CN2889662Y - Circular sawing machine capable of shortening strip tail - Google Patents

Abstract

The utility model discloses a circular sawing machine capable of shortening strip tail. The circular sawing machine for cutting workpiece transferred along a material feeding direction comprises an inlet/outlet main clamp unit including an inlet main clamp and an outlet main clamp and a first cutter groove, a material feeding main clamp unit, and a cutter base unit adjacent to the inlet/outlet main clamp unit and including a cutter capable of cutting the workpiece. A second cutter groove is defined between the material feeding main clamp unit and the inlet main clamp when the material feeding main clamp unit moves to the vicinity of the inlet main chip along the material feeding direction. A cutter can be moved to a first position above the first cutter groove and to a second position above the second cutter groove.

Description

Can shorten the circular sawing machine of material tail

Technical field

The utility model relates to a kind of circular sawing machine, particularly relates to a kind of circular sawing machine that shortens the material tail.

Background technology

As shown in Figure 1, 2, 3,, comprise that one has tool rest 1, the tailstock 2 in contrast to this tool rest 1 of cutter 101 for existing a kind of circular sawing machine, and a feeding clamping device 3.This feeding clamping device 3 has the two discharging main folders 301, two that are arranged at these cutter 101 1 sides and is arranged at these cutter 101 opposite sides and has the pan feeding main folder 302 of a width Delta W, and a material feeding seat 303 that can move back and forth and have two feeding main folders 304 along a feed direction X.

Whereby, as Fig. 1, shown in 3, when described feeding main folder 304 clamps a workpiece 4, this material feeding seat 303 can drive this workpiece 4 and move a full-length L towards this tool rest 1, and stop on the position of described pan feeding main folder 302 1 safe distance Δ X, treat describedly to go into, discharging main folder 302, after 301 synchronous these workpiece 4 of clamping and described feeding main folder 304 are slightly unclamped this workpiece 4, this material feeding seat 303 can oppositely move this full-length L towards this tailstock 2, and make described feeding main folder 304 clamp this workpiece 4 once again, at this moment, the standard material section 401 that this cutter 101 can convexedly stretch in one of this workpiece 4 these cutter 101 the place aheads cuts into this full-length L, and then withdrawing, then, treat describedly to go into, discharging main folder 302,301 unclamp synchronously after, this material feeding seat 303 can drive this workpiece 4 once again and move this full-length L towards this tool rest 1, to proceed the cutting work of next standard material section 401, so, this workpiece 4 gets final product the standard material section 401 of this full-length of the most tools of cropped one-tenth L.

Though this feeding clamping device 3 can repeat to drive this workpiece 4, and makes the described standard material section 401 of these workpiece 4 cropped one-tenth,, when practical operation was used, this feeding clamping device 3 but had following disappearance:

As shown in Figure 3, when this workpiece 4 is cut to a surplus material rear 402, if this material feeding seat 303 still oppositely moves this full-length L towards these tailstock 2 (see figure 1)s, then described feeding main folder 304 will just move to the end of this material rear 402, and can't clamp this material rear 402, and then can't drive this material rear 402 and move towards this tool rest 1 (see figure 1), so, this material rear 402 promptly can't further be cut out a standard material section 401 again, and can become the waste material that a block length equals this width Delta of this safe distance Δ of this full-length L+ X+ W.

In addition, as shown in Figure 4, if can clamp this material rear 402, and the reverse displacement that makes this material feeding seat 303 shortens a clamping length Δ L (being reverse displacement=this clamping length Δ of this full-length L-L), so, clamp this material rear 402 though can make described feeding main folder 304 with this clamping length Δ L, yet, because this material feeding seat 303 can drive the distance that this material rear 402 moves towards this tool rest 1 (see figure 1), limited by described pan feeding main folder 302, and also can shorten this clamping length Δ L, therefore than this full-length L, this material rear 402 convexedly stretches in the length in these cutter 101 (see figure 1) the place aheads, also can shorten this clamping length Δ L than this full-length L, thus, even if should expect that rear 402 can be cropped again, also can't cut out a standard material section 401, can become two sections waste materials on the contrary.

