CN120502748A - Grooving machine - Google Patents

Abstract

The invention discloses a grooving machine which comprises a frame, wherein a sliding seat is movably arranged on the frame, the sliding seat can move linearly, and the grooving machine is characterized by further comprising a supporting seat, a first driving assembly and at least two tool holders, wherein the supporting seat can be movably arranged on the sliding seat, the first driving assembly can drive the supporting seat to move horizontally, the first tool holders are movably arranged on the supporting seat, the second tool holders are at least two, the second tool holders are movably arranged on the supporting seat, a first guide wheel assembly is arranged on each first tool holder, a second guide wheel assembly is arranged on each second guide wheel assembly, and the grooving machine is beneficial to ensuring the grooving effect through alternate planing of different grooving blades.

Description

Grooving machine

Technical Field

The invention relates to the technical field of electric tricycle production, in particular to a grooving machine.

Background

In the conventional planing machine, when the electric vehicle connecting plate is planed, the electric vehicle connecting plate is usually continuously planed through the planing blade, the planing blade is easy to overheat after continuous working for a long time, and deformation is further easy to occur, so that stable planing of the planing blade is not facilitated, namely the planing quality is easily reduced.

Disclosure of Invention

The invention aims to provide a planing machine which is beneficial to ensuring planing quality by alternately planing an electric vehicle connecting plate through different planing blades.

The invention provides a grooving machine which comprises a frame, wherein a sliding seat is movably arranged on the frame, the sliding seat can move linearly, a supporting seat is arranged on the sliding seat in a movable mode, a first driving assembly is arranged on the supporting seat in a movable mode, the first driving assembly can drive the supporting seat to move horizontally, at least two knife racks are arranged on the supporting seat in a movable mode, a guide wheel assembly is arranged on each knife rack in a movable mode, a guide wheel assembly is arranged on each guide wheel assembly in a movable mode, a guide rail mechanism is arranged on the frame, a jacking assembly is arranged on the guide wheel assembly in a movable mode, the guide wheel assembly is matched with the guide rail mechanism, grooving blades are arranged on the knife racks in a movable mode, and the knife racks are driven to alternately shave an electric car connecting plate in a movable mode in the sliding seat moving process.

The guide rail mechanism comprises a first guide rail, a second guide rail, a lifting assembly and a lifting assembly, wherein the first guide rail corresponds to the first guide rail, the first guide rail is matched with the first guide rail, the second guide rail corresponds to the second guide rail, the second guide rail is matched with the second guide rail, and the lifting assembly is used for driving the first guide rail and the second guide rail to synchronously lift.

Further, the first guide rail consists of a first horizontal section, a second horizontal section and a first transition section, wherein the first transition section is arranged between the first horizontal section and the second horizontal section, the first transition section is arranged in a manner of being tangent to the first horizontal section and the second horizontal section, and the first horizontal section is arranged above the first horizontal section.

Further, the second guide rail consists of a third horizontal section, a fourth horizontal section and a second transition section, the second transition section is arranged between the third horizontal section and the fourth horizontal section, the second transition section is arranged in a manner of being tangent to the third horizontal section and the fourth horizontal section, the third horizontal section is positioned above the fourth horizontal section, and the part of the first horizontal section adjacent to the first transition section corresponds to the part of the second horizontal section adjacent to the fourth transition section.

Further, the bottom end of the gouging blade of the first guide wheel assembly, which is matched with the first tool rest in the horizontal section, is equal to the bottom end of the gouging blade of the second guide wheel assembly, which is matched with the second tool rest in the fourth horizontal section.

The lifting assembly comprises a first bearing frame, a second driving motor, a second screw rod and a first guide rail, wherein the first bearing frame is movably arranged on the frame, the second driving motor is arranged on the frame, the second screw rod is rotatably arranged on the frame, the second screw rod is in threaded fit connection with the second bearing frame, the first guide rail and the second guide rail are both arranged between the first bearing frame and the second bearing frame, and the output end of the second driving motor is fixedly connected with the second screw rod.

The guide wheel assembly comprises a first fixing seat, a first guide pulley and a second guide pulley, wherein the first fixing seat is arranged on the first tool rest seat, the first guide pulley is rotatably arranged on the first fixing seat, and the first guide pulley is matched with the first guide rail.

The guide wheel assembly II further comprises a fixing seat II which is arranged on the tool rest seat II, and a guide pulley II which is rotatably arranged on the fixing seat II, wherein the guide pulley II is matched with the second guide rail.

