CN214558955U - Saw cut chamfer all-in-one - Google Patents

Abstract

The utility model discloses a sawing and chamfering integrated machine, which comprises a first frame and a second frame which are attached and connected together, wherein the first frame is provided with a sawing mechanism for sawing a coffin, a clamping and feeding mechanism is slidably arranged on the first frame at the upper part of the sawing mechanism, and a sawing and clamping tool is arranged on the first frame below the sawing mechanism; the second frame is provided with a chamfering device driven by a first power device in a sliding mode, the second frame is further provided with a support, the support is provided with a swing type clamping feeding device used for transferring materials between the chamfering device and the sawing and clamping tool, and the support located on one side of the swing type clamping feeding device is provided with a swing type clamping discharging device. The all-in-one machine realizes direct clamping of the pipe after sawing from the sawing equipment and direct output of the pipe after chamfering, simplifies the structure, reduces the transfer procedures, improves the efficiency, and has compact arrangement and greatly reduced space occupancy rate.

Description

Saw cut chamfer all-in-one

Technical Field

The utility model belongs to the technical field of the pipe fitting saw cuts, the chamfer, especially, relate to a saw cuts chamfer all-in-one.

Background

At present stage, used pipe fitting all needs the chamfer to be handled under many occasions, and the pipe fitting shaping before the chamfer is saw cut from long tubular product, saw cut with the chamfer process between the aforesaid, need to saw cut fashioned pipe fitting and transfer to chamfer processing station on can process, and present transfer to the pipe fitting need be accomplished through extra supplementary conveying equipment, specifically include: the processes of containing, conveying, rolling, jacking and the like after the sawing and forming are adopted, and the sawing, transferring and chamfering production line has the following defects:

1. the process is multiple, the time consumption is multiple, and the transfer efficiency is low;

2. the structure is complex and the cost is high;

3. the occupied space is large.

SUMMERY OF THE UTILITY MODEL

The utility model provides a saw cut chamfer all-in-one to reach the purpose of simplifying the structure, reducing process, reduce cost and raising the efficiency.

In order to solve the technical problem, the embodiment of the utility model provides a technical scheme is: a sawing and chamfering integrated machine comprises a first frame and a second frame which are attached and connected together, wherein a sawing mechanism for sawing a coffin is installed on the first frame, a clamping and feeding mechanism is installed on the first frame at the upstream of the sawing mechanism in a sliding mode, and a sawing and clamping tool is arranged on the first frame below the sawing mechanism; the chamfering device driven by the first power device is installed on the second rack in a sliding mode, a support is further arranged on the second rack, a swing type clamping feeding device used for transferring materials between the chamfering device and the sawing clamping tool is arranged on the support, and a swing type clamping discharging device is arranged on the support and located on one side of the swing type clamping feeding device.

As an improvement, the swing type clamping and feeding device and the swing type clamping and discharging device both comprise a rotary supporting seat, a swing arm driven by a rotary driving piece is rotatably mounted on the rotary supporting seat, and a clamping jaw driven by a power element is arranged on the swing arm; at least a distance compensation mechanism is arranged on the swing type clamping feeding device.

As a further improvement, the distance compensation mechanism comprises a first linear driving element arranged on the swing arm, and a driving end of the first linear driving element is provided with the power element;

the first linear driving element is an air cylinder, a sliding rail is arranged on a cylinder body of the air cylinder, a sliding block driven by a piston rod is slidably mounted on the sliding rail, and the power element is arranged on the sliding block.

As a further improvement, the bracket is provided with a mounting seat, and the mounting seat is provided with a rotary supporting seat driven by a driving mechanism in a sliding manner.

As a further improvement, the chamfering device comprises a sliding seat which is slidably mounted on the second rack and driven by the first power device, a fixed seat is arranged on the sliding seat, a sliding table which is driven by the second power device is arranged on the fixed seat, a chamfering tool bit which is driven by a power assembly is arranged on the sliding table, a chamfering clamping tool is arranged on the sliding seat corresponding to the chamfering tool bit, and the chamfering clamping tool is slidably mounted on the sliding seat and driven by a second linear driving element.

As a further improvement, two sets of chamfering devices are arranged on the second frame and distributed at two ends of the second frame, wherein one chamfering device is arranged below the swing type clamping feeding device and the swing type clamping discharging device.