Moreover, as shown in Figure 5, when this workpiece 4 is cut into most standard material sections 403 and a material rear 404 with short full-length (for example Δ W/2), because this material feeding seat 303 can drive the distance that this material rear 404 moves towards this tool rest 1 (see figure 1), limited by described pan feeding main folder 302, therefore, even if the residue length of this material rear 404 also is not less than this width Delta W, this material rear 404 also can't further be cut out two standard material sections 403 again, and can become the waste material of a block length greater than these standard material section 403 twices.

The utility model content

The purpose of this utility model is to provide a kind of circular sawing machine of shortened material tail of the waste material length that can significantly shorten workpiece material rear.

The utility model can shorten the circular sawing machine of material tail, is to cut a workpiece of carrying along a feed direction, and this circular sawing machine comprises into/discharging main folder unit, a feeding main folder unit, and a tool rest unit.This goes into/and discharging main folder unit has two and is the pan feeding main folder that is oppositely arranged, two are the discharging main folder that is oppositely arranged and corresponds respectively to described pan feeding main folder, and one go between described, the first cutter ditch between the discharging main folder, describedly go into, the discharging main folder can be along a direction vertical with this feed direction, and between a clamped condition and a releasing orientation, move, go into when described, when the discharging main folder moves to this clamped condition in the direction, describedly go into, the discharging main folder can clamp this workpiece, go into when described, when the discharging main folder moves to this releasing orientation in the direction, describedly go into, the discharging main folder can be unclamped this workpiece.But this feeding main folder unit is this workpiece of clamping and moving along this feed direction, when this feeding main folder unit when this feed direction moves to contiguous described pan feeding main folder, can define one second cutter ditch between this feeding main folder unit and the described pan feeding main folder.This tool rest unit is to be adjacent to this to go into/discharging main folder unit, and has a cutter that can cut this workpiece, this cutter can move between a primary importance and a second place along this feed direction, when this cutter moves to this primary importance, this cutter is corresponding to this first cutter ditch, and is positioned at this first cutter ditch top, when this cutter moves to this second place, this cutter is corresponding to this second cutter ditch, and is positioned at this second cutter ditch top.

Whereby, the utility model utilizes this cutter to move between this first and second position, not only can the material rear of workpiece be cut effectively, more can significantly shorten the waste material length of workpiece material rear, and promotes the benefit that cuts of workpiece.

Description of drawings

Fig. 1 is existing a kind of front-view schematic diagram with circular sawing machine of feeding clamping device;

Fig. 2 is the local schematic top plan view that this circular sawing machine removes a tool rest;

Fig. 3 is that this circular sawing machine carries out feeding and the illustrative view that cuts, illustrates that two feeding main folders of a material feeding seat of this feeding clamping device can't clamp a material rear of a workpiece;

Fig. 4 is the view of a similar Fig. 3, and the distance of moving after this material feeding seat shortens oppositely is described, makes described feeding main folder can clamp this material rear;

Fig. 5 is the view of a similar Fig. 4, illustrates that described feeding main folder is stopped by two pan feeding main folders, and a material rear that can't drive a workpiece again moves forward;

Fig. 6 is the front-view schematic diagram of circular sawing machine one first preferred embodiment that shortens the material tail of the present utility model, and the cutter of a tool rest unit that this first preferred embodiment is described is in a primary importance;

Fig. 7 is the local schematic top plan view after this first preferred embodiment removes this tool rest unit, illustrates describedly to go out, the pan feeding main folder moves to a clamped condition synchronously, and clamp a workpiece;

Fig. 8 is the view of a similar Fig. 7, illustrates describedly to go into, the discharging main folder moves to a releasing orientation synchronously, and unclamp this workpiece;

Fig. 9 is the local schematic side view of this first preferred embodiment;

Figure 10 is that feeding and the illustrative view that cuts are carried out in this first preferred embodiment, illustrates that the cropped one-tenth of this workpiece counts a standard material section and a material rear;

Figure 11 is the view of a similar Figure 10, and two feeding main folders of this first preferred embodiment are clamped this material rear and moved to contiguous described pan feeding main folder;

Figure 12 is the view of a similar Fig. 6, and the cutter that this tool rest unit is described is in a second place;

Figure 13 is the view of a similar Figure 10, and a standard material section and a material rear that the cropped one-tenth number of this workpiece is short are described;

Figure 14 is the local front-view schematic diagram of circular sawing machine one second preferred embodiment that shortens the material tail of the present utility model, and the cutter of a tool rest unit that this second preferred embodiment is described is in a primary importance;

Figure 15 is the local schematic side view of this second preferred embodiment;

Figure 16 is the local schematic rear view of this second preferred embodiment, and the cutter that this tool rest unit is described is in this primary importance;

Figure 17 is the view of a similar Figure 14, and the cutter that this tool rest unit is described is in a second place.