The jacking assembly comprises a supporting frame, supporting springs, supporting slide rails and guiding slide rails, wherein the supporting frame is fixedly arranged on a supporting seat, the supporting springs are equal to the planing blades in number, one supporting spring is arranged between each first tool rest and each second tool rest and the supporting frame, the supporting seat is provided with the guiding slide rails, the guiding slide rails are equal to the planing blades in number, each first tool rest and each second tool rest are respectively corresponding to one guiding slide rail, the guiding slide rails are respectively matched with the guiding slide rails, each first tool rest is fixedly connected with the guiding slide blocks on the corresponding guiding slide rails, and each second tool rest is fixedly connected with the guiding slide blocks on the corresponding guiding slide rails.

The first driving assembly comprises a moving seat, a first guide sliding rail, a first guide sliding block, a first screw rod, a first driving motor and a first driving motor, wherein the moving seat is movably arranged on the sliding seat, the first guide sliding rail is arranged on the moving seat, the first guide sliding block is arranged on the first guide sliding rail in a matched mode, the first guide sliding block is fixedly connected with the supporting seat, the first screw rod is rotatably arranged on the moving seat and is in threaded connection with the supporting seat, and the first driving motor is arranged on the moving seat and the output end of the first driving motor is fixedly connected with the first screw rod.

Compared with the prior art, the invention has the following beneficial effects.

1. In the planing process, the planing blades on the first tool rest and the second tool rest alternately plane the electric vehicle connecting plate, so that the same planing blade is prevented from continuously planing the electric vehicle connecting plate, deformation of the planing blade caused by overheating is reduced or avoided, the planing stability of the planing blade is guaranteed, and the planing quality is guaranteed.

2. During the planing process, the planing is performed by at least two planing blades, which also helps to ensure the planing quality.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of the installation of the first guide rail and the second guide rail of the present invention.

Fig. 3 is a schematic view of the first rail and the second rail according to the present invention.

Fig. 4 is a schematic installation diagram of a first tool rest, a second tool rest, a supporting seat, a first guide wheel assembly and a second guide wheel assembly.

Fig. 5 is a schematic diagram of the cooperation of the jacking assembly of the present invention with the first and second tool holders.

FIG. 6 is a schematic view of the first screw, the first guide slider and the support seat of the present invention.

Fig. 7 is a schematic view of the installation of the guide rail mechanism of the present invention.

The device comprises a frame 1, a frame 2, a supporting seat 21, a guide sliding rail II, a guide sliding block II, a guide sliding seat 3, a guide sliding seat 4, a first driving component 41, a moving seat 42, a first driving motor 43, a first screw rod 44, a guide sliding rail I, a guide sliding block 45, a guide sliding block I, a guide rail mechanism 51, a first guide rail 511, a horizontal section I, a horizontal section 512, a transition section I, a horizontal section II, a horizontal section 52, a second guide rail 521, a horizontal section III, a horizontal section 522, a transition section II, a horizontal section 523, a horizontal section IV, a 53, a lifting component 531, a first bearing frame 532, a second bearing frame 533, a second driving motor 534, a second screw rod 6, a knife rest I, a guide wheel component I, a guide pulley I, a fixed seat I, a guide pulley 612, a guide pulley I, a knife rest II, a guide pulley 8, a planing groove II, a lifting component 9, a lifting component 91, a supporting frame II, a supporting frame 92 and a supporting spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-6, the invention provides a technical scheme that the grooving machine comprises a frame 1, a sliding seat 3 is movably arranged on the frame 1, the sliding seat 3 can move linearly, a linear guide rail (the linear guide rail comprises a sliding block and a sliding rail, the sliding block is fixedly connected with the sliding seat 3, the sliding rail is arranged on the frame 1) is connected between the sliding seat 3 and the frame 1, and the linear guide rail is horizontally arranged, meanwhile, a motor and a screw rod are arranged for driving the sliding seat 3 to move horizontally and linearly, the motor is connected with the screw rod, the screw rod is rotatably arranged on the frame 1 through a bearing, the screw rod is in threaded fit with the sliding seat 3, and the sliding seat 3 can move horizontally through the motor, which is the prior art and is not repeated.