As a further improvement, the driving mechanism, the first power device and the second power device each include a guide rail disposed on the mounting seat, the second frame or the fixing seat, and the rotary support seat, the slide seat and the sliding table are slidably mounted on the guide rails; the rotary supporting seat and the mounting seat, the sliding seat and the second rack, and the sliding table and the fixing seat are provided with a combined structure of a screw rod and a screw rod nut, and the screw rod is driven by a motor.

As a further improvement, the sawing mechanism comprises a sawing seat which is vertically slidably mounted on the first rack and driven by a first power assembly, a saw blade driven by a second power assembly is rotatably mounted on the sawing seat, and the sawing clamp fixtures are arranged on the first rack and located on two sides of the saw blade.

As a further improvement, a sliding plate driven by a third linear driving element is slidably mounted on the first frame at the downstream of the sawing clamping tool, and a suction pipe is arranged on the sliding plate.

After the technical scheme is adopted, the utility model discloses the effect is:

the integrated machine comprises a first frame and a second frame which are attached and connected together, wherein a sawing mechanism for sawing the coffin is arranged on the first frame; the pipe fitting clamping device comprises a first rack, a second rack and a support, wherein the second rack is provided with a chamfering device driven by a first power device in a sliding mode, the support is provided with a swing type clamping feeding device used for transferring materials between the chamfering device and a sawing clamping tool, the swing type clamping discharging device is arranged on the support located on one side of the swing type clamping feeding device, and therefore in use, the pipe is conveyed towards the sawing mechanism through the clamping feeding mechanism, the pipe is positioned through the sawing clamping tool, the positioned pipe is sawn through the sawing mechanism and is formed into a pipe fitting, the pipe fitting is transferred to the chamfering device from the sawing clamping tool through the swing type clamping feeding device, the end portion of the pipe fitting is chamfered through the chamfering device, and the chamfered pipe fitting is transferred out through the swing type clamping discharging device.

In conclusion, by adopting the sawing and chamfering all-in-one machine and the sawing and chamfering method thereof, the direct clamping of the sawed pipe fitting from the sawing equipment and the direct output of the chamfered pipe fitting are realized, no additional equipment is required to be added between the sawing equipment and the sawing and chamfering all-in-one machine and the sawing and chamfering method thereof, compared with the traditional machine, the structure is simplified, the transfer process is reduced, the efficiency is improved, the arrangement is compact, and the space occupancy rate is greatly reduced.

Because the swing type clamping feeding device and the swing type clamping discharging device both comprise rotary supporting seats, the rotary supporting seats are rotatably provided with swing arms driven by rotary driving pieces, the swing arms are provided with clamping jaws driven by power elements, so that when the clamping devices clamp the pipe fittings after saw cutting, the swing arms driven by the rotary driving pieces swing to the saw cutting stations on the saw cutting equipment, then the clamping jaws driven by the power elements clamp the pipe fittings after saw cutting, then the rotary driving pieces drive the swing arms to swing to the chamfering stations on the chamfering device, then the clamping jaws release the pipe fittings to the chamfering stations, the structure is simple, and a foundation is laid for direct feeding and discharging of the pipe fittings.

The distance compensation mechanism is arranged on at least the swing type clamping feeding device, so that the working length of the swing type clamping feeding device is prolonged through the distance compensation mechanism, and distance difference compensation is realized when the pipe fitting is clamped or released; meanwhile, the clamping of pipe fittings with different specifications and different diameters can be met.

Because the distance compensation mechanism comprises a first linear driving element arranged on the swing arm, and a power element is arranged at the driving end of the first linear driving element, the first linear driving element drives the power element to act and realize distance difference compensation, the structure is simple, and the distance compensation effect is good.

Because the first linear driving element is an air cylinder, a sliding rail is arranged on the cylinder body of the air cylinder, a sliding block driven by a piston rod is slidably mounted on the sliding rail, and a power element is arranged on the sliding block, the stability and the reliability of the driving power element during action are ensured through the matching of the sliding rail and the sliding block.

Because be equipped with the mount pad on the support, slidable mounting has actuating mechanism driven rotary supporting seat on the mount pad to drive rotary supporting seat through actuating mechanism and remove, and then realize the removal of the centre gripping pipe fitting of clamping jaw (being in and saw cutting the station), reached the pipe fitting and pressed from both sides the breaking away from of tight frock (saw cutting the during operation and carry out the tight frock of clamp to the pipe fitting), can effectively avoid the pipe fitting to take place the problem of mutual interference when transferring towards the chamfer station.

Because the chamfering device comprises a sliding seat which is slidably installed on the second rack and driven by the first power device, a fixed seat is arranged on the sliding seat, a sliding table which is driven by the second power device is arranged on the fixed seat, a chamfering tool bit which is driven by the power assembly is arranged on the sliding table, and a chamfering clamping tool is arranged on the sliding seat at the position corresponding to the chamfering tool bit.

Because the chamfer clamping tool is slidably mounted on the sliding seat and driven by the second linear driving element, when the pipe fitting is clamped and positioned, the sliding seat is driven to move by the second linear driving element, so that the fine adjustment of the position of the chamfer clamping tool is realized, and the guarantee is provided for reliably, effectively and smoothly clamping the pipe fitting.

Because the chamfering devices are arranged on the second rack and distributed at two ends of the second rack, one chamfering device is arranged below the swing type clamping feeding device and the swing type clamping discharging device, two sets of chamfering devices can chamfer two ends of the pipe synchronously, and the chamfering efficiency is improved.

The driving mechanism, the first power device and the second power device comprise guide rails arranged on the mounting seat or the second rack or the fixed seat, and the rotary supporting seat, the sliding seat and the sliding table are arranged on the guide rails in a sliding manner; the combined structure of the screw rod and the screw rod nut is arranged between the rotary supporting seat and the mounting seat, between the sliding seat and the second rack and between the sliding table and the fixing seat, the screw rod is driven by the motor, the structure is simple, and the driving precision is high.

Because saw cut the mechanism and include vertical slidable mounting in first frame, and saw cut the seat by first power assembly driven, saw cut and rotate on the seat and install second power assembly driven saw bit, it saw cuts tight frock all to be equipped with on the first frame in saw bit both sides to drive the saw bit through vertical gliding saw cut seat and carry out vertical reciprocating motion, and accomplish simultaneously sawing of tubular product raw materials, dodge when can also realizing tubular product raw materials feeding, simple structure, saw cut effectually.

Because be located to saw cut and press from both sides the first frame in tight frock low reaches slidable mounting have the slide of third linear drive component drive, be equipped with the straw on the slide to iron fillings that fall into in the tubular product raw materials in the work of saw cutting are siphoned away through the straw, avoid carrying out the secondary saw cutting to iron fillings when saw cutting, not only good, help guaranteeing life to the saw bit, clean being favorable to the chamfer in the pipe fitting moreover.

In addition the utility model also provides a saw cut chamfer method to reach and simplify the process flow and lack, improve work rhythm, continuity and work efficiency, and the equipment room arranges compactly, reduces the purpose of space occupancy.

In order to solve the technical problem, the embodiment of the utility model provides a technical scheme is: a sawing and chamfering method uses the sawing and chamfering all-in-one machine, and comprises the following steps:

s1, raw material feeding: clamping the pipe raw material through the clamping and feeding mechanism, and intermittently feeding the pipe raw material to the sawing mechanism;

s2, sawing: positioning the pipe raw material through the sawing clamping tool, and then sawing the pipe raw material through the sawing mechanism and forming a pipe fitting;

in the sawing process of the pipe raw material, the scrap iron falling into the pipe raw material is synchronously sucked away through the suction pipe;

s3, transferring the pipe fittings: the swing type clamping and feeding device swings towards the sawing and clamping tool and clamps the pipe fitting, then the sawing and clamping tool releases the pipe fitting, then the driving mechanism drives the rotary supporting seat to slide and enables the pipe fitting to be separated from the sawing and clamping tool, and then the swing type clamping and feeding device transfers the pipe fitting to the chamfering and clamping tool for positioning;

in the step, the distance difference between the sawing clamping tool for clamping the pipe fitting and the chamfering clamping tool for releasing the pipe fitting is realized by the extension and contraction of the distance compensation mechanism;

s4, chamfering: the first power device synchronously drives the pipe fittings positioned by the two chamfering devices close to the chamfering clamping tool and synchronously completes chamfering work of two ends of the pipe fittings;

s5, discharging: the swing type clamping and discharging device swings towards the chamfering clamping tool and clamps the pipe fitting after chamfering, the chamfering clamping tool releases the pipe fitting after chamfering, and the swing type clamping and discharging device swings reversely and outputs the pipe fitting after chamfering.

After the technical scheme is adopted, the utility model discloses the effect is:

the pipe fitting that will saw cut is got and direct output of pipe fitting behind the chamfer from the direct clamp on the equipment of saw cutting to have realized, need not to add extra equipment between the equipment of saw cutting and saw cutting chamfer all-in-one and saw cutting chamfer method, compares with the tradition, and the process flow is few, help improving work rhythm, work continuity and work efficiency, and the equipment is arranged compactly, greatly reduced space occupancy.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the combination of the chamfering device, the swing type clamping and feeding device and the swing type clamping and discharging device on the second frame in FIG. 1;

FIG. 3 is a schematic view of the support of FIG. 2 in combination with an oscillating griping feed device and an oscillating griping discharge device;

FIG. 4 is a schematic view of the saw mechanism of FIG. 1 in cooperation with a swing type clamping and feeding device;

FIG. 5 is a schematic view of the chamfering apparatus of FIG. 2;

FIG. 6 is a schematic view of the fitting of the tube with the straw;

wherein, 1-a first frame; 101-a clamping and feeding mechanism; 102-scrap iron box; 2-chamfering device; 201-a slide; 202-a fixed seat; 203-a slide table; 204-a power train; 205-chamfering tool bit; 206-chamfering and clamping tooling; 207-a second linear drive element; 3-a scaffold; 301-a mounting seat; 4-swing type clamping feeding device; 401-rotating the supporting seat; 402-a rotary drive; 403-swing arm; 404-a power element; 405-a jaw; 5-swing type clamping and discharging device; 6-a distance compensation mechanism; 601-a first linear drive element; 602-a slide rail; 603-a slide block; 7-a drive mechanism; 701-a guide rail; 702-an electric machine; 8-a second frame; 9-a sawing mechanism; 901-column; 902-a sawing base; 903-saw blade; 10, sawing and clamping a tool; 1001-clamping block; 1002-oil cylinder; 11-a third linear drive element; 12-a slide plate; 13-a straw; 14-pipe fitting.

Detailed Description

The present invention will be described in further detail with reference to the following examples.

As shown in fig. 1 and fig. 2, the integrated machine for sawing, chamfering and cutting comprises a first frame 1 and a second frame 8 which are attached and connected together, wherein a sawing and cutting mechanism 9 for sawing a coffin is installed on the first frame 1, a clamping and feeding mechanism 101 is installed on the first frame 1 at the upstream of the sawing and cutting mechanism 9 in a sliding manner, and a sawing and clamping tool 10 is arranged on the first frame 1 below the sawing and cutting mechanism 9; the second frame 8 is provided with a chamfering device 2 driven by a first power device in a sliding way, the second frame 8 is also provided with a support 3, the support 3 is provided with a swing type clamping and feeding device 4 (see fig. 4) for transferring materials (pipe raw materials) between the chamfering device 2 and a sawing and clamping tool, and the support 3 positioned at one side of the swing type clamping and feeding device 4 is provided with a swing type clamping and discharging device 5; two sets of chamfering devices 2 are arranged on the second frame 8 and distributed at two ends of the second frame 8, wherein one chamfering device 2 is arranged below the swing type clamping feeding device 4 and the swing type clamping discharging device 5.

As shown in fig. 3, the swing type gripping and feeding device 4 and the swing type gripping and discharging device 5 each include a rotary support base 401, a swing arm 403 driven by a rotary driving member 402 (e.g., a rotary air cylinder) is rotatably mounted on the rotary support base 401, and a gripping jaw 405 driven by a power element 404 (e.g., a gripping jaw air cylinder) is provided on the swing arm 403. Preferably, a distance compensation mechanism 6 is provided between the swing arm 403 and the power element 404, in the illustration of the present embodiment, the distance compensation mechanism 6 is provided only on the swing type gripping and feeding device 4, the distance compensation mechanism 6 includes a first linear driving element 601 provided on the swing arm 403, the power element 404 is provided at a driving end of the first linear driving element 601, the first linear driving element 601 is an air cylinder, a slide rail 602 is provided on a cylinder body of the air cylinder, a slide block 603 driven by a piston rod is slidably mounted on the slide rail 602, and the power element 404 is provided on the slide block 603.

The bracket 3 is further provided with an installation seat 301, and a rotary supporting seat 401 driven by the driving mechanism 7 is slidably installed on the installation seat 301.

As shown in fig. 5, the chamfering device 2 includes a sliding base 201 slidably mounted on the second frame 8 and driven by the first power device, a fixed base 202 is disposed on the sliding base 201, a sliding table 203 driven by the second power device is disposed on the fixed base 202, a chamfering tool bit 205 driven by a power assembly 204 (e.g., a combined power structure of a motor and a reducer) is disposed on the sliding table 203, a chamfering clamping tool 206 is disposed on the sliding base 201 at a position corresponding to the chamfering tool bit 205, the chamfering clamping tool 206 includes two clamping blocks driven by a clamping jaw cylinder, and preferably, the chamfering clamping tool 206 is slidably mounted on the sliding base 201 and driven by a second linear driving element 207.

The driving mechanism 7, the first power device and the second power device all comprise a guide rail 701 arranged on the mounting seat 301 or the second frame 8 or the fixed seat 202, and the rotary supporting seat 401, the sliding seat 201 and the sliding table 203 are slidably mounted on the guide rail 701; a screw rod and screw nut combination structure (not shown in the figure) is arranged between the rotary support seat 401 and the mounting seat 301, between the sliding seat 201 and the second frame 8, and between the sliding table 203 and the fixed seat 202, and the screw rod is driven by a motor 702.

As shown in fig. 1 and 4, the sawing mechanism 9 includes a sawing base 902 vertically slidably mounted on the first frame 1 and driven by the first power assembly, specifically: an upright column 901 is arranged on the first machine frame 1, a saw cutting seat 902 is driven on the upright column 901 through a combined structure (a first power assembly) of a motor, a screw rod and a screw nut, a saw blade 903 driven by a second power assembly (combined power of the motor and a speed reducer) is rotatably arranged on the saw cutting seat 902, saw cutting clamping tools 10 are arranged on the first machine frame 1 on two sides of the saw blade 903, and an iron scrap box 102 is arranged on the first machine frame 1 below the two saw cutting clamping tools 10; a slide plate 12 driven by a third linear driving element 11 (such as an air cylinder) is slidably mounted on the first frame 1 downstream of the sawing clamping fixture 10, a suction pipe 13 is arranged on the slide plate 12, and a bell mouth for covering the end of the pipe 14 is arranged on the suction pipe 13 (see fig. 6). Of course, the saw cutting mechanism can also be realized by other conventional sawing modes, for example, the sawing mode can be realized by a swinging saw cutting mechanism.

In the scheme, the clamping and feeding mechanism 101 comprises a material seat driven by a combined structure of a motor, a screw rod and a screw rod nut, a plurality of conveying rollers are rotatably mounted on the material seat, and the material seat is also provided with a raw material clamping tool with the same structure as the sawing and cutting clamping tool 10; the sawing clamping tool 10 comprises two clamping blocks 1001 which slide relatively, and each clamping block 1001 is driven by an oil cylinder 1002; the clamping and feeding mechanism 101 and the sawing and clamping tool 10 are both in the prior art, and therefore, detailed description thereof is omitted, and they are not shown in the drawings.

The utility model also provides a saw cut chamfer method, this method has used foretell saw cut chamfer all-in-one, and it includes following step:

s1, raw material feeding: the pipe material is clamped by the clamping and feeding mechanism 101 and fed intermittently to the sawing mechanism 9;

s2, sawing: positioning the pipe material by a sawing clamping tool 10, and then sawing the pipe material by a vertically sliding sawing mechanism 9 and forming a pipe fitting 14;

in the sawing process of the pipe raw material, scrap iron falling into the pipe raw material is synchronously sucked away through the suction pipe 13;

s3, transferring the pipe fittings: the swing type clamping and feeding device 4 swings towards the sawing and clamping tool 10 and clamps the pipe 14, then the sawing and clamping tool 10 releases the pipe, then the driving mechanism 7 drives the rotary supporting seat 401 to slide and enables the pipe 14 to be separated from the sawing and clamping tool 10, and then the swing type clamping and feeding device 4 transfers the pipe 14 to the chamfering and clamping tool 206 for positioning;

in this step, the distance difference between the sawing clamping tool 10 for clamping the pipe 14 and the chamfering clamping tool 206 for releasing the pipe 14 is realized by the expansion and contraction of the distance compensation mechanism 6;

s4, chamfering: the first power device synchronously drives the two chamfering devices 2 to approach the pipe fittings 14 positioned by the chamfering clamping tool 206 and synchronously completes chamfering work of two ends of the pipe fittings 14;

s5, discharging: the swing type clamping and discharging device 5 swings towards the chamfering clamping tool 206 and clamps the chamfered pipe 14, the chamfering clamping tool 206 releases the chamfered pipe 14, and the swing type clamping and discharging device 5 swings reversely and outputs the chamfered pipe 14.

The above-mentioned embodiments are only descriptions of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and all modifications and changes made by the technical solution of the present invention should fall within the protection scope defined by the claims of the present invention on the basis of not departing from the spirit of the present invention.

Claims (9)

1. The utility model provides a saw cut chamfer all-in-one which characterized in that: the coffin cutting machine comprises a first machine frame and a second machine frame which are attached and connected together, wherein a sawing mechanism for sawing a coffin is arranged on the first machine frame, a clamping and feeding mechanism is slidably arranged on the first machine frame at the upstream of the sawing mechanism, and a sawing and clamping tool is arranged on the first machine frame below the sawing mechanism; the chamfering device driven by the first power device is installed on the second rack in a sliding mode, a support is further arranged on the second rack, a swing type clamping feeding device used for transferring materials between the chamfering device and the sawing clamping tool is arranged on the support, and a swing type clamping discharging device is arranged on the support and located on one side of the swing type clamping feeding device.

2. The sawing and chamfering integrated machine according to claim 1, wherein: the swing type clamping and feeding device and the swing type clamping and discharging device both comprise rotary supporting seats, swing arms driven by rotary driving pieces are rotatably mounted on the rotary supporting seats, and clamping jaws driven by power elements are arranged on the swing arms; at least a distance compensation mechanism is arranged on the swing type clamping feeding device.

3. The sawing and chamfering integrated machine according to claim 2, wherein: the distance compensation mechanism comprises a first linear driving element arranged on the swing arm, and the driving end of the first linear driving element is provided with the power element;

the first linear driving element is an air cylinder, a sliding rail is arranged on a cylinder body of the air cylinder, a sliding block driven by a piston rod is slidably mounted on the sliding rail, and the power element is arranged on the sliding block.

4. The sawing and chamfering integrated machine according to claim 3, wherein: the support is provided with a mounting seat, and the mounting seat is provided with a rotary supporting seat driven by a driving mechanism in a sliding manner.

5. The sawing and chamfering all-in-one machine as claimed in any one of claims 1 to 4, wherein: the chamfering device comprises a sliding seat which is slidably installed on the second rack and driven by the first power device, a fixed seat is arranged on the sliding seat, a sliding table driven by the second power device is arranged on the fixed seat, a chamfering tool bit driven by a power assembly is arranged on the sliding table, the chamfering tool bit corresponds to the position, a chamfering clamping tool is arranged on the sliding seat, and the chamfering clamping tool is slidably installed on the sliding seat and driven by a second linear driving element.

6. The sawing and chamfering integrated machine according to claim 5, wherein: and two sets of chamfering devices are arranged on the second rack and distributed at two ends of the second rack, and one chamfering device is arranged below the swing type clamping feeding device and the swing type clamping discharging device.

7. The sawing and chamfering integrated machine according to claim 6, wherein: the driving mechanism, the first power device and the second power device respectively comprise a guide rail arranged on the mounting seat or the second rack or the fixed seat, and the rotary supporting seat, the sliding seat and the sliding table are slidably arranged on the guide rail; the rotary supporting seat and the mounting seat, the sliding seat and the second rack, and the sliding table and the fixing seat are provided with a combined structure of a screw rod and a screw rod nut, and the screw rod is driven by a motor.

8. The sawing and chamfering integrated machine according to claim 1, wherein: the saw cut mechanism includes vertical slidable mounting in on the first frame and saw cut the seat by first power assembly driven, saw cut the seat and go up the rotation and install second power assembly driven saw bit, be located the saw bit both sides all be equipped with in the first frame saw cut and press from both sides tight frock.

9. The sawing and chamfering integrated machine according to claim 8, wherein: and a sliding plate driven by a third linear driving element is slidably mounted on the first frame at the downstream of the sawing and clamping tool, and a suction pipe is arranged on the sliding plate.

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