The specific embodiment

Below by most preferred embodiment and accompanying drawing the circular sawing machine that shortens the material tail of the present utility model is elaborated:

About aforementioned and other technology contents, characteristics and effect of the present utility model, in the following detailed description that cooperates with reference to two graphic preferred embodiments, can clearly understand.

Before proposing detailed description, be noted that in the following description similar elements is to represent with identical numbering.

Consult Fig. 6,7,8, the utility model can shorten first preferred embodiment of the circular sawing machine of material tail, be to cut a workpiece 200 along feed direction X conveying, this circular sawing machine comprises: a board 10, goes into/and discharging main folder unit 20, a tailstock unit 30, two guide rods 40, a feeding main folder unit 50, a feeding cylinder pressure 60, and a tool rest unit 70.

This goes into/and discharging main folder unit 20 is to be installed on this board 10, and have two and be the pan feeding main folder 21 that is oppositely arranged along a direction Y vertical with this feed direction X, 22, two are and are oppositely arranged and correspond respectively to described pan feeding main folder 21,22 discharging main folder 23,24, one in the direction Y be formed at described pan feeding main folder 21,22 with described discharging main folder 23, the first cutter ditch 25 between 24, and first cylinder pressure 26 that is provided with of Y in the direction, this first cylinder pressure 26 has the first piston bar 261 that moves of Y in the direction, and these first piston bar 261 bars are and one group of going in correspondence with each other wherein, discharging main folder 21,23 connect.This first piston bar 261 Y in the direction drives this and goes into, discharging main folder 21,23, and make described pan feeding main folder 21,22 with described discharging main folder 23,24 in the direction Y between a clamped condition (see figure 7) and a releasing orientation (see figure 8), move, go into when described, discharging main folder 21,22,23,24 when Y moves to this clamped condition (see figure 7) in the direction, describedly go into, discharging main folder 21,22,23,24 can clamp this workpiece 200, on the contrary, go into when described, discharging main folder 21,22,23,24 when Y moves to this releasing orientation (see figure 8) in the direction, describedly goes into, discharging main folder 21,22,23,24 can unclamp this workpiece 200.

This tailstock unit 30 is to go into/discharging main folder unit 20 and being installed on this board 10 in contrast to this along this feed direction X.

Described guide rod 40 be along this feed direction X be arranged at abreast this go into/discharging main folder unit 20 and this tailstock unit 30 between.

This feeding main folder unit 50 is to be installed in movably on the described guide rod 40, and have two in the direction Y be the feeding main folder 51 that is oppositely arranged, and second cylinder pressure 52 that is provided with of Y in the direction, this second cylinder pressure 52 has second piston rod 521 that moves of Y in the direction, this second piston rod 521 is to be connected with a feeding main folder 51 wherein, when cooperating another feeding main folder 51 to clamp these work 200 when these second piston rod, 521 these feeding main folders 51 of driving, this feeding main folder unit 50 can move to contiguous described pan feeding main folder 21 along this feed direction X, 22, make described this feeding main folder 51 and described pan feeding main folder 21, define one second cutter ditch 90 between 22.

This feeding cylinder pressure 60 is to be installed on this tailstock unit 30 along this feed direction X, and has a feed ram bar 61 that can move along this feed direction X, this feed ram bar 61 is to be connected with this feeding main folder unit 50, moves back and forth along this feed direction X and can drive this this feeding main folder unit 50.

As Fig. 6, shown in 9, this tool rest unit 70 is to be installed on this board 10, and be adjacent to this and go into/discharging main folder unit 20, this tool rest unit 70 have one along one with this feed direction X, the pilum 71 that the lifting direction Z that this direction Y is vertical is provided with, two are installed in linear slide rail 72 on this pilum 71 abreast along this lifting direction Z, the one removable lifting slider 73 that is installed on the described linear slide rail 72, an and displacer 74 that is installed in movably on this lifting slider 73, one is installed on this displacer 74 and can be used for cutting the cutter 75 of this workpiece 200, one is installed in lifting cylinder pressure 76 on this pilum 71 along this lifting direction Z, one is installed in displacement cylinder pressure 77 on this lifting slider 73 along this feed direction X, one is installed in location cylinder pressure 78 on this lifting slider 73 along this lifting direction Z, and a locating piece 79 that is provided with along this feed direction X.

This lifting slider 73 has a guide groove 731 that is provided with along this feed direction X, and this displacer 74 has one and is provided with and cross section is the guide sliding part 741 of dovetail shape along this feed direction X, and this guide sliding part 741 is to be installed in movably in this guide groove 731.

This lifting cylinder pressure 76 has a lifting piston rod that can move along this lifting direction Z (figure does not show), and this lifting piston rod is to be connected with this lifting slider 73, moves with respect to this pilum 71 along this lifting direction Z and can drive this lifting slider 73.

This displacement cylinder pressure 77 has a displacement piston rod 771 that can move along this feed direction X, this displacement piston rod 771 is to be connected with this displacer 74, this displacement piston rod 771 can drive this displacer 74 and drive this cutter 75, and this cutter 75 is moved between a primary importance (see figure 6) and a second place (seeing Figure 12) along this feed direction X.As shown in Figure 6, when this cutter 75 moves to this primary importance, this cutter 75 is corresponding to this first cutter ditch 25, and be positioned at this first cutter ditch, 25 tops, on the contrary, as shown in figure 12, when this cutter 75 moves one when moving cutter distance, delta W1 to this second place from this primary importance, this cutter 75 is corresponding to this second cutter ditch 90, and is positioned at this second cutter ditch, 90 tops.

As shown in Figure 9, this locating piece 79 is to be installed in the guide groove 731 of this lifting slider 73 along this feed direction X, this location cylinder pressure 78 has a positioning piston bar 781 that can move along this lifting direction Z, this positioning piston bar 781 is to extend in this guide groove 731 along this lifting direction Z, and with these locating piece 79 interlockings.Before these displacer 74 these cutters 75 of drive move, this positioning piston bar 781 can drive along this lifting direction Z and move to the guide sliding part 741 of slightly throwing off this displacer 74 on this locating piece 79, and, when driving these cutters 75, this displacer 74 moves to wherein when going up of this first and second position (seeing Fig. 7,12), 781 on this positioning piston bar can drive this locating piece 79 along this lifting direction Z and be displaced downwardly to the guide sliding part 741 that pushes against this displacer 74, rocks with respect to these lifting slider 73 generations when cutting to prevent this displacer 74.

Whereby, as Fig. 7,8, shown in 10, when described feeding main folder 51 clamps this workpiece 200, this feeding main folder unit 50 can drive this workpiece 200 and move a full-length L1 towards these tool rest unit 70 (see figure 6)s, and stop at apart from described pan feeding main folder 21, on the position of 22 1 safe distance Δ X, treat describedly to go into, discharging main folder 21,22,23, after 24 synchronous these workpiece 200 of clamping and described feeding main folder 51 are slightly unclamped this workpiece 200, this feeding main folder unit 50 can oppositely move this full-length L1 towards this tailstock unit 30, and make described feeding main folder 51 clamp this workpiece 200 once again, at this moment, these cutter 75 (see figure 6)s can be displaced downwardly in this first cutter ditch 25, and the standard material section 210 that one of this workpiece 200 convexedly stretches in these cutter 75 (see figure 6) the place aheads is cut into this full-length L1, and then withdrawing, then, treat describedly to go into, discharging main folder 21,22,23,24 unclamp synchronously after, this feeding main folder unit 50 can drive this workpiece 200 once again and move this full-length L1 towards these tool rest unit 70 (see figure 6)s, to proceed the cutting work of next standard material section 210, so, this workpiece 200 gets final product the standard material section 210 of this full-length of the most tools of cropped one-tenth L1, and a material rear 220.

As Figure 11, shown in 12, when desiring to cut this material rear 220, at first can make and to make this feeding main folder unit 50 shorten a clamping length Δ L1 (promptly towards the reverse displacement of these tailstock unit 30 (see figure 6)s, reverse displacement=this clamping length Δ of this full-length L1-L1), wherein, this clamping length Δ L1 can be set at and equal this and move cutter distance, delta W1 (promptly, this clamping length Δ L1=should move cutter distance, delta W1), so, described feeding main folder 51 promptly can be clamped this material rear 220 by this clamping length Δ L1, therefore, this feeding main folder unit 50 can drive distance that this material rear 220 moves towards this tool rest unit 70 and promptly can equal this full-length L1 and deduct this clamping length Δ L1 (promptly, displacement=this clamping length Δ of this full-length L1-L1), at this moment, the length that this material rear 220 convexedly stretches in these cutter 75 the place aheads is to shorten this clamping length Δ L1 (that is, this material rear 220 protrudes out length=this clamping length Δ of this full-length L1-L1) than this full-length L1.

Then, treat describedly to go into, discharging main folder 21,22,23, behind 24 these material rears 220 of clamping, can make this cutter 75 move this and move cutter distance, delta W1 to this second place from this primary importance, and make this cutter 75 be positioned at this second cutter ditch, 90 tops, at this moment, the length that this material rear 220 convexedly stretches in these cutter 75 the place aheads will equal this full-length L1 and deduct this clamping length Δ L1 and add this and move cutter distance, delta W1 (promptly, this material rear 220 protrudes out length=this clamping length Δ of this full-length L1-L1+ should move this full-length of this clamping length Δ of this clamping length Δ of this full-length of cutter distance, delta W1=L1-L1+ L1=L1), so, in this cutter 75 is displaced downwardly to this second cutter ditch 90, this material rear 220 can further be cut out a standard material section 210 again, and only remaining a bit of length approximates the waste material 230 of this clamping length Δ L1.

Via above explanation, can again advantage of the present utility model be summarized as follows:

The utility model can make this cutter 75 move this from this primary importance and move cutter distance, delta W1 to this second place, equal this full-length L1 and will expect that length that rear 220 convexedly stretches in these cutter 75 the place aheads complements to, and then this material rear 220 can be cropped again goes out a standard material section 210, therefore, the utility model not only can overcome prior art because of being subjected to stopping of described pan feeding main folder 302, and cause expecting that rear 402 can't stretch out the problem that sufficient length Gong cuts in the past, can make more that this material rear 220 is further cropped to go out this standard material section 210, so can significantly shorten this material rear 220 remaining waste material length.

In addition, as shown in figure 13, after this workpiece 200 is cut into most a standard material section 240 and a material rear 250 with short full-length (for example Δ W1/2), equally also can make this cutter 75 move this and move cutter distance, delta W1 to this second place from this primary importance, and, when this feeding main folder unit 50 drive left this material rear 250 move to back out this cutter 75 after, this feeding main folder unit 50 can drive before this material rear 250 convexedly stretches in this this cutter 75 towards moving right to the length with Δ W1/2 at twice, so, can make this material rear 250 further be cut out two standard material sections 240 again, and the very short waste material 260 of only remaining a bit of length.

Shown in Figure 14,15,16, be one second preferred embodiment of the present utility model, this second preferred embodiment is to be similar to this first preferred embodiment, its difference part is:

One tool rest unit 80 of present embodiment comprises that one has the fixing support rack 81 of a guide shaft bores 811 of extending along this feed direction X, one removable and rotationally with the axle 82 of these guide shaft bores 811 sockets, one is fixedly arranged on the swing span 83 on this axle 82, one is installed in the cutter 84 on this swing span 83, one is installed in displacement cylinder pressure 85 on the auricle plate 812 of this fixing support rack 81 along this feed direction X, two are installed in guide rail 86 on the pivot joint block 813 of this fixing support rack 81 movably along this feed direction X, one is installed in the arbitrary-movement articulator 87 on the described guide rail 86, and a swing cylinder pressure 88 that is installed between this swing span 83 and this arbitrary-movement articulator 87.

This displacement cylinder pressure 85 has a displacement piston rod 851 that can move along this feed direction X, this displacement piston rod 851 is to be connected with this axle 82, this displacement piston rod 851 can drive this axle 82 and move with respect to this fixing support rack 81 along this feed direction X, and then drives this swing span 83 and this cutter 84 and move between a primary importance (seeing Figure 14) and a second place (seeing Figure 17).When this axle 82 drives these swing spans 83 and this cutter 84 between this first and second position when mobile, this swing span 83 can promote this arbitrary-movement articulator 87 synchronously.

This swing cylinder pressure 88 has a piston rod 881 that is connected with this swing span 83, and this piston rod 881 can order about this swing span 83 with respect to these fixing support rack 81 swings.

As shown in figure 14, when this cutter 84 moves to this primary importance, this cutter 84 is corresponding to this first cutter ditch 25, and be positioned at this first cutter ditch, 25 tops, on the contrary, as shown in figure 17, when this cutter 84 when this primary importance moves to this second place, this cutter 84 is corresponding to this second cutter ditch 90, and is positioned at this second cutter ditch, 90 tops.

So, this second preferred embodiment also can reach purpose and the effect identical with above-mentioned first preferred embodiment.Conclude above-mentionedly, the circular sawing machine that shortens the material tail of the present utility model not only can cut effectively to the material rear of workpiece, more can significantly shorten the waste material length of workpiece material rear, and promotes the benefit that cuts of workpiece, so can reach the purpose of invention really.

Claims (15)

1. the circular sawing machine that can shorten the material tail is to be used to cut a workpiece along feed direction conveying, it is characterized in that:

This circular sawing machine that can shorten the material tail comprises:

One goes into/discharging main folder unit, have two and be the pan feeding main folder that is oppositely arranged, two are the discharging main folder that is oppositely arranged and corresponds respectively to described pan feeding main folder, and one go between described, the first cutter ditch between the discharging main folder, describedly go into, the discharging main folder is along a direction vertical with this feed direction, and between a clamped condition and a releasing orientation, move, go into when described, when the discharging main folder moves to this clamped condition in the direction, describedly go into, the discharging main folder is to clamp this workpiece, go into when described, when the discharging main folder moves to this releasing orientation in the direction, describedly go into, the discharging main folder is to unclamp this workpiece;

One feeding main folder unit is this workpiece of clamping and moving along this feed direction, when this feeding main folder unit when this feed direction moves to contiguous described pan feeding main folder, be to define one second cutter ditch between this feeding main folder unit and the described pan feeding main folder; And

One tool rest unit, be to be adjacent to this to go into/discharging main folder unit, and has a cutter that is used to cut this workpiece, this cutter is to move between a primary importance and a second place along this feed direction, and when this cutter moved to this primary importance, this cutter was corresponding to this first cutter ditch, and be positioned at above this first cutter ditch, when this cutter moved to this second place, this cutter was corresponding to this second cutter ditch, and was positioned at this second cutter ditch top.

2. the circular sawing machine that shortens the material tail as claimed in claim 1 is characterized in that:

This goes into/and discharging main folder unit has more first cylinder pressure that is provided with in the direction, and this first cylinder pressure has a first piston bar that moves in the direction, and this first piston bar is with wherein one group of going in correspondence with each other, discharging main folder are connected.

3. the circular sawing machine that shortens the material tail as claimed in claim 1 is characterized in that:

This feeding main folder unit has two and is the feeding main folder that is oppositely arranged along a direction vertical with this feed direction, and described feeding main folder is this workpiece of clamping.

4. the circular sawing machine that shortens the material tail as claimed in claim 3 is characterized in that:

This feeding main folder unit has more second cylinder pressure that is provided with in the direction, and this second cylinder pressure has second piston rod that moves in the direction, and this second piston rod is to be connected with a feeding main folder wherein.

5. the circular sawing machine that shortens the material tail as claimed in claim 4 is characterized in that:

This circular sawing machine that can shorten the material tail comprises that also one goes into/the tailstock unit of discharging main folder unit in contrast to this, and one be installed in feeding cylinder pressure on this tailstock unit along this feed direction, this feeding cylinder pressure has a feed ram bar that moves along this feed direction, and this feed ram bar is to be connected with this feeding main folder unit.

6. the circular sawing machine that shortens the material tail as claimed in claim 5 is characterized in that:

This circular sawing machine that can shorten the material tail comprises that also two are arranged at this abreast along this feed direction and go into/guide rod between discharging main folder unit and this tailstock unit, and this feeding main folder unit is to be installed on the described guide rod.

7. the circular sawing machine that shortens the material tail as claimed in claim 1 is characterized in that:

This tool rest unit has more a pilum, along a lifting direction setting vertical with this feed direction, this direction and is installed in lifting slider on this pilum, an and displacer that is installed on this lifting slider, this lifting slider is to move with respect to this pilum along this lifting direction, this displacer is to move with respect to this lifting slider along this feed direction, this cutter is to be installed on this displacer, and this displacer is to drive this cutter to move between this first and second position.

8. the circular sawing machine that shortens the material tail as claimed in claim 7 is characterized in that:

This tool rest unit has more two and is installed in linear slide rail on this pilum abreast along this lifting direction, and this lifting slider is to be installed on the described linear slide rail.

9. the circular sawing machine that shortens the material tail as claimed in claim 8 is characterized in that:

This tool rest unit has more one and is installed in lifting cylinder pressure on this pilum along this lifting direction, and this lifting cylinder pressure has a lifting piston rod that moves along this lifting direction, and this lifting piston rod is to be connected with this lifting slider.

10. the circular sawing machine that shortens the material tail as claimed in claim 7 is characterized in that:

This tool rest unit has more one and is installed in displacement cylinder pressure on this lifting slider along this feed direction, this displacement cylinder pressure has a displacement piston rod that moves along this feed direction, this displacement piston rod is to be connected with this displacer, and this displacement piston rod is to drive this displacer to drive this cutter and move between this first and second position.

11. the circular sawing machine that shortens the material tail as claimed in claim 10 is characterized in that:

This lifting slider has a guide groove along this feed direction setting, and this displacer has a guide sliding part along this feed direction setting, and this guide sliding part is to be installed in this guide groove.

12. the circular sawing machine that shortens the material tail as claimed in claim 11 is characterized in that:

This tool rest unit has more one and is installed in location cylinder pressure on this lifting slider along this lifting direction, and one be installed in locating piece in this guide groove along this feed direction, this location cylinder pressure has a positioning piston bar that moves along this lifting direction, this positioning piston bar is to extend in this guide groove along this lifting direction, and be connected with this locating piece, move to wherein when going up of this first and second position when this displacer drives this cutter, this positioning piston bar is to move this locating piece to the guide sliding part that pushes against this displacer along this lifting direction.

13. the circular sawing machine that shortens the material tail as claimed in claim 1 is characterized in that:

This tool rest unit more comprises a fixing support rack with a guide shaft bores of extending along this feed direction, one and the axle of this guide shaft bores socket, an and swing span that is fixedly arranged on this axle, this swing span is with respect to this fixing support rack swing, this axle is to move with respect to this fixing support rack along this feed direction, this cutter is to be installed on this swing span, and this axle is that this swing span of drive and this cutter move between this first and second position.

14. the circular sawing machine that shortens the material tail as claimed in claim 13 is characterized in that:

This tool rest unit comprises that more one is installed in displacement cylinder pressure on this fixing support rack along this feed direction, this displacement cylinder pressure has a displacement piston rod that moves along this feed direction, this displacement piston rod is to be connected with this axle, and this displacement piston rod is that this axle of driving drives this swing span and this cutter moves between this first and second position.

15. the circular sawing machine that shortens the material tail as claimed in claim 13 is characterized in that:

This tool rest unit comprises that more two are installed in guide rail, on this fixing support rack along this feed direction and are installed in arbitrary-movement articulator on the described guide rail, an and swing cylinder pressure that is installed between this swing span and this arbitrary-movement articulator, this swing cylinder pressure has a piston rod that is connected with this swing span, when this axle drives this swing span and this cutter between this first and second position when mobile, this swing span is to promote this arbitrary-movement articulator synchronously.

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