of the rack base is provided with a discharging roller, a conveying belt and a sucking disc are installed between the feeding roller and the discharging roller, a door plate is guided to the conveying belt by the feeding roller, conveyed by the conveying belt and fixed by the sucking disc for processing and then guided out by the discharging roller, and an inner door hole is formed in the door plate in advance;

a first X-axis slide rail is arranged on one side of the machining support arm, a second X-axis slide rail is arranged on the other side of the machining support arm, and a third X-axis slide rail is arranged at the top end of the machining support arm;

the first X-axis sliding rail is provided with a first saw cutter which is respectively matched with the two long edges of the door panel in a machining mode in a sliding mode;

a second saw cutter which is respectively matched with the two short edges of the door panel is arranged on the second X-axis sliding rail in a sliding way;

the third X axle slide rail is slided and is equipped with the secondary positioning frame, and the secondary positioning frame has two secondary location supports toward the both sides extension of processing the support arm, is connected with the secondary location rest bar through the secondary location cylinder on every secondary location support, and the secondary location is carried out the secondary location to the door plant to the inward flange cooperation of two secondary location rest bars on two secondary location supports AND gate hole.

Specifically, a door plate which is provided with a door inner hole (the shape of the door inner hole is rectangular in the embodiment, but other shapes are not excluded) in advance is fed onto a conveying belt through a feeding roller, and then the conveying belt conveys the door plate to a processing station (located above a plurality of suckers) and is fixed by the suckers in an adsorption manner, so that a preprocessing step is realized;

the secondary positioning frame moves to one side of the inner hole of the door under the driving of the servo motor, and then the two secondary positioning leaning rods extend to one edge of the inner hole of the door under the driving of the secondary positioning cylinder and lean against the edge of one inner hole of the door;

furthermore, because the two secondary positioning rest bars are respectively arranged on the two secondary positioning supports and are positioned on the same straight line, two points of the two positioning rest bars form a line;

when the two secondary positioning leaning rods lean against one edge of the door inner hole (one secondary positioning leaning rod is pressed against the edge of the door inner hole, and the other secondary positioning leaning rod is pressed against the corner of the door inner hole), the edge of one side of the door inner hole and the outer edge of the same side of the door plate are in a balanced state, when the saw cutter cuts and saws one outer edge which is vertical to the pressing edge relatively, any one edge in the door inner hole and any one outer edge outside the door plate are vertical or balanced, the verticality and the balance degree of the outer edge of the processed door plate can be accurate, errors are reduced, and the rejection rate is reduced;

the structure has high processing precision and short consumed working hours, can be produced and formed in a one-time through mode, can reach the efficient production level, and greatly improves the market competitiveness.

Two conveying belts are installed between the feeding roller and the discharging roller, the two conveying belts are respectively connected with a rack base in a lifting mode through a lifting guide rail, a suction disc frame is arranged on the outer sides of the two conveying belts respectively, a suction disc is arranged on the suction disc frame, a long-edge swinging positioning mechanism matched with one long edge of the door plate in a positioning mode is arranged on the outer side of the suction disc frame, and a plurality of long-edge fixing mechanisms matched with the other long edge of the door plate in a positioning mode are arranged on the outer side of the other suction disc frame;

one ends of the two sucker frames, which are close to the discharging roller, are respectively provided with a first short edge positioning mechanism which is matched with one short edge of the door plate in a positioning way;

wherein the inner side of a suction cup frame is provided with a short edge positioning slide rail, the short edge positioning slide rail is provided with a short edge positioning cylinder, the short edge positioning cylinder is connected with a swing positioning drag hook towards one end of the feeding roller wheel, and the swing positioning drag hook is in tension fit with the other short edge of the door plate.

Specifically, a door plate with a door inner hole is conveyed to a conveying belt through a feeding roller, the conveying belt is conveyed to a processing station (located above a plurality of suckers), and after the door plate enters the processing station, the conveying belt descends to a horizontal position lower than a sucker frame through a lifting guide rail, and the door plate is placed on the sucker frame;

furthermore, the long-edge swinging positioning mechanism is matched with one long edge of the door panel in a positioning way, the long-edge fixing mechanism is matched with the other long edge of the door panel in a positioning way, the first short-edge positioning mechanism is matched with the short edge of the door panel towards one end of the discharging roller in a positioning way, and finally the swinging positioning drag hook is tensioned towards the direction of the discharging roller, so that the four edges of the door panel are fixed, and the accuracy of a processing position is ensured;

furthermore, because the two secondary positioning rest bars are respectively arranged on the two secondary positioning supports and are positioned on the same straight line, two points of the two positioning rest bars form a line;

when the two secondary positioning leaning rods lean against one edge of the door inner hole (one secondary positioning leaning rod is tightly pressed with the edge of the door inner hole, and the other secondary positioning leaning rod is tightly pressed with the corner of the door inner hole), the edge of one side of the door inner hole and the outer edge of the same side of the door plate are in a balanced state, after the process is completed, the door plate is in a correct position to be processed, the secondary positioning process is completed, the sucker adsorbs a door plate fixing position, and the long-edge swinging positioning mechanism, the long-edge fixing mechanism, the first short-edge positioning mechanism and the swinging positioning draw hook are separated from the outer edge of the door plate, so that processing spaces of the first saw cutter and the second saw cutter are reserved;

and finally, sawing the four sides of the door panel by the first saw blade and the second saw blade.

One side of the processing support arm is provided with two first X-axis slide rails, the two first X-axis slide rails are respectively connected with a first X-axis slide plate through two first X-axis slide blocks in a sliding manner along the X-axis direction, the first X-axis slide plate is provided with a first Z-axis slide rail, the first Z-axis slide rail is provided with a first Z-axis slide plate through a first Z-axis slide block in a sliding manner along the Z-axis direction, the first Z-axis slide plate is provided with a first motor, and the first motor is connected with a first saw blade in a driving manner.

The first saw blade is used for cutting and sawing two long edges of the door plate.

A first Z-axis sliding seat is arranged on the first motor, two second Z-axis sliding rails 34 are arranged on the first Z-axis sliding seat, a Z-axis screw rod is arranged between the two second Z-axis sliding rails, and a second Z-axis sliding plate is arranged on the Z-axis screw rod in a sliding manner along the Z-axis direction;

and two fourth X-axis slide rails are arranged on the second Z-axis slide plate, an X-axis lead screw is arranged between the two fourth X-axis slide rails, a second X-axis slide plate is arranged on the X-axis lead screw in a sliding manner along the X-axis direction, a first auxiliary motor is arranged on the second X-axis slide plate, and a first auxiliary saw cutter is driven and connected on the first auxiliary motor.

Specifically, because first pair saw sword sets up on the position with one side with first saw sword, and set up for the linkage, so accomplish the back of cutting out the saw to two long limits of door plant when first saw sword, first pair saw sword also can follow first saw sword and cut out saw work, carry out the secondary to the long limit of door plant and cut out the saw, play the effect of finish machining, it is high to improve machining efficiency greatly, it is short to consume man-hour, in processing of a time, rough machining and finish machining's work can be realized simultaneously, market competition is greatly improved.

The other side of processing support arm is equipped with two second X axle slide rails, there is the second saw tool rest through second X axle slider along X axle direction sliding connection respectively on two second X axle slide rails, be equipped with two lifter that go up and down to set up along the Y axle direction on the second saw tool rest, the bottom of two lifter is equipped with the connecting piece respectively, be equipped with the connecting plate on two connecting pieces respectively, fixedly connected with second motor between two connecting plates makes second motor and lifter synchronous oscilaltion, the second motor drives with the second saw sword and connects.

The second saw blade cuts and saws two short edges of the door panel.

Wherein a connecting piece integral type extends there is the connection box, is equipped with the vice motor of second on the connection box, drives on the vice motor of second and has connect the vice saw sword of second.

Specifically, because the vice saw sword of second sets up on the position with one side with the second saw sword, and set up for the linkage, so accomplish to the two minor faces of door plant when the second saw sword and cut out the saw after, the vice saw sword of second also can follow the second saw sword and cut out saw work, carry out the secondary to the minor face of door plant and cut out the saw, play finish machining's effect, it is high to improve machining efficiency greatly, it is short to consume man-hour, in processing of a time, rough machining and finish machining's work can be realized simultaneously, market competition is greatly improved.

The invention has the beneficial effects that:

the structure has high processing precision and short consumed working hours, can be produced and formed in a one-time through mode, can reach the efficient production level, and greatly improves the market competitiveness.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is a schematic structural diagram of the present invention.

Fig. 5 is a schematic structural view of the present invention.

Fig. 6 is a cross-sectional view of the present invention.

Fig. 7 is a schematic structural view of the present invention.

Fig. 8 is a schematic structural view of the present invention.

Fig. 9 is a schematic structural view of the present invention.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

As shown in fig. 1 to 9, a wooden door four-side saw with a secondary positioning mechanism comprises a frame base 1, wherein one end of the frame base 1 is provided with a feeding roller 2, the other end of the frame base 1 is provided with a discharging roller 3, a conveying belt 4 and a sucking disc 5 are installed between the feeding roller 2 and the discharging roller 3, a door plate 6 is guided onto the conveying belt 4 by the feeding roller 2, conveyed and fixed by the sucking disc 5 for processing, and then guided out by the discharging roller 3, and an inner door hole 8 is pre-formed in the door plate 6, and is characterized in that one side of the frame base 1 is provided with a Y-axis guide rail 9, a Y-axis sliding seat 10 is slidably arranged on the Y-axis guide rail 9 along the Y-axis direction, and a processing support arm 11 which extends along the X-axis direction and is connected with the Y-axis sliding seat 10 is arranged above the frame base 1;

a first X-axis slide rail 12 is arranged on one side of the processing support arm 11, a second X-axis slide rail 13 is arranged on the other side of the processing support arm 11, and a third X-axis slide rail 14 is arranged at the top end of the processing support arm 11;

a first saw cutter 15 which is respectively matched with the two long edges of the door panel 6 is arranged on the first X-axis slide rail 12 in a sliding manner;

a second saw 16 matched with the two short edges of the door panel 6 is arranged on the second X-axis slide rail 13 in a sliding mode;

the third X-axis slide rail 14 is provided with a secondary positioning frame 7 in a sliding manner, the secondary positioning frame 7 extends towards two sides of the processing support arm 11 to form two secondary positioning support seats 7a, each secondary positioning support seat 7a is connected with a secondary positioning leaning rod 18 through a secondary positioning air cylinder 17, and the two secondary positioning leaning rods 18 on the two secondary positioning support seats 7a are matched with the inner edge of the door inner hole 8 to perform secondary positioning on the door plate 6.

Specifically, the door plate 6, which is pre-provided with a door inner hole 8 (the shape of the door inner hole 8 is rectangular in the embodiment, but other shapes are not excluded), is fed onto the conveyor belt 4 through the feeding roller 2, and then the conveyor belt 4 conveys the door plate 6 to a processing station (located above the plurality of suckers 5) and is fixed by the suckers 5 in an adsorption manner, so that the preprocessing step is realized;

the secondary positioning frame 7 moves to one side of the door inner hole 8 through the driving of a servo motor, and then two secondary positioning leaning rods 18 extend to one edge of the door inner hole 8 through the driving of a secondary positioning air cylinder 17 and lean against the edge of one door inner hole 8;

further, because the two secondary positioning rest bars 18 are respectively arranged on the two secondary positioning supports 7a and are on the same straight line, two points of the two positioning rest bars form a line;

when the two secondary positioning leaning rods 18 lean against one edge of the door inner hole 8 (one secondary positioning leaning rod 18 is pressed against the edge of the door inner hole 8, and the other secondary positioning leaning rod 18 is pressed against the corner of the door inner hole 8), the edge of one side of the door inner hole 8 and the outer edge of the same side of the door plate 6 reach a balanced state, when the saw cutter saw presses the outer edge vertical to the edge relatively, any one edge in the door inner hole 8 and any one outer edge outside the door plate 6 form vertical or balance, the processed outer edge of the door plate 6 can be accurate in verticality and balance, errors are reduced, and the rejection rate is reduced;

the structure has high processing precision and short consumed working hours, can be produced and formed in a one-time through mode, can reach the efficient production level, and greatly improves the market competitiveness.

Two conveying belts 4 are installed between the feeding roller 2 and the discharging roller 3, the two conveying belts 4 are respectively connected with the rack base 1 in a lifting mode through a lifting guide rail 19, a suction disc frame 20 is respectively arranged on the outer sides of the two conveying belts 4, suction discs 5 are arranged on the suction disc frame 20, a long-edge swinging positioning mechanism 21 matched with one long edge of the door panel 6 in a positioning mode is arranged on the outer side of the suction disc frame 20, and a plurality of long-edge fixing mechanisms 22 matched with the other long edge of the door panel 6 in a positioning mode are arranged on the outer side of the other suction disc frame 20;

one end of each suction cup frame 20 close to the discharging roller 3 is respectively provided with a first short edge positioning mechanism 23 which is matched with one short edge of the door panel 6 in a positioning way;

wherein the inner side of a suction cup frame 20 is provided with a short edge positioning slide rail 24, the short edge positioning slide rail 24 is provided with a short edge positioning cylinder 25, the short edge positioning cylinder 25 is connected with a swing positioning drag hook 26 towards one end of the feeding roller wheel 2, and the swing positioning drag hook 26 is in tension fit with the other short edge of the door panel 6.

Specifically, a door plate 6 with a door inner hole 8 formed in advance is conveyed onto a conveying belt 4 through a feeding roller 2, the conveying belt 4 is conveyed to a processing station (located above a plurality of suckers 5), after the door plate 6 enters the processing station, the conveying belt 4 descends to a horizontal position lower than a sucker frame 20 through a lifting guide rail 19, and the door plate 6 is placed on the sucker frame 20;

furthermore, the long-edge swinging positioning mechanism 21 is matched with one long edge of the door panel 6 in a positioning manner, the long-edge fixing mechanism 22 is matched with the other long edge of the door panel 6 in a positioning manner, the first short-edge positioning mechanism 23 is matched with the short edge of the door panel 6 towards one end of the discharging roller 3 in a positioning manner, and finally the swinging positioning drag hook 26 is tensioned towards the direction of the discharging roller 3, so that the four edges of the door panel 6 are fixed, and the accuracy of the processing position is ensured;

further, because the two secondary positioning rest bars 18 are respectively arranged on the two secondary positioning supports 7a and are on the same straight line, two points of the two positioning rest bars form a line;

when the two secondary positioning leaning rods 18 lean against one edge of the door inner hole 8 (one secondary positioning leaning rod 18 is pressed against the edge of the door inner hole 8, and the other secondary positioning leaning rod 18 is pressed against the corner of the door inner hole 8), the edge of one side of the door inner hole 8 and the outer edge of the same side of the door plate 6 reach a balanced state, after the process is completed, the door plate 6 is in a correct position to be processed, the secondary positioning process is completed, at the moment, the sucking disc 5 adsorbs the fixed position of the door plate 6, and the long-edge swinging positioning mechanism 21, the long-edge fixing mechanism 22, the first short-edge positioning mechanism 23 and the swinging positioning drag hook 26 are separated from the outer edge of the door plate 6, and a processing space of the first saw blade 15 and the second saw blade 16 is reserved;

finally, the first saw blade 15 and the second saw blade 16 saw the four sides of the door panel 6.

One side of the processing support arm 11 is provided with two first X-axis slide rails 12, the two first X-axis slide rails 12 are respectively connected with a first X-axis slide plate 28 through two first X-axis slide blocks 27 in a sliding manner along the X-axis direction, the first X-axis slide plate 28 is provided with a first Z-axis slide rail 29, the first Z-axis slide rail 29 is provided with a first Z-axis slide plate 31 in a sliding manner along the Z-axis direction through a first Z-axis slide block 30, the first Z-axis slide plate 31 is provided with a first motor 32, and the first motor 32 is connected with the first saw blade 15 in a driving manner.

The first saw blade 15 saws both long sides of the door panel 6.

A first Z-axis slide seat 33 is arranged on the first motor 32, two second Z-axis slide rails 34 are arranged on the first Z-axis slide seat 33, a Z-axis screw rod 35 is arranged between the two second Z-axis slide rails 34, and a second Z-axis slide plate 36 is arranged on the Z-axis screw rod 35 in a sliding manner along the Z-axis direction;

the second Z-axis sliding plate 36 is provided with two fourth X-axis sliding rails 37, an X-axis screw 38 is arranged between the two fourth X-axis sliding rails 37, a second X-axis sliding plate 39 is arranged on the X-axis screw 38 in a sliding manner along the X-axis direction, the second X-axis sliding plate 39 is provided with a first auxiliary motor 40, and the first auxiliary motor 40 is connected with a first auxiliary saw blade 41 in a driving manner.

Specifically, because first pair saw sword 41 sets up on the position with one side with first saw sword 15, and set up for the linkage, so accomplish the back of cutting out the saw to two long limits of door plant 6 when first saw sword 15, first pair saw sword 41 also can follow first saw sword 15 and cut out saw work, carry out the secondary to the long limit of door plant 6 and cut out the saw, play finish machining's effect, improve machining efficiency greatly, it is short when consuming man-hour, in processing of once, rough machining and finish machining's work can be realized simultaneously, market competition is improved greatly.

Two second X-axis slide rails 13 are arranged on the other side of the processing support arm 11, a second saw blade 16 frame is connected to the two second X-axis slide rails 13 through second X-axis sliders 42 in a sliding manner along the X-axis direction, two lifting rods 43 arranged in a lifting manner along the Y-axis direction are arranged on the second saw blade 16 frame, connecting members 44 are arranged at the bottom ends of the two lifting rods 43, connecting plates 45 are arranged on the two connecting members 44, a second motor 46 is fixedly connected between the two connecting plates 45, so that the second motor 46 and the lifting rods 43 can be lifted up and down synchronously, and the second motor 46 and the second saw blade 16 are connected in a driving manner.

The second saw blade 16 saws both short sides of the door panel 6.

One of the connecting pieces 44 integrally extends to form a connecting box 47, a second auxiliary motor 48 is arranged on the connecting box 47, and a second auxiliary saw blade 49 is driven and connected to the second auxiliary motor 48.

Specifically, because the vice saw sword 49 of second sets up on the position with one side with second saw sword 16, and set up for the linkage, so accomplish when second saw sword 16 and cut out the saw back to two minor faces of door plant 6, the vice saw sword 49 of second also can follow second saw sword 16 and cut out saw work, carry out the secondary to the minor face of door plant 6 and cut out the saw, play finish machining's effect, improve machining efficiency greatly, it is short to consume man-hour, in processing of once, rough machining and finish machining's work can be realized simultaneously, market competition is improved greatly.

The above-described embodiments are merely preferred embodiments of the present invention, and any equivalent design made in the claims of the present invention should be covered by the technology of the present invention.

Claims (6)

1. A wooden door four-side saw with a secondary positioning mechanism comprises a frame base (1), a feeding roller (2) is arranged at one end of the frame base (1), a discharging roller (3) is arranged at the other end of the frame base (1), a conveying belt (4) and a sucking disc (5) are arranged between the feeding roller (2) and the discharging roller (3), a door panel (6) is guided onto the conveying belt (4) by the feeding roller (2) to be conveyed and is fixed by the sucking disc (5) to be processed, then is led out by the discharging roller (3), and a door inner hole (8) is arranged on the door plate (6) in advance, the machine frame is characterized in that a Y-axis guide rail (9) is arranged on one side of the machine frame base (1), a Y-axis sliding seat (10) is arranged on the Y-axis guide rail (9) in a sliding manner along the Y-axis direction, and a processing support arm (11) which extends along the X-axis direction and is connected with the Y-axis sliding seat (10) is arranged above the machine frame base (1);

a first X-axis slide rail (12) is arranged on one side of the processing support arm (11), a second X-axis slide rail (13) is arranged on the other side of the processing support arm (11), and a third X-axis slide rail (14) is arranged at the top end of the processing support arm (11);

a first saw (15) matched with the two long edges of the door panel (6) is arranged on the first X-axis sliding rail (12) in a sliding mode;

a second saw (16) respectively matched with the two short edges of the door panel (6) is arranged on the second X-axis sliding rail (13) in a sliding manner;

the third X axle slide rail (14) is slided and is equipped with secondary location frame (7), secondary location frame (7) have two secondary location support (7a) toward the both sides extension of processing support arm (11), be connected with secondary location rest bar (18) through secondary location cylinder (17) on every secondary location support (7a), the inward flange cooperation of two secondary location rest bars (18) on two secondary location supports (7a) AND gate hole (8), carry out the secondary location to door plant (6).

2. The wooden door four-side saw with the secondary positioning mechanism is characterized in that two conveying belts (4) are installed between a feeding roller (2) and a discharging roller (3), the two conveying belts (4) are respectively connected with a rack base (1) in a lifting mode through lifting guide rails (19), a suction disc frame (20) is respectively arranged on the outer sides of the two conveying belts (4), suction discs (5) are arranged on the suction disc frame (20), a long-side swinging positioning mechanism (21) matched with one long side of a door panel (6) in a positioning mode is arranged on the outer side of one suction disc frame (20), and a plurality of long-side fixing mechanisms (22) matched with the other long side of the door panel (6) in a positioning mode are arranged on the outer side of the other suction disc frame (20);

one end of each suction cup frame (20) close to the discharging roller (3) is respectively provided with a first short edge positioning mechanism (23) which is matched with one short edge of the door plate (6) in a positioning way;

wherein the inboard of a suction cup frame (20) is equipped with minor face location slide rail (24), is equipped with minor face location cylinder (25) on minor face location slide rail (24), and minor face location cylinder (25) are connected with swing location drag hook (26) towards the one end of feeding running roller (2), swing location drag hook (26) and the taut cooperation of another minor face wherein of door plant (6).

3. The wooden door four-side saw with the secondary positioning mechanism is characterized in that two first X-axis sliding rails (12) are arranged on one side of a processing support arm (11), a first X-axis sliding plate (28) is connected to each of the two first X-axis sliding rails (12) in a sliding mode along the X-axis direction through two first X-axis sliding blocks (27), a first Z-axis sliding rail (29) is arranged on each first X-axis sliding plate (28), a first Z-axis sliding plate (31) is arranged on each first Z-axis sliding rail (29) in a sliding mode along the Z-axis direction through a first Z-axis sliding block (30), a first motor (32) is arranged on each first Z-axis sliding plate (31), and the first motor (32) is in driving connection with a first saw blade (15).

4. The wooden door four-side saw with the secondary positioning mechanism is characterized in that a first Z-axis sliding seat (33) is arranged on the first motor (32), two second Z-axis sliding rails (34) are arranged on the first Z-axis sliding seat (33), a Z-axis lead screw (35) is arranged between the two second Z-axis sliding rails (34), and a second Z-axis sliding plate (36) is arranged on the rod of the Z-axis lead screw (35) in a sliding mode along the Z-axis direction;

the second Z-axis sliding plate (36) is provided with two fourth X-axis sliding rails (37), an X-axis screw rod (38) is arranged between the two fourth X-axis sliding rails (37), a second X-axis sliding plate (39) is arranged on the X-axis screw rod (38) in a sliding mode along the X-axis direction, a first auxiliary motor (40) is arranged on the second X-axis sliding plate (39), and a first auxiliary saw blade (41) is connected to the first auxiliary motor (40) in a driving mode.

5. The wooden door four-side saw with the secondary positioning mechanism is characterized in that two second X-axis slide rails (13) are arranged on the other side of the processing support arm (11), a second saw blade (16) frame is connected to the two second X-axis slide rails (13) in a sliding mode along the X-axis direction through second X-axis slide blocks (42) respectively, two lifting rods (43) which are arranged in a lifting mode along the Y-axis direction are arranged on the second saw blade (16) frame, connecting pieces (44) are arranged at the bottom ends of the two lifting rods (43) respectively, connecting plates (45) are arranged on the two connecting pieces (44) respectively, a second motor (46) is fixedly connected between the two connecting plates (45), the second motor (46) and the lifting rods (43) are enabled to lift up and down synchronously, and the second motor (46) is connected with the second saw blade (16) in a driving mode.

6. The wooden door four-side saw with the secondary positioning mechanism is characterized in that a connecting box body (47) integrally extends from a connecting piece (44), a second secondary motor (48) is arranged on the connecting box body (47), and a second secondary saw blade (49) is connected to the second secondary motor (48) in a driving mode.

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