CN216099460U - Tenoning machine - Google Patents

Tenoning machine Download PDF

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Publication number
CN216099460U
CN216099460U CN202121630415.9U CN202121630415U CN216099460U CN 216099460 U CN216099460 U CN 216099460U CN 202121630415 U CN202121630415 U CN 202121630415U CN 216099460 U CN216099460 U CN 216099460U
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CN
China
Prior art keywords
tenoning
base
seat
drive
sliding
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CN202121630415.9U
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Chinese (zh)
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不公告发明人
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Individual
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Individual
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Abstract

The utility model discloses a tenoning machine which comprises a base and two tenoning devices, wherein each tenoning device comprises a movable base, a movable driving mechanism, a pressure feeding mechanism, a tenoning mechanism and an adjusting mechanism; the movable seat is connected to the base in a sliding mode, and a sliding rail portion suitable for supporting the edge portion of the plate is arranged on the movable seat; the pressing and conveying mechanism is connected to the moving seat and is suitable for acting so as to press the edge of the plate material on the slide rail part and drive the plate material to move on the slide rail part along the longitudinal direction; the tenon opening mechanism is connected to the corresponding adjusting mechanism; the adjusting mechanism is connected to the moving seat and is suitable for being actuated to drive the corresponding tenoning mechanisms to actuate to proper angles and positions, so that the tenoning mechanisms tenons on corresponding edges of the moving plate. The utility model can process tenon parts and special-shaped tenon parts with different shapes.

Description

Tenoning machine
Technical Field
The utility model relates to a tenoning machine.
Background
Currently, a tenoner is a device for machining a tenon, which may be a mortise or a tenon, on a board. The tenoning machine is provided with a tenoning mechanism, the tenoning mechanism generally comprises a motor and a tenoning saw connected to the motor, and the motor drives the tenoning saw to rotate so as to process a tenon part on a plate. However, the position and angle of the motor in the existing tenoning machine are fixed, so that the existing tenoning machine can only process the tenon part with the same fixed shape and cannot process the tenon parts with different shapes and special-shaped tenon parts.
Disclosure of Invention
The utility model aims to overcome the defects of the prior art and provides a tenoning machine which can process tenons and special-shaped tenons in different shapes.
In order to solve the technical problems, the technical scheme of the utility model is as follows: a tenoning machine comprises a base and two tenoning devices; wherein the content of the first and second substances,
one of the tenoning devices is longitudinally and slidably connected to the base and is suitable for tenoning one edge of the plate;
another tenoning device is connected on the base in a transverse sliding mode and is suitable for tenoning on the other edge of the plate;
the tenoning device comprises a movable seat, a movable driving mechanism, a pressure feeding mechanism, at least two tenoning mechanisms and an adjusting mechanism corresponding to the tenoning mechanisms; wherein the content of the first and second substances,
the movable seat is connected to the base in a sliding mode, and a sliding rail part suitable for supporting the edge of the plate is arranged on the movable seat;
the pressing and conveying mechanism is connected to the moving seat and is suitable for acting so as to press the edge of the plate material on the slide rail part and drive the plate material to move on the slide rail part along the longitudinal direction;
the tenon opening mechanism is connected to the corresponding adjusting mechanism;
the adjusting mechanism is connected to the moving seat and is suitable for being actuated to drive the corresponding tenoning mechanisms to actuate to proper angles and positions so as to enable the tenoning mechanisms to tenon corresponding edges of the moving plates;
the moving driving mechanism is connected with the moving seat and is suitable for acting to drive the moving seat to slide on the base to a position.
Further provides a concrete structure of the adjusting mechanism, wherein the adjusting mechanism comprises a vertical sliding seat, a vertical driving mechanism, a transverse sliding seat, a transverse driving mechanism, a rotating seat and a rotating driving mechanism; wherein the content of the first and second substances,
the vertical sliding seat is connected to the moving seat in a sliding manner along the vertical direction;
the vertical driving mechanism is connected between the moving seat and the vertical sliding seat and is suitable for being actuated to drive the vertical sliding seat to slide relative to the moving seat;
the transverse sliding seat is connected to the vertical sliding seat in a transverse sliding mode;
the transverse driving mechanism is connected between the vertical sliding seat and the transverse sliding seat and is suitable for being operated to drive the transverse sliding seat to slide relative to the vertical sliding seat;
the rotating seat is rotatably connected to the transverse sliding seat;
the rotary driving mechanism is connected between the transverse sliding seat and the rotary seat and is suitable for being operated to drive the rotary seat to rotate relative to the transverse sliding seat;
the tenoning mechanism is connected to the rotary seat.
Further provided is a concrete structure of the vertical driving mechanism, the vertical driving mechanism including:
the first nut is connected to the vertical sliding seat;
the first screw rod is rotatably connected to the moving seat and is in threaded connection with the first nut, and the first screw rod is suitable for being driven to rotate so as to drive the first nut and the vertical sliding seat to move;
and/or the lateral drive mechanism comprises:
the second nut is connected to the vertical sliding seat;
a second screw rod which is rotatably connected on the transverse sliding seat and is in threaded connection with the second nut, wherein the second screw rod is suitable for being driven to rotate so as to drive the second nut and the transverse sliding seat to move;
and/or the rotary drive mechanism comprises:
the worm wheel is connected with the rotating seat;
the worm is rotatably connected to the transverse sliding seat and is in fit connection with the worm wheel, and the worm is suitable for being driven to rotate so as to drive the worm wheel and the rotating seat to rotate.
Further, there is provided a specific structure of the press-feed mechanism, comprising:
the pressure feeding base is connected to the moving base;
the main guide wheel and the driven guide wheel are respectively and rotatably connected to the pressure feed base;
the pressure conveying belt is connected to the main guide wheel and the auxiliary guide wheel to form an upper belt body and a lower belt body;
the pressing mechanism is internally provided with a pressing wheel and is suitable for acting to drive the pressing wheel to abut against the lower belt body so that the lower belt body presses the plate on the sliding rail part;
and the power mechanism is connected with the main guide wheel and is suitable for driving the main guide wheel to rotate, so that the pressing conveying belt is driven to move so as to drive the pressed plate to move on the sliding rail part along the longitudinal direction.
Further, the pressure feeding mechanism also comprises at least one supporting wheel which is rotatably connected to the pressure feeding base and is suitable for being abutted against the lower surface of the upper belt body so as to support the upper belt body;
the pressing mechanism is arranged between the upper belt body and the lower belt body.
Further provides a concrete structure of the pressing mechanism, and the pressing mechanism comprises a pressing cylinder, a sliding block and the pressing wheel; wherein the content of the first and second substances,
the cylinder body of the pressing cylinder is connected to the pressure feeding base;
the sliding block is connected to the pressure feeding base in a sliding mode and is connected with a piston rod of the pressing cylinder;
the pressing wheel is connected to the lower end of the sliding block and is suitable for being abutted to the upper surface of the lower belt body.
Further, the pressure feeding base is connected to the moving base in a sliding mode along the vertical direction;
and a lifting driving mechanism which is suitable for driving the pressure feeding base to slide relative to the moving base is arranged between the pressure feeding base and the moving base.
Further provides a concrete structure of the lifting driving mechanism, the lifting driving mechanism comprises at least two worm gear boxes which are sequentially arranged along the longitudinal direction and connected on the moving seat;
the input shafts of the adjacent worm gear boxes are in transmission connection through connecting rods;
the output shaft of the worm gear box is connected with a lifting screw rod;
the pressure feeding base is connected with a lifting nut which corresponds to the lifting screw rod and is in threaded connection with the corresponding lifting screw rod;
the input shaft of the worm gear box is also connected with a driving source so that the driving source drives the input shaft of the worm gear box to rotate.
Further, the tenon-making device further comprises a feeding mechanism which is suitable for feeding the board to the sliding rail part, and the feeding mechanism comprises:
two bearing wheels rotatably connected to the movable seat;
the feeding motor is connected to the moving seat, and an output shaft of the feeding motor is connected with a driving wheel;
and the feeding belt is connected to the driving wheel and the two bearing wheels and is suitable for bearing the plates.
Further provides a concrete structure of the moving seat, wherein the moving seat comprises a sliding table and at least one upright post;
the sliding table is connected to the base in a sliding manner;
the upright post is connected to the sliding table;
the sliding rail part is connected to the upright post;
the adjusting mechanism is connected to the upright post.
After the technical scheme is adopted, one edge of the plate is borne on the sliding rail part in one tenoning device, the other edge of the plate is borne on the sliding rail part in the other tenoning device, the pressing mechanism presses the edge of the plate on the corresponding sliding rail part and then acts to drive the plate to move on the sliding rail part along the longitudinal direction, and at the moment, the tenoning mechanism obtains the tenon part after tenoning on the moving plate.
Each tenoning mechanism is connected to the corresponding adjusting mechanism respectively, and the adjusting mechanisms can adjust the tenoning mechanisms connected to the tenoning mechanisms to different angles and positions, so that different parts on the plate can be machined and cut by each tenoning mechanism, on one hand, tenon parts in different shapes can be machined, and on the other hand, special-shaped tenon parts can be machined by the cooperation of at least two tenoning mechanisms; wherein, the tenon part can be a tenon or a mortise.
Drawings
FIG. 1 is a top view of the tenoner of the present invention;
FIG. 2 is a schematic view of the tenoning apparatus of the present invention;
FIG. 3 is a schematic view of the structure of the nip mechanism of the present invention;
FIG. 4 is a detail view of a portion of FIG. 3;
FIG. 5 is a schematic structural view of a mortise and tenon adjusting mechanism according to the present invention;
FIG. 6 is a schematic structural view of a feeding mechanism of the present invention;
fig. 7 is a schematic structural diagram of the movable base of the present invention.
Detailed Description
In order that the present invention may be more readily and clearly understood, a more particular description of the utility model briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.
As shown in fig. 1 to 7, a tenoning machine comprises a base 1 and two tenoning devices 100; wherein the content of the first and second substances,
one of the tenoning devices 100 is connected to the base 1 in a sliding manner along the longitudinal direction and is suitable for tenoning on one edge of the plate 2;
another tenoning device 100 is connected to the base 1 in a transverse sliding mode and is suitable for tenoning on the other edge of the plate 2; specifically, the tenoning devices 100 slide along the transverse direction, so that the distance between the two tenoning devices 100 can be adjusted, and the tenoning devices can be adapted to plates 2 with different widths;
the tenoning device 100 can comprise a movable base 200, a movable driving mechanism, a pressure feeding mechanism 300, at least two tenoning mechanisms 400 and an adjusting mechanism corresponding to the tenoning mechanisms 400; wherein the content of the first and second substances,
the movable seat 200 is slidably connected to the base 1, and a slide rail portion 3 suitable for supporting the edge portion of the plate 2 is arranged on the movable seat 200;
the pressing and feeding mechanism 300 is connected to the moving base 200 and is adapted to operate to press the edge of the plate material 2 against the rail portion 3 and to drive the plate material 2 to move in the longitudinal direction on the rail portion 3; specifically, the length direction of the rail part is arranged along the longitudinal direction;
the tenoning mechanism 400 is connected to the corresponding adjusting mechanism;
the adjusting mechanism is connected to the moving seat 200 and is adapted to be actuated to drive the corresponding tenoning mechanism 400 to move to a proper angle and position, so that the tenoning mechanism 400 tenons the corresponding edge of the moving plate 2;
the moving driving mechanism is connected with the moving seat 200 and is suitable for acting to drive the moving seat 200 to slide on the base 1 to a proper position; specifically, the tenoning device 100 is slidably connected to the base 1 through the moving seat 200;
in this embodiment, one edge of the plate 2 is supported by the rail 3 of one of the tenoning devices 100, the other edge of the plate 2 is supported by the rail 3 of the other tenoning device 100, and the pressing mechanism 300 presses the edge of the plate 2 against the corresponding rail 3 to drive the plate 2 to move on the rail 3 in the longitudinal direction, so that the tenoning mechanism 400 tenons the moving plate 2 to obtain a tenon. More specifically, each tenoning mechanism 400 is respectively connected to a corresponding adjusting mechanism, and the adjusting mechanisms can adjust the tenoning mechanisms 400 connected thereto to different angles and positions, so that each tenoning mechanism 400 can machine and cut different parts on the plate 2, on one hand, tenon parts with different shapes can be machined, and on the other hand, special-shaped tenon parts can be machined by cooperatively machining at least two tenoning mechanisms 400; wherein, the tenon part can be a tenon or a mortise. In this embodiment, each tenoning device 100 is provided with 6 tenoning mechanisms 400, each tenoning mechanism 400 only processes a part of the tenon portion, and the 6 tenoning mechanisms 400 are combined and processed to finally obtain the special-shaped tenon portion.
As shown in fig. 1, 3 and 5, the adjusting mechanism is, for example, but not limited to, a structure including a vertical slide 4, a vertical driving mechanism, a horizontal slide 5, a horizontal driving mechanism, a rotary base 6 and a rotary driving mechanism; wherein the content of the first and second substances,
the vertical sliding seat 4 is connected to the moving seat 200 in a sliding manner along the vertical direction;
the vertical driving mechanism is connected between the mobile seat 200 and the vertical sliding seat 4 and is suitable to be actuated to drive the vertical sliding seat 4 to slide relative to the mobile seat 200;
the transverse sliding seat 5 is connected to the vertical sliding seat 4 in a transverse sliding manner;
the transverse driving mechanism is connected between the vertical sliding seat 4 and the transverse sliding seat 5 and is suitable for being operated to drive the transverse sliding seat 5 to slide relative to the vertical sliding seat 4;
the rotating seat 6 is rotatably connected to the transverse sliding seat 5;
the rotary driving mechanism is connected between the transverse sliding seat 5 and the rotary seat 6 and is suitable for being operated to drive the rotary seat 6 to rotate relative to the transverse sliding seat 5;
the tenoning mechanism 400 is connected to the rotating seat 6, and the vertical position, the horizontal position and the angle of the tenoning mechanism 400 can be adjusted through the adjusting mechanism; in this embodiment, the mortise mechanism 400 may include a mortise motor and a mortise saw connected to the mortise motor.
As shown in fig. 1, 3 and 5, the vertical driving mechanism includes, for example but not limited to, the following structure:
a first nut 7 connected to the vertical slide 4;
a first screw 8 connected to the movable base 200 in a rotating manner and in threaded connection with the first nut 7, the first screw 8 being adapted to be driven to rotate so as to move the first nut 7 and the vertical sliding base 4;
such as, but not limited to, the following, the transverse drive mechanism comprising:
a second nut 9 connected to the vertical slide 4;
a second screw 10 connected to the transverse slide 5 in a rotating manner and in threaded connection with the second nut 9, the second screw 10 being adapted to be driven in rotation to move the second nut 9 and the transverse slide 5;
the rotary driving mechanism is, for example and without limitation, a structure including:
a worm wheel 11 connected to the rotary base 6;
a worm 12 rotatably connected to the transverse sliding base 5 and cooperatively connected with the worm wheel 11, wherein the worm 12 is adapted to be driven to rotate so as to drive the worm wheel 11 and the rotary base 6 to rotate; in this embodiment, the first screw 8, the second screw 10 and the worm 12 are respectively provided with a screwing portion adapted to cooperate with a wrench, and the screwing portions are hexagonal structures.
As shown in fig. 1 to 4, the pressing and feeding mechanism 300 includes, for example but not limited to, the following structures:
a pressure feeding base 13, wherein the pressure feeding base 13 is connected to the movable base 200;
a main guide wheel 14 and a driven guide wheel 15, wherein the main guide wheel 14 and the driven guide wheel 15 are respectively connected on the pressure feed base 13 in a rotating way;
a press belt 16, wherein the press belt 16 is connected to the main guide wheel 14 and the auxiliary guide wheel 15 to form an upper belt body 17 and a lower belt body 18;
at least one pressing mechanism 19, a pressing wheel 20 is arranged in the pressing mechanism 19, and the pressing mechanism 19 is suitable for acting to drive the pressing wheel 20 to abut against the lower belt body 18 so that the lower belt body 18 presses the plate 2 on the slide rail part 3;
the power mechanism 21 is connected with the main guide wheel 14 and is suitable for driving the main guide wheel 14 to rotate, so that the pressing belt 16 is driven to move to drive the pressed plate 2 to move on the sliding rail part 3 along the longitudinal direction; specifically, the pressing belt 16 may be a synchronous belt, a friction force between the synchronous belt and the plate 2 is greater than a friction force between the sliding rail portion 3 and the plate 2, so that the synchronous belt can drive the plate 2 to slide on the sliding rail, and the power mechanism 21 is a motor.
As shown in fig. 3 and 4, the press-feeding mechanism 300 may further include at least one supporting wheel 22, wherein the supporting wheel 22 is rotatably connected to the press-feeding base 13 and is adapted to abut against the lower surface of the upper belt 17 to support the upper belt 17;
the pressing mechanism 19 is arranged between the upper belt body 17 and the lower belt body 18; in particular, the support wheels 22 are provided to upwardly support the upper belt body 17 to increase the distance between the upper belt body 17 and the lower belt body 18, thereby allowing sufficient space for the pressing mechanism 19.
As shown in fig. 3 and 4, the pressing mechanism 19 includes, for example, but not limited to, a pressing cylinder 23, a slider 24, and the pressing wheel 20; wherein the content of the first and second substances,
the cylinder body of the pressing cylinder 23 is connected to the pressure feeding base 13;
the sliding block 24 is connected to the pressure feeding base 13 in a sliding manner and is connected with a piston rod of the compacting cylinder 23;
the pressing wheel 20 is connected to the lower end of the sliding block 24 and is suitable for abutting against the upper surface of the lower belt body 18; in this embodiment, the pressing mechanism 19 is provided in plurality and arranged in series in the longitudinal direction between the main guide roller 14 and the sub guide roller 15.
In this embodiment, the pumping seat 13 is slidably connected to the movable seat 200 in the vertical direction;
a lifting driving mechanism which is suitable for driving the pressure feeding base 13 to slide relative to the movable base 200 is arranged between the pressure feeding base 13 and the movable base 200; the purpose of this design is that the distance between the lower belt 18 and the slide rail 3 can be adjusted by sliding the press-feed base 13 in the vertical direction, so as to adapt to the sheet materials 2 with different thicknesses.
As shown in fig. 3, the elevating driving mechanism may include at least two worm gear cases 25 sequentially arranged in a longitudinal direction and connected to the moving base 200;
the input shafts of the adjacent worm gear cases 25 are in transmission connection through a connecting rod 26;
the output shaft of the worm gear box 25 is connected with a lifting screw rod;
the pressure feeding base 13 is connected with a lifting nut which corresponds to the lifting screw rod and is in threaded connection with the corresponding lifting screw rod;
the input shaft of the worm gear case 25 is also connected with a driving source so that the driving source drives the input shaft of the worm gear case 25 to rotate; specifically, the driving source drives the input shaft of one of the worm gear boxes 25 to rotate, so as to drive the input shafts of all the worm gear boxes 25 to rotate through the connecting rod 26, so as to drive the output shafts of the worm gear boxes 25 to rotate, and further drive the pressure feeding base 13 to lift up and down through the lifting screw rod and the lifting nut; the specific structure of the worm gear case 25 is the prior art well known to those skilled in the art, and is not described in detail in this embodiment; in this embodiment, the driving source may be a servo motor.
As shown in fig. 1, 2 and 6, the tenoning device 100 may further include a feeding mechanism 500 adapted to feed the sheet material 2 onto the sliding rail portion 3, wherein the feeding mechanism 500 may be, for example, but not limited to, the following structure, which includes:
two bearing wheels 27 rotatably connected to the movable base 200;
the feeding motor is connected to the moving seat 200, and an output shaft of the feeding motor is connected with a driving wheel 28;
a feeding belt 29 connected to said driving wheel 28 and to said two carrying wheels 27 and suitable for carrying said sheet 2; specifically, the feeding motor drives the driving wheel 28 to rotate, so as to drive the feeding belt 29 to move, and further, the plate 2 is conveyed to the sliding rail part 3.
As shown in fig. 1, 2 and 7, the movable base 200 may include a sliding platform 30 and at least one upright 31;
the sliding table 30 is connected to the base 1 in a sliding manner;
the upright column 31 is connected to the sliding table 30;
the slide rail part 3 is connected to the upright column 31;
the adjusting mechanism is connected to the upright 31.
In this embodiment, the pressure-feed base 13 is slidably connected to the column 31, the worm gear case 25 is connected to the column 31, and the slide table 30 is slidably connected to the base 1 through a linear guide.
In this embodiment, the movement driving mechanism includes a movement screw, a movement nut, and a movement motor; wherein the content of the first and second substances,
the movable screw rod is rotationally connected to the base 1;
the movable nut is connected to the sliding table 30 and is in threaded connection with the movable screw rod;
the moving motor is connected with the moving screw rod and is suitable for acting to drive the moving screw rod to rotate, and further drives the moving nut and the sliding table 30 to move.
The working principle of the utility model is as follows:
one edge of the plate 2 is carried on the slide rail part 3 of one tenoning device 100, the other edge of the plate 2 is carried on the slide rail part 3 of the other tenoning device 100, the pressing and conveying mechanism 300 presses the edge of the plate 2 on the corresponding slide rail part 3 and then acts to drive the plate 2 to move on the slide rail part 3 along the longitudinal direction, and at the moment, the tenoning mechanism 400 tenons the moving plate 2 to obtain a tenon part.
Each tenoning mechanism 400 is respectively connected to a corresponding adjusting mechanism, and the adjusting mechanisms can adjust the tenoning mechanisms 400 connected to the tenoning mechanisms to different angles and positions, so that different parts on the plate 2 can be machined and cut by each tenoning mechanism 400, on one hand, tenons in different shapes can be machined, and on the other hand, special-shaped tenons can be machined by the cooperation of at least two tenoning mechanisms 400; wherein, the tenon part can be a tenon or a mortise.
The above embodiments are described in further detail to solve the technical problems, technical solutions and advantages of the present invention, and it should be understood that the above embodiments are only examples of the present invention and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A tenoning machine is characterized by comprising a base (1) and two tenoning devices (100); wherein the content of the first and second substances,
one of the tenoning devices (100) is connected to the base (1) in a sliding mode along the longitudinal direction and is suitable for tenoning on one edge of the plate (2);
another tenoning device (100) is connected on the base (1) in a transverse sliding mode and is suitable for tenoning on the other edge of the plate (2);
the tenoning device (100) comprises a movable base (200), a movable driving mechanism, a pressure feeding mechanism (300), at least two tenoning mechanisms (400) and adjusting mechanisms corresponding to the tenoning mechanisms (400); wherein the content of the first and second substances,
the movable seat (200) is connected to the base (1) in a sliding mode, and a sliding rail part (3) suitable for supporting the edge part of the plate (2) is arranged on the movable seat (200);
the pressing and feeding mechanism (300) is connected to the moving base (200) and is suitable for acting to press the edge of the plate material (2) on the slide rail part (3) and drive the plate material (2) to move on the slide rail part (3) along the longitudinal direction;
the tenon opening mechanism (400) is connected to the corresponding adjusting mechanism;
the adjusting mechanism is connected to the moving seat (200) and is suitable for being actuated to drive the corresponding tenoning mechanism (400) to move to a proper angle and position, so that the tenoning mechanism (400) tenons on the corresponding edge of the moving plate (2);
the moving driving mechanism is connected with the moving seat (200) and is suitable for acting to drive the moving seat (200) to slide in place on the base (1).
2. The tenoning machine according to claim 1, characterized in that the adjustment mechanism comprises a vertical slide (4), a vertical drive mechanism, a transverse slide (5), a transverse drive mechanism, a swivel (6) and a rotary drive mechanism; wherein the content of the first and second substances,
the vertical sliding seat (4) is connected to the moving seat (200) in a sliding manner along the vertical direction;
the vertical driving mechanism is connected between the moving seat (200) and the vertical sliding seat (4) and is suitable for being actuated to drive the vertical sliding seat (4) to slide relative to the moving seat (200);
the transverse sliding seat (5) is connected to the vertical sliding seat (4) in a transverse sliding manner;
the transverse driving mechanism is connected between the vertical sliding seat (4) and the transverse sliding seat (5) and is suitable for being actuated to drive the transverse sliding seat (5) to slide relative to the vertical sliding seat (4);
the rotating seat (6) is rotatably connected to the transverse sliding seat (5);
the rotary driving mechanism is connected between the transverse sliding seat (5) and the rotary seat (6) and is suitable for being acted to drive the rotary seat (6) to rotate relative to the transverse sliding seat (5);
the tenoning mechanism (400) is connected to the rotating base (6).
3. The tenoner of claim 2,
the vertical driving mechanism includes:
a first nut (7) connected to the vertical slide (4);
a first screw (8) rotatably connected to the movable base (200) and in threaded connection with the first nut (7), the first screw (8) being adapted to be driven to rotate so as to drive the first nut (7) and the vertical slide (4) to move;
and/or the lateral drive mechanism comprises:
a second nut (9) connected to the vertical slide (4);
a second screw (10) rotatably connected to the transverse slide (5) and in threaded connection with the second nut (9), the second screw (10) being adapted to be driven in rotation to move the second nut (9) and the transverse slide (5);
and/or the rotary drive mechanism comprises:
a worm wheel (11) connected with the rotary base (6);
and the worm (12) is rotatably connected to the transverse sliding seat (5) and is in fit connection with the worm wheel (11), and the worm (12) is suitable for being driven to rotate so as to drive the worm wheel (11) and the rotating seat (6) to rotate.
4. The tenoner of claim 1, wherein the pressure feed mechanism (300) comprises:
a pressure feeding base (13), wherein the pressure feeding base (13) is connected to the movable base (200);
the main guide wheel (14) and the driven guide wheel (15), and the main guide wheel (14) and the driven guide wheel (15) are respectively connected to the pressure feed base (13) in a rotating mode;
the pressing belt (16) is connected to the main guide wheel (14) and the auxiliary guide wheel (15) to form an upper belt body (17) and a lower belt body (18);
at least one pressing mechanism (19), wherein a pressing wheel (20) is arranged in the pressing mechanism (19), and the pressing mechanism (19) is suitable for acting to drive the pressing wheel (20) to abut against the lower belt body (18) so that the lower belt body (18) presses the plate (2) on the sliding rail part (3);
the power mechanism (21) is connected with the main guide wheel (14) and is suitable for driving the main guide wheel (14) to rotate, and then the pressing conveying belt (16) is driven to move so as to drive the pressed plate (2) to move on the sliding rail part (3) along the longitudinal direction.
5. The tenoner of claim 4, wherein the press feed mechanism (300) further comprises at least one support wheel (22), the support wheel (22) being rotatably connected to the press feed block (13) and adapted to bear against a lower surface of the upper tie body (17) to jack up the upper tie body (17);
the pressing mechanism (19) is arranged between the upper belt body (17) and the lower belt body (18).
6. The tenoner according to claim 4 wherein the hold down mechanism (19) includes a hold down cylinder (23), a slide (24) and the hold down wheel (20); wherein the content of the first and second substances,
the cylinder body of the pressing cylinder (23) is connected to the pressure feeding base (13);
the sliding block (24) is connected to the pressure feeding base (13) in a sliding mode and is connected with a piston rod of the pressing cylinder (23);
the pressing wheel (20) is connected to the lower end part of the sliding block (24) and is suitable for being abutted against the upper surface of the lower belt body (18).
7. The tenoner of claim 4,
the pressure feeding base (13) is connected to the moving base (200) in a sliding mode along the vertical direction;
a lifting driving mechanism which is suitable for driving the pressure feeding base (13) to slide relative to the movable base (200) is arranged between the pressure feeding base (13) and the movable base (200).
8. Tenoner according to claim 7, where the lifting drive comprises at least two worm gear cases (25) arranged one after the other in the longitudinal direction and connected to the moving bed (200);
the input shafts of the adjacent worm gear boxes (25) are in transmission connection through a connecting rod (26);
an output shaft of the worm gear box (25) is connected with a lifting screw rod;
the pressure feeding base (13) is connected with a lifting nut which corresponds to the lifting screw rod and is in threaded connection with the corresponding lifting screw rod;
the input shaft of the worm gear case (25) is also connected with a driving source so that the driving source drives the input shaft of the worm gear case (25) to rotate.
9. Tenoning machine according to claim 1, characterized in that the tenoning device (100) further comprises a feeding mechanