CN201026635Y

CN201026635Y - Timber board cutting machine

Info

Publication number: CN201026635Y
Application number: CNU2007201081887U
Authority: CN
Inventors: 张哲长
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-04-16
Filing date: 2007-04-16
Publication date: 2008-02-27
Anticipated expiration: 2017-04-16

Abstract

The utility model relates to a wood processing machine, and concretely discloses a wood panel saw which comprises a horizontally moving frame, a drive mechanism for the horizontally moving frame, a vertically sliding frame, a drive mechanism for the vertically sliding frame and an annular saw blade drive mechanism. The vertically sliding frame can be arranged on the horizontally moving frame, sliding up and down, and the drive mechanism for the horizontally moving frame is arranged on the horizontally moving frame and the vertically sliding frame, and the drive mechanism for the vertically sliding frame and the annular saw blade drive mechanism are arranged on a rectangular supporting frame which are fixedly arranged in the backside of the vertically sliding frame. The work site of the wood panel saw of the utility model is only half of that of the existing wood panel saw, and the occupied work site is small, and the power consumption is lower than that of the existing wood panel saw.

Description

A kind of timber slabber

Technical field

The utility model relates to a kind of timber processing equipment, relates in particular to a kind of timber slabber.

Background technology

The existing slabber that timber is sawn into plank is fixedly mounted in factory building or the builder's temporary shed, during operation, timber is fixed on the bearing, bearing can back and forth move horizontally on a guide rail by a transmission device, the endless belt shape saw blade that is fixedly mounted on the slabber in factory building or the builder's temporary shed gyrates, and timber is sawn into plank.Because it is very long that timber has, therefore, it is the twice of timber length at least that the factory building of this slabber or the length of builder's temporary shed are installed; Because it is very heavy that timber has, therefore, need powerful transmission device that bearing is back and forth moved horizontally on guide rail.

The utility model content

The utility model will solve and existing timber is sawn into the technical problem that the work-yard is big, power consumption is high that the slabber of plank takies, and a kind of novel timber slabber is provided.

Timber slabber of the present utility model is characterized in that, comprises that one moves horizontally frame, and moves horizontally frame driving mechanism, a vertical sliding frame, a vertical sliding frame driving mechanism, an endless belt shape saw blade driving mechanism; Vertical sliding frame can slide up and down to be installed in and move horizontally on the frame, moving horizontally the frame driving mechanism is installed in and moves horizontally on frame and the vertical sliding frame, vertical sliding frame driving mechanism and endless belt shape saw blade driving mechanism are installed on the rectangular frame bracket, and rectangular frame bracket is fixedly mounted on the rear side of vertical sliding frame.

Timber slabber of the present utility model, on the one hand, whole machinery all supports in orbit, and during sawing timber, machinery moves, timber is motionless, in moving process timber is carried out sawing, mobile distance equals the length of timber, thereby, the work-yard only needs half of existing timber slabber, and the work-yard that takies is little; On the other hand, existing timber slabber moves log need very big power, and timber slabber of the present utility model moves whole machinery in orbit only needs less power, thereby power consumption is low.

Timber slabber of the present utility model also comprises and has a following technical characterictic:

Also comprise an endless belt shape saw blade strainer, endless belt shape saw blade strainer is installed in the left end of rectangular frame bracket by the support plate of two symmetries of rectangular frame bracket.

Also comprise the width adjustment mechanism that saws a board, the width adjustment mechanism that saws a board is installed in below the rectangular frame bracket by being fixedly mounted on two pairs of support plates below the rectangular frame bracket.

Move horizontally frame comprise a left channel-section steel shape base and a right channel-section steel shape base and be separately fixed at left channel-section steel shape base and right channel-section steel shape base upper surface on a pair of left column and a pair of right column, this is fixedly linked with the two ends of a left support plate respectively to the top of two columns of left column, and this is fixedly linked with the two ends of a right support plate respectively to the top of two columns of right column; Vertical sliding frame comprises longeron in longeron in the left side, the right side, a left front column, a right front column, a left back column and a right back column, the center of left front column, right front column, left back column and right back column respectively has a vertical through hole, the vertical through hole of vertical sliding frame by left front column, right front column, left back column and right back column center can slide up and down to be sleeved on move horizontally frame this to left column with this is on the right column.

Move horizontally the frame driving mechanism and comprise a motor, one first sprocket drive and one second sprocket drive; Motor be fixedly mounted on the left channel-section steel shape base that moves horizontally frame above, first sprocket drive is installed on the left channel-section steel shape base, second sprocket drive is installed in and moves horizontally frame and vertical sliding frame left side and right side, motor links to each other with the first sprocket drive transmission, first sprocket drive links to each other with the second sprocket drive transmission, and second sprocket drive has left front roller and left back roller and right front roller and the right back roller that correspondingly is bearing on the two I shape guide rails.

Vertical sliding frame driving mechanism comprises a motor, a sprocket drive, two worm-gear speed reducers and two screw-drive mechanisms; Motor be fixedly mounted on vertical sliding frame above, link to each other with the sprocket drive transmission, sprocket drive is installed on the vertical sliding frame, two worm-gear speed reducers are fixedly mounted on respectively in the left side of vertical sliding frame in the longeron and the right side on the longeron, the worm shaft of two worm-gear speed reducers is fixedly linked with the two ends of a long-chain wheel shaft of sprocket drive respectively, the worm-wheel shaft of two worm-gear speed reducers is fixedly linked with an end of the two screw rods of two screw-drive mechanisms respectively, the other end of two screw rods respectively with the central through hole that is fixedly mounted on the left support plate that moves horizontally frame and right support plate in the engagement of two nuts.

Endless belt shape saw blade driving mechanism comprises a motor, a leather belt driving mechanism and an endless belt shape saw blade-saw blade wheel assembly; Motor be fixedly mounted on vertical sliding frame above, endless belt shape saw blade-saw blade wheel assembly comprises an active saw blade wheel, an endless belt shape saw blade and a driven saw blade wheel, initiatively the two ends of the axle of saw blade wheel are installed in rotation on the right-hand member of support plate of two symmetries of rectangular frame bracket, the two ends of the axle of driven saw blade wheel are installed in rotation on the endless belt shape saw blade strainer, and motor links to each other by the through-drive of leather belt driving mechanism with active saw blade wheel.

Endless belt shape saw blade strainer comprises a motor, a sprocket drive, two turbine and worm decelerators and two screw-drive mechanisms; Motor be fixedly mounted on vertical sliding frame above, two turbine and worm decelerators are installed in the rectangular frame bracket, two screw-drive mechanisms are installed in respectively in the cuboid bearing support plate of two subdivisions, the cuboid bearing support plate of two subdivisions is slidably mounted in the elongated slot of support plate left end of two symmetries of rectangular frame bracket, the left end of the cuboid bearing support plate of two subdivisions respectively is installed in rotation on the two ends of the axle of driven saw blade wheel by a bearing, the two screw rods of two screw-drive mechanisms is formed by the two worm screws extension of two turbine and worm decelerators, two worm gears of two turbine and worm decelerators are fixedly mounted on the minor axis, and motor links to each other with the minor axis transmission.

The width adjustment mechanism that saws a board comprises two motor, two sprocket drives, two screw mechanisms and the two L shaped width adjusting arms that saw a board; Two motor be fixedly mounted on vertical sliding frame above, each screw mechanism person bubble is drawn together a screw rod, one has slide block and two slide rails with the screwed hole of centre of screw engages, two slide rails pass from the through hole of two symmetries of slide block, slide block can reciprocatingly slide along two slide rails, the two L shaped width adjusting arms that saw a board are fixedly mounted on respectively below two slide blocks, the front end center of the horizontal component of each L shaped width adjusting arm that saws a board all has a horizontal elongated slot, two sprocket drives link to each other with screw drive, two pairs of support plates of fixed installation below the rectangular frame bracket, the two ends of the screw rod of each screw mechanism and two slide rails all are bearing in a pair of support plate.

Description of drawings

Below in conjunction with the drawings and specific embodiments timber slabber of the present utility model is further described.

Fig. 1 is the place ahead perspective diagram of timber slabber of the present utility model;

Fig. 2 is the rear perspective diagram of timber slabber of the present utility model;

Fig. 3 looks schematic diagram for the master of timber slabber of the present utility model illustrated in figures 1 and 2;

Fig. 4 is the schematic rear view of timber slabber of the present utility model illustrated in figures 1 and 2;

Fig. 5 is the elevational schematic view of timber slabber of the present utility model illustrated in figures 1 and 2;

Fig. 6 looks schematic diagram for the left side of timber slabber of the present utility model illustrated in figures 1 and 2;

Fig. 7 is that the endless belt shape saw blade of timber slabber of the present utility model illustrated in figures 1 and 2 drives and the perspective diagram of strainer;

Fig. 8 is that the endless belt shape saw blade of timber slabber of the present utility model shown in Figure 7 drives and the vertical profile schematic diagram of the screw-drive mechanism of strainer;

Fig. 9 is the perspective diagram of the width adjustment mechanism that saws a board of timber slabber of the present utility model illustrated in figures 1 and 2.

The specific embodiment

Referring to Fig. 1 to Fig. 9, timber slabber of the present utility model comprises that one moves horizontally frame 100, and moves horizontally frame driving mechanism 200, one vertical sliding frame 300, one vertical sliding frame driving mechanism 400, an endless belt shape saw blade driving mechanism 500, an endless belt shape saw blade strainer 600 and a width adjustment mechanism 700 that saws a board.

Move horizontally frame 100 comprise left channel-section steel shape base 110 and one a right channel-section steel shape base 120 and be separately fixed at left channel-section steel shape base 110 and right channel-section steel shape base 110 upper surfaces on a pair of left column 130 and a pair of right column 140.This is fixedly linked with the two ends of a left support plate 150 respectively to the top of two columns of left column 130.There is a through hole at the center of left side support plate 150.This is fixedly linked with the two ends of a right support plate 160 respectively to the top of two columns of right column 140.There is a through hole at the center of right support plate 160.

Vertical sliding frame 300 is the I-shaped support of a level.Vertical sliding frame 300 comprises a longeron 311 and a lower-left longeron 312 in a upper left longeron 310, the left side, a longeron 321 and a bottom right longeron 322 in one upper right longeron 320, the right side, one left front column 331 and left back column 332, one right front columns 341 and a right back column 342 and a front beam 351 and a rear cross beam (not shown).The two ends of longeron 311 and lower-left longeron 312 and left front column 331 and left back column 332 are fixedly linked in upper left longeron 310, the left side; The two ends of longeron 321 and bottom right longeron 322 and right front column 341 and right back column 342 are fixedly linked in upper right longeron 320, the right side.The middle part of the two ends of front beam 351 and left front column 331 and right front column 341 is fixedly linked; The middle part of the two ends of rear cross beam and left back column 332 and right back column 342 is fixedly linked.The center of left front column 331, right front column 341, left back column 332 and right back column 342 respectively has a vertical through hole.

Vertical sliding frame 300 can slide up and down to be sleeved on a pair of left column 130 and a pair of right column 140 that moves horizontally frame 100 by the vertical through hole at left front column 331, right front column 341, left back column 332 and right back column 342 centers.

Move horizontally frame driving mechanism 200 and comprise a motor 210, one first sprocket drive 220 and one second sprocket drive 240.Motor 210 be fixedly mounted on the left channel-section steel shape base 110 that moves horizontally frame 100 above.The axle 222 of one hinge wheel 221 of first sprocket drive 220 is installed in rotation on the left channel-section steel shape base 110.Second sprocket drive 240 comprises and is installed in a drive sprocket 241 that moves horizontally frame 100 and vertical sliding frame 300 left sides shown in Figure 6, one first left driven sprocket 242, one second left driven sprocket 243, one the 3rd left driven sprocket 244, one the 4th left driven sprocket 245, one the 5th left driven sprocket 246, one the 6th left driven sprocket 247 is with one the 7th left driven sprocket 248 and be installed in the one first right driven sprocket 251 that moves horizontally frame driving mechanism 200 and vertical sliding frame 300 right sides shown in Figure 1, one second right driven sprocket 252, one the 3rd right driven sprocket 253, one the 4th right driven sprocket 254, one the 5th right driven sprocket 255, one the 6th right driven sprocket 256, one the 7th right driven sprocket 257 and one the 8th right driven sprocket 258.Drive sprocket 241 is fixedly mounted on the other end of the axle 222 of hinge wheel 221.The 4th left driven sprocket 245 and the 5th right driven sprocket 255 are fixedly mounted on the two ends of a long transverse axis 260, and long transverse axis 260 is installed in rotation on the vertical sliding frame 300.As shown in Figure 3, the center fixed of axle 222 is installed the left front roller 261 that a middle part has an annular groove.The axle 265 of the first right driven sprocket 251 is installed in rotation on the right channel-section steel shape base 120, and the center fixed of axle 265 is installed the right front roller 262 that a middle part has an annular groove.As shown in Figure 4, the axle 266 of the 6th left driven sprocket 247 is installed in rotation on the left channel-section steel shape base 110, and the center fixed of axle 266 is installed the left back roller 263 that a middle part has an annular groove.The axle 267 of the 8th right driven sprocket 258 is installed in rotation on the right channel-section steel shape base 120, and the center fixed of axle 267 is installed the right back roller 264 that a middle part has an annular groove.Left front roller 261 and left back roller 263 and right front roller 262 and right back roller 264 correspondingly are bearing on the two I shape guide rails 270.

Vertical sliding frame driving mechanism 400 comprises a motor 410, a sprocket drive 420, two worm-gear speed reducers 430 and two screw-drive mechanisms 440.Motor 410 be fixedly mounted on vertical sliding frame 300 above.Sprocket drive 420 comprises and is fixedly mounted on the minor sprocket on 410 on the motor and is fixedly mounted on hinge wheel 421 on as shown in Figure 5 the long-chain wheel shaft 422.Two worm-gear speed reducers 430 are fixedly mounted on respectively in the left side of vertical sliding frame 300 in the longeron 311 and the right side on the longeron 321.The worm shaft of two worm-gear speed reducers 430 is fixedly linked with the two ends of long-chain wheel shaft 422 respectively.The worm-wheel shaft of two worm-gear speed reducers 430 is fixedly linked with an end of the two screw rods 441 of two screw-drive mechanisms 440 respectively, the other end of two screw rods 441 passes the upper left longeron 310 of vertical sliding frame 300 and the through hole on the upper right longeron 320 respectively, with two nuts, 442 engagements in the central through hole that is fixedly mounted on the left support plate 150 that moves horizontally frame 100 and right support plate 160.

Endless belt shape saw blade driving mechanism 500 comprises a motor 510, a leather belt driving mechanism 520 and an endless belt shape saw blade-saw blade wheel assembly 530.Motor 510 be fixedly mounted on vertical sliding frame 300 above.One rectangular frame bracket 540 is fixedly mounted on left back column 332, right back column 342 and the rear cross beam of vertical sliding frame 300.Endless belt shape saw blade-saw blade wheel assembly 530 comprises an active saw blade wheel 531, one endless belt shape saw blade 532 and one driven saw blade wheel 533.Initiatively the two ends of the axle of saw blade wheel 531 are installed in rotation on the right-hand member of support plate 541 of two symmetries of rectangular frame bracket 540.The left end of two dissection type cuboid bearing support plates 643 of the endless belt shape saw blade strainer 600 that will describe below the two ends of the axle of driven saw blade wheel 533 are installed in rotation on.Motor 510 links to each other by the through-drive of leather belt driving mechanism 520 with active saw blade wheel 531.

Endless belt shape saw blade strainer 600 comprises a motor 610, a sprocket drive 620, two turbine and worm decelerators 630 and two screw-drive mechanisms 640.Motor 610 be fixedly mounted on vertical sliding frame 300 above.Two turbine and worm decelerators 630 comprise two worm screws 631, two worm gears 632, a minor axis 633 and a handwheel 634.Two worm gears 632 can be independent gears, are fixedly installed on the minor axis 633; Also can form one, constitute a worm-wheel shaft with minor axis 633.Sprocket drive 620 links to each other with minor axis 633 transmissions.The end of each worm screw 631 extends left, forms a screw portion 641.One end of two dissection type cuboid bearing support plates 643 respectively is installed in rotation on the two ends of the axle of driven saw blade wheel 533 by a bearing.The other end of the cuboid bearing support plate 643 of two subdivisions has a central blind hole 644.The openend of central blind hole 644 fixedly mount a nut 642, two nuts 642 respectively with screw portion 641 engagements.Two cuboid bearing support plates 643 are slidably mounted in the elongated slot of support plate 541 left ends of two symmetries of rectangular frame bracket 540.Two turbine and worm decelerators 630 are installed in the rectangular frame bracket 540.Handwheel 634 is exposed at support plate 541 outsides.Handwheel 634 constitutes inside and outside spline fitted with the part of the outer end of worm-wheel shaft, thereby makes handwheel 634 and worm-wheel shaft can be in the state of separate or merge respectively.

The width adjustment mechanism that saws a board 700 comprises two motor 710, two sprocket drives 720, two screw mechanisms 730 and the two L shaped width adjusting arms 740 that saw a board.Two motor 710 be fixedly mounted on vertical sliding frame 300 above.Each screw mechanism 730 comprises that all a screw rod 731, has the slide block 733 and two slide rails 734 of the screwed hole of centre 732 that meshes with screw rod 731.Two slide rails 734 pass from the through hole of two symmetries of slide block 733, and slide block 733 can reciprocatingly slide along two slide rails 734.The two L shaped width adjusting arms 740 that saw a board are fixedly mounted on respectively below two slide blocks 733.The front end center of the horizontal component of each L shaped width adjusting arm 740 that saws a board all has a horizontal elongated slot 741.Two sprocket drives 720 link to each other with screw rod 731 transmissions.As shown in Figure 5, two pairs of support plates 735 of fixed installation below rectangular frame bracket 540, the screw rod 731 of each screw mechanism 730 and the two ends of two slide rails 734 all are bearing in a pair of support plate 735.

The course of work of timber slabber of the present utility model is as follows:

One short timber processing platform (not shown) is arranged on the ground between the two I shape guide rails 270 shown in Figure 1, timber is fixed on above the timber processing platform.

Start two motor 710 of the width adjustment mechanism 700 that saws a board, under the driving of two motor 710,720 work of two sprocket drives, the two screw rods 731 that drives two screw mechanisms 730 rotates, two slide blocks 733 are slided along two slide rails 734 respectively, the distance for the treatment of to be fixedly mounted on respectively between the front end of horizontal component of the two L shaped width adjusting arms 740 that saw a board of two slide blocks 733 satisfies when sawing a board width requirement, and two motor 710 are shut down.At this moment, the endless belt shape saw blade 532 of endless belt shape saw blade driving mechanism 500 is in the horizontal elongated slot 741 of the front end of the horizontal component of the two L shaped width adjusting arms 740 that saw a board.

When discovery is positioned at 532 of endless belt shape saw blades tight of horizontal elongated slot 741 of front end of horizontal component of the two L shaped width adjusting arms 740 that saw a board, can start the motor 610 of endless belt shape saw blade strainer 600, under the driving of motor 610, sprocket drive 620 work, the minor axis 633 that drives two turbine and worm decelerators 630 rotates, 630 work of two turbine and worm decelerators, the two screw rods part 641 of two screw-drive mechanisms 640 is rotated, thereby the cuboid bearing support plate 643 that drives two subdivisions slides left in the groove of support plate 541 left ends of two symmetries of rectangular frame bracket 540, driven saw blade wheel 533 is moved to the left, with endless belt shape saw blade 532 tensionings in the horizontal elongated slot 741, at this moment, stop motor 610 runnings at once.Also can make handwheel 634 and worm-wheel shaft be in the state that closes, rotate the handwheel 634 that is exposed at support plate 541 outsides, live stub axle 633 rotates, with endless belt shape saw blade 532 tensionings in the horizontal elongated slot 741.

Start the motor 410 of vertical sliding frame driving mechanism 400, under the driving of motor 410, sprocket drive 420 work, driving long-chain wheel shaft 422 rotates, the worm shaft of two worm-gear speed reducers 430 that are fixedly linked with the two ends of long-chain wheel shaft 422 rotates respectively, two screw rods 441 rises on while rotating, by two worm-gear speed reducers 430 on the longeron 321 in longeron 311 in the left side that is fixedly mounted on vertical sliding frame 300 respectively and the right side vertical sliding frame 300 is risen along left column 130 that moves horizontally frame 100 and right column 140, endless belt shape saw blade strainer 600 rises with vertical sliding frame 300, when endless belt shape saw blade 532 arrives sawing height, stop motor 410 runnings at once.

Start the motor 510 of endless belt shape saw blade driving mechanism 500, under the driving of motor 510, leather belt driving mechanism 520 work, the active saw blade wheel 531 that drives endless belt shape saw blade-saw blade wheel assembly 530 rotates, and endless belt shape saw blade 532 drives driven saw blade wheel 533 and rotates.

Start the motor 210 that moves horizontally frame driving mechanism 200, under the driving of motor 210,220 work of first sprocket drive, drive 240 runnings of second sprocket drive, move horizontally left front roller 261 and left back roller 263 and right front roller 262 and right back roller 264 rolling backward on two I shape guide rails 270 of frame 100, moving horizontally frame 100 is carrying and is moving horizontally frame driving mechanism 200, vertical sliding frame 300, vertical sliding frame driving mechanism 400, endless belt shape saw blade driving mechanism 500, the endless belt shape saw blade strainer 600 and the width adjustment mechanism 700 that saws a board move backward, make endless belt shape saw blade 532 sawing timber continuously, will grow, short timber processing is grown up, shortage.

According to embodiment of the present utility model to being illustrated property of the utility model and nonrestrictive description; but should understand; under the situation that does not break away from relevant protection domain defined by the claims, those skilled in the art can make change and/or revise.

Claims

1. a timber slabber is characterized in that, comprises that one moves horizontally frame, and moves horizontally frame driving mechanism, a vertical sliding frame, a vertical sliding frame driving mechanism, an endless belt shape saw blade driving mechanism; Vertical sliding frame can slide up and down to be installed in and move horizontally on the frame, moving horizontally the frame driving mechanism is installed in and moves horizontally on frame and the vertical sliding frame, vertical sliding frame driving mechanism and endless belt shape saw blade driving mechanism are installed on the rectangular frame bracket, and rectangular frame bracket is fixedly mounted on the rear side of vertical sliding frame.

2. according to the described timber slabber of claim 1, it is characterized in that also comprise an endless belt shape saw blade strainer, endless belt shape saw blade strainer is installed in the left end of rectangular frame bracket by the support plate of two symmetries of rectangular frame bracket.

3. according to claim 1 or 2 described timber slabbers, it is characterized in that, also comprise the width adjustment mechanism that saws a board, the width adjustment mechanism that saws a board is installed in below the rectangular frame bracket by being fixedly mounted on two pairs of support plates below the rectangular frame bracket.

4. according to the described timber slabber of claim 3, it is characterized in that, move horizontally frame comprise a left channel-section steel shape base and a right channel-section steel shape base and be separately fixed at left channel-section steel shape base and right channel-section steel shape base upper surface on a pair of left column and a pair of right column, this is fixedly linked with the two ends of a left support plate respectively to the top of two columns of left column, and this is fixedly linked with the two ends of a right support plate respectively to the top of two columns of right column; Vertical sliding frame comprises longeron in longeron in the left side, the right side, a left front column, a right front column, a left back column and a right back column, the center of left front column, right front column, left back column and right back column respectively has a vertical through hole, the vertical through hole of vertical sliding frame by left front column, right front column, left back column and right back column center can slide up and down to be sleeved on move horizontally frame this to left column with this is on the right column.

5. according to the described timber slabber of claim 4, it is characterized in that, move horizontally the frame driving mechanism and comprise a motor, one first sprocket drive and one second sprocket drive; Motor be fixedly mounted on the left channel-section steel shape base that moves horizontally frame above, first sprocket drive is installed on the left channel-section steel shape base, second sprocket drive is installed in and moves horizontally frame and vertical sliding frame left side and right side, motor links to each other with the first sprocket drive transmission, first sprocket drive links to each other with the second sprocket drive transmission, and second sprocket drive has left front roller and left back roller and right front roller and the right back roller that correspondingly is bearing on the two I shape guide rails.

6. according to the described timber slabber of claim 5, it is characterized in that vertical sliding frame driving mechanism comprises a motor, a sprocket drive, two worm-gear speed reducers and two screw-drive mechanisms; Motor be fixedly mounted on vertical sliding frame above, link to each other with the sprocket drive transmission, sprocket drive is installed on the vertical sliding frame, two worm-gear speed reducers are fixedly mounted on respectively in the left side of vertical sliding frame in the longeron and the right side on the longeron, the worm shaft of two worm-gear speed reducers is fixedly linked with the two ends of a long-chain wheel shaft of sprocket drive respectively, the worm-wheel shaft of two worm-gear speed reducers is fixedly linked with an end of the two screw rods of two screw-drive mechanisms respectively, the other end of two screw rods respectively with the central through hole that is fixedly mounted on the left support plate that moves horizontally frame and right support plate in the engagement of two nuts.

7. according to the described timber slabber of claim 6, it is characterized in that endless belt shape saw blade driving mechanism comprises a motor, a leather belt driving mechanism and an endless belt shape saw blade-saw blade wheel assembly; Motor be fixedly mounted on vertical sliding frame above, endless belt shape saw blade-saw blade wheel assembly comprises an active saw blade wheel, an endless belt shape saw blade and a driven saw blade wheel, initiatively the two ends of the axle of saw blade wheel are installed in rotation on the right-hand member of support plate of two symmetries of rectangular frame bracket, the two ends of the axle of driven saw blade wheel are installed in rotation on the endless belt shape saw blade strainer, and motor links to each other by the through-drive of leather belt driving mechanism with active saw blade wheel.

8. according to claim 7 is described the timber slabber be is characterized in that endless belt shape saw blade strainer comprises a motor, a sprocket drive, two turbine and worm decelerators and two screw-drive mechanisms; Motor be fixedly mounted on vertical sliding frame above, two turbine and worm decelerators are installed in the rectangular frame bracket, two screw-drive mechanisms are installed in respectively in the cuboid bearing support plate of two subdivisions, the cuboid bearing support plate of two subdivisions is slidably mounted in the elongated slot of support plate left end of two symmetries of rectangular frame bracket, the left end of the cuboid bearing support plate of two subdivisions respectively is installed in rotation on the two ends of the axle of driven saw blade wheel by a bearing, the two screw rods of two screw-drive mechanisms is formed by the two worm screws extension of two turbine and worm decelerators, two worm gears of two turbine and worm decelerators are fixedly mounted on the minor axis, and motor links to each other with the minor axis transmission.

9. according to claim 8 is described the timber slabber be is characterized in that the width adjustment mechanism that saws a board comprises two motor, two sprocket drives, two screw mechanisms and the two L shaped width adjusting arms that saw a board; Two motor be fixedly mounted on vertical sliding frame above, each screw mechanism all comprises a screw rod, one has slide block and two slide rails with the screwed hole of centre of screw engages, two slide rails pass from the through hole of two symmetries of slide block, slide block can reciprocatingly slide along two slide rails, the two L shaped width adjusting arms that saw a board are fixedly mounted on respectively below two slide blocks, the front end center of the horizontal component of each L shaped width adjusting arm that saws a board all has a horizontal elongated slot, two sprocket drives link to each other with screw drive, two pairs of support plates of fixed installation below the rectangular frame bracket, the two ends of the screw rod of each screw mechanism and two slide rails all are bearing in a pair of support plate.