The grooving machine further comprises a supporting seat 2, wherein a first cutter rest 6 and a second cutter rest 7 are movably arranged on the supporting seat 2, at least two cutter rests are arranged on the first cutter rest 6, at least two cutter rests are arranged on the second cutter rest 7, as shown in fig. 4, the two cutter rests 6 and the two cutter rests 7 are alternately arranged, the first cutter rest 6 and the second cutter rest 7 can move up and down, the two cutter rests 6 are arranged in parallel, the two cutter rests 7 are also arranged in parallel, a first guide wheel assembly 61 is arranged on each cutter rest 6, a second guide wheel assembly 71 is arranged on each cutter rest 7, in addition, the first cutter rest 6 and the second cutter rest 7 are correspondingly arranged, and a grooving blade 8 is fixedly arranged at the bottom end of each cutter rest 6 and the bottom end of each cutter rest 7.

The first guide wheel assembly 61 comprises a first fixed seat 611 arranged at the top end of the first tool rest 6, a first guide pulley 612 is rotatably arranged on the first fixed seat 611 through a rotating shaft, namely the first guide pulley 612 is fixedly sleeved outside the rotating shaft, the rotating shaft is movably arranged on the first fixed frame through a bearing, the second guide wheel assembly 71 comprises a second fixed seat 711, the second fixed seat 711 is fixedly connected with the top end of the second tool rest 7, and the second guide pulley 712 is rotatably arranged on the fixed seat through the rotating shaft.

The grooving machine further comprises a guide rail mechanism 5, a lifting assembly 53 and a jacking assembly 9, wherein the lifting assembly 53 is used for driving the guide rail mechanism 5 to lift, and the jacking assembly 9 is used for driving the first guide pulley 612 and the second guide pulley 712 to be matched with the guide rail mechanism 5.

The guide rail assembly comprises a first guide rail 51 and a second guide rail 52, wherein the first guide rail 51 corresponds to the first guide wheel assembly 61 in position, the second guide rail 52 corresponds to the second guide wheel assembly 71 in position, the first guide rail 51 is matched with the guide pulley, the first guide rail 51 is composed of a first horizontal section 511, a first transition section 512 and a second horizontal section 513 in sequence, the first horizontal section is located below the second horizontal section 513, the first transition section 512 is in a two-section arc structure, the first transition section 512 is tangential to the first horizontal section 511, and the first transition section 512 is tangential to the second horizontal section 513.

The second guide rail 52 comprises a third horizontal section 521, a fourth horizontal section 523 and a second transition section 522, wherein the second transition section 522 is arranged between the third horizontal section 521 and the fourth horizontal section 523, the third horizontal section 521 is positioned above the fourth horizontal section 523, the second transition section 522 is in a two-section arc structure, the second transition section is arranged tangentially to the third horizontal section 521, and the second transition section is also arranged tangentially to the fourth horizontal section 523.

The support seat 2 is provided with guide slide rails II 21, the number of the guide slide rails II 21 is equal to that of the planing blades 8, each first cutter rest 6 and each second cutter rest 7 respectively correspond to one guide slide rail II 21, each guide slide rail is provided with a guide slide block in a matched mode, each first cutter rest 6 is fixedly connected with the guide slide block II 22 on the corresponding guide slide rail II 21, each second cutter rest 7 is fixedly connected with the guide slide block II 22 on the corresponding guide slide rail II 21, the guide slide rails II 21 are arranged, and the first cutter rest 6 and the second cutter rest 7 can move up and down through the matching of the guide slide blocks II 22 and the guide slide rails II 21.

The jacking component 9 comprises a supporting frame 91 arranged on the supporting seat 2, supporting springs 92 are arranged on the supporting frame 91, the number of the supporting springs 92 is equal to that of the planing blades 8, one supporting spring 92 is arranged between each first knife rest 6 and each second knife rest 7 and the supporting frame 91, the supporting springs 92 corresponding to the first knife rest 6 are used for supporting the first knife rest 6, the supporting springs 92 are in a compressed state, a guide pulley 612 above the first knife rest 6 is matched with a first guide rail 51, a guide pulley 612 above the second knife rest 7 is matched with a second guide rail 52, in an initial state, the guide pulley 612 is matched with the first horizontal section 511, the guide pulley 712 is matched with the third horizontal section 521, the bottommost end of the planing blade 8 on the first knife rest 7 is higher than the bottommost end of the planing blade 8 on the first knife rest 6, in addition, when the guide pulley 612 is matched with the first horizontal section 511, the bottommost end height of the planing blade 8 on the first knife rest 6 is recorded as H1, and when the guide pulley 612 is matched with the third horizontal section 7, the bottommost end of the planing blade 8 is recorded as H1, and in an initial state, the height of the second planing blade 521 is recorded as H2.

The first driving assembly 4 comprises a moving seat 41, the moving seat 41 is movably arranged on the sliding seat 3, specifically, two guide rods are arranged on the sliding seat 3 and penetrate through the moving seat 41, two through hole structures matched with the guide rods are arranged on the moving seat 41, a motor and a screw rod are arranged on the sliding seat 3 and fixedly connected with the motor, the screw rod is rotatably arranged on the sliding seat 3 through a bearing, the screw rod is in threaded fit connection with the moving seat 41, the screw rod and the guide rods are horizontally arranged, the motor can drive the moving seat 41 to horizontally move, the motor drives the moving direction of the supporting seat 2 to be perpendicular to the moving direction of the sliding seat 3, the position of the moving seat 41 can be adjusted through the arrangement, and the position of the planing groove blade 8 can be adjusted.

The first driving assembly 4 further comprises a first driving motor 42 and a first screw rod 43, the first driving motor 42 is arranged on the moving seat 41, the first screw rod 43 is movably arranged on the moving seat 41 through a bearing, the output end of the first driving motor 42 is fixedly connected with the first screw rod 43, the first screw rod 43 penetrates through the supporting seat 2, the first screw rod 43 is in threaded fit connection with the supporting seat 2, namely, the first driving motor 42 drives the first screw rod 43 to rotate, the supporting seat 2 can be driven to move up and down under the fit of the first guide slide block 45 and the second guide pulley 712, and accordingly the first knife rest 6, the second knife rest 7, the planing blade 8 and the like are driven to move up and down.

The lifting assembly 53 is used for driving the first guide rail 51 and the second guide rail 52 to synchronously lift, the first guide rail 51 and the second guide rail 52 are connected with the lifting assembly 53, in this embodiment, when the first driving motor 42 drives the support seat 2 to descend, the lifting assembly 53 drives the first guide rail 51 and the second guide rail 52 to descend, and enables the descending displacement of the support seat 2 to be consistent with the descending displacement of the first guide rail 51 and the second guide rail 52, and when the first driving motor 42 drives the support seat 2 to ascend, the lifting assembly 53 drives the first guide rail 51 and the second guide rail 52 to ascend, and enables the ascending displacement of the support seat 2 to be consistent with the ascending displacement of the first guide rail 51 and the second guide rail 52, and the first driving motor 42 can drive the support seat 2 to ascend, and then the lifting assembly 53 drives the first guide rail 51 and the second guide rail 52 to ascend.

When the electric car yoke plate is used for planing, the first guide pulley 612 is matched with the first horizontal section 511, the second guide pulley 712 is matched with the third horizontal section 521, namely, the state shown in fig. 1, the electric car yoke plate to be planed is placed on the frame 1, a clamping device for clamping the electric car yoke plate can be arranged on the frame 1, the clamping device is not repeated in the prior art, for example, a screw rod sliding block mechanism is adopted to match with the clamping plate for clamping metal, then the movable seat 41 is adjusted to be at a proper position, so that the planing blade 8 corresponds to the position of the electric car yoke plate to be planed, then the support frame 91 is driven to be lowered by a proper distance through the first driving motor 42, namely, the planing blade 8 on the first knife rest 6 is driven to be lowered by a proper distance through the lifting assembly 53, and simultaneously the first guide rail 51 and the second guide rail 52 are driven to be lowered by the same distance through the movable seat 41, the support seat 2 and the like are driven to move, so that the planing blade 8 on the first knife rest 6 can be driven to plane the electric car yoke plate through the two spacing arrangement, and the planing blade 8 is driven to be beneficial to planing quality.

When the first guide pulley 612 moves to the horizontal end to match with the second guide pulley 712 and the second guide pulley 712 matches with the fourth guide pulley, at this time, the bottommost end of the corresponding planing blade 8 on the first carriage is higher than the bottommost end of the corresponding planing blade 8 on the first carriage, and the descending distance of the supporting frame 91 is consistent with the descending distance of the first guide rail 51 and the second guide rail 52, at this time, the planing blade 8 on the second carriage 7 will replace the planing blade 8 on the first carriage 6 to continue planing the electric car connecting plate until the planing blade 8 on the second carriage 7 finishes planing the rest, so that the first planing can be realized.

When the planing blades 8 on the first knife rest 6 and the second knife rest 7 alternately perform one continuous planing, namely, the planing blades 8 on the first knife rest 6 and the second knife rest 7 completely pass through the surface of the electric car connecting plate from the beginning of planing to the planing blades 8 on the second knife rest 7, the first driving motor 42 drives the supporting seat 2 to reset, then the lifting component 53 drives the first guide rail 51 and the second guide rail 52 to reset, then the sliding seat 3 resets, at the moment, the supporting seat 2, the first guide rail 51, the second guide rail 52, the first knife rest 6 and the like reset to an initial state, namely, a state shown in fig. 1, at the moment, the first driving motor 42 drives the supporting seat 2 to descend, the lifting component 53 drives the first guide rail 51 and the like to descend, the descending distance of the first guide rail 51 is consistent with the descending distance of the supporting seat 2, at the moment, the descending distance of the supporting seat 2 is larger than the descending distance of the supporting seat 2 during the first planing, the sliding seat 3 drives the supporting seat 2 and the like to move, the deepening planing depth is performed through the operation, the sliding seat 3 resets until the required planing is reached, after the planing is completed, the supporting seat 2, the first guide rail 51, the first guide rail 52 and the second guide rail 52 and the like reset state is completely taken out after the planing is completed.

Example two

Referring to fig. 1-7, according to the first embodiment, the lifting assembly 53 includes a first carrier 531 and a second carrier 532, where the first carrier 531 and the second carrier 532 are movably disposed on the frame 1, and the first carrier 531 and the second carrier 532 are movable up and down, and specifically, the first carrier 531 and the second carrier 532 are movably disposed on the frame 1 through linear guide rails.

The lifting assembly 53 further comprises a second driving motor 533 and a second screw 534, the second driving motor 533 is mounted on the frame 1, the second screw 534 is movably arranged on the frame 1 through a bearing, the output end of the second driving motor 533 is fixedly connected with the upper end of the second screw 534, meanwhile, the second screw 534 penetrates through the second bearing frame 532, the second screw 534 is in threaded fit connection with the second bearing frame 532, the second driving motor 533 drives the second screw 534 to rotate, and the first bearing frame 531 and the second bearing frame 532 can be driven to move up and down, so that the first guide rail 51 and the second guide rail 52 can be lifted up and down.

Example III

Referring to fig. 7, in the second embodiment, based on the second embodiment, a notch is provided on the sliding base 3, the second carrier 532 passes through the notch, and by providing the notch, interference between the second carrier 532 and the sliding base 3 is avoided when the second carrier 532 moves up and down.

It should be noted that the above-mentioned embodiments are merely preferred embodiments of the present invention, and the present invention is not limited thereto, but may be modified or substituted for some of the technical features thereof by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The grooving machine comprises a frame (1), wherein a sliding seat (3) is movably arranged on the frame (1), the sliding seat (3) can move linearly, and the grooving machine is characterized by further comprising:

the support seat (2), the support seat (2) can be movably arranged on the sliding seat (3);

The first driving assembly (4), the first driving assembly (4) can drive the supporting seat (2) to move horizontally;

the first knife rest (6) is provided with at least two knife rests, and the first knife rest (6) is movably arranged on the supporting seat (2);

The second tool rest (7) is provided with at least two tool rests, and the second tool rest (7) is movably arranged on the supporting seat (2);

The guide wheel assemblies I (61), one guide wheel assembly I (61) is arranged on each tool rest I (6);

the guide wheel assemblies II (71), and each tool rest II (7) is provided with a guide wheel assembly II (71);

The guide rail mechanism (5), the guide rail mechanism (5) is arranged on the frame (1);

the jacking assembly (9) drives the guide wheel assembly I (61) and the guide wheel assembly II (71) to be matched with the guide rail mechanism (5);

the electric vehicle connecting plate comprises a first tool rest (6) and a second tool rest (7), wherein a planing blade (8) is arranged on the first tool rest (6) and the second tool rest (7), and the planing blade (8) on the first tool rest (6) and the second tool rest (7) are driven to plane alternately in the moving process of the sliding seat (3).

2. A router as claimed in claim 1, wherein the guide rail mechanism (5) comprises:

The first guide rail (51), the first guide rail (51) corresponds to the first guide wheel assembly (61) in position, and the first guide wheel assembly (61) is matched with the first guide rail (51);

the second guide rail (52), the second guide rail (52) corresponds to the second guide wheel assembly (71), and the second guide wheel assembly (71) is matched with the second guide rail (52);

and the lifting assembly (53) is used for driving the first guide rail (51) and the second guide rail (52) to synchronously lift.

3. A router as claimed in claim 2, wherein the first guide rail (51) is composed of a first horizontal section (511), a second horizontal section (513) and a first transition section (512), the first transition section (512) being arranged between the first horizontal section (511) and the second horizontal section (513);

The first transition section (512) is tangential to the first horizontal section (511) and the second horizontal section (513), and the second horizontal section (513) is positioned above the first horizontal section (511).

4. A router as claimed in claim 3, wherein the second guide rail (52) is composed of a third horizontal segment (521), a fourth horizontal segment (523) and a second transition segment (522), the second transition segment (522) being arranged between the third horizontal segment (521) and the fourth horizontal segment (523);

The transition section II (522) is tangential to the horizontal section III (521) and the horizontal section IV (523), and the horizontal section III (521) is positioned above the horizontal section IV (523);

The portion of horizontal segment one (511) adjacent to transition segment one (512) corresponds to the portion of horizontal segment four (523) adjacent to transition segment two (522).

5. A router as claimed in claim 4 wherein the bottom end of the router blade (8) on the first carriage (6) is equal in height to the bottom end of the router blade (8) on the second carriage (7) when the first guide wheel assembly (61) is engaged with the first horizontal section (511) and the second guide wheel assembly (71) is engaged with the fourth horizontal section (523).

6. A router as claimed in claim 2, wherein the lifting assembly (53) comprises:

the first bearing frame (531), the first bearing frame (531) is movably set on the frame (1);

a second carrying frame (532), wherein the second carrying frame (532) is movably arranged on the frame (1);

a second drive motor (533), the second drive motor (533) being mounted on the frame (1);

The second screw rod (534), the second screw rod (534) rotates to be arranged on the rack (1), and the second screw rod (534) is in threaded fit connection with the second bearing frame (532);

Wherein, first guide rail (51), second guide rail (52) all set up between first carrier (531) and second carrier (532), and the output fixed connection second screw rod (534) of second driving motor (533).

7. A router as claimed in claim 2, wherein the first guide wheel assembly (61) comprises:

The first fixing seat (611), the first fixing seat (611) is arranged on the first tool rest seat;

the first guide pulley (612), the first guide pulley (612) is rotatably arranged on the first fixing seat (611);

Wherein the first guide pulley (612) is matched with the first guide rail (51).

8. A router as claimed in claim 2, wherein the second guide wheel assembly (71) comprises:

the second fixing seat (711) is arranged on the second tool rest seat (711);

The second guide pulley (712) is rotatably arranged on the second fixing seat (711);

Wherein, the second guide pulley (712) is matched with the second guide rail (52).

9. A router as claimed in claim 1, characterized in that the jacking assembly (9) comprises:

The support frame (91), the support frame (91) is fixedly arranged on the support seat (2);

The number of the supporting springs (92) is equal to that of the grooving blades (8), and one supporting spring (92) is arranged between each first tool rest (6), each second tool rest (7) and the supporting frame (91);

The support seat (2) is provided with guide slide rails II (21), the number of the guide slide rails II (21) is equal to that of the planing blades (8), each first tool rest (6) and each second tool rest (7) respectively correspond to one guide slide rail II (21), and each guide slide rail II (21) is provided with a guide slide rail II (21) in a matched mode;

each first knife rest (6) is fixedly connected with a second guide slide block (22) on a second guide slide rail (21) corresponding to the first knife rest, and each second knife rest (7) is fixedly connected with a second guide slide block (22) on a second guide slide rail (21) corresponding to the second knife rest.

10. A router as claimed in claim 1, wherein the first drive assembly (4) comprises:

a moving seat (41), wherein the moving seat (41) is movably arranged on the sliding seat (3);

The first guide slide rail (44) is arranged on the movable seat (41);

The first guide slide block (45) is matched with the first guide slide rail (44), and the first guide slide block (45) is fixedly connected with the supporting seat (2);

The first screw rod (43), the first screw rod (43) is rotatably arranged on the movable seat (41), and the first screw rod (43) is in threaded connection with the supporting seat (2);

The first driving motor (42), the first driving motor (42) is installed on the movable seat (41), and the output end of the first driving motor (42) is fixedly connected with the first screw rod (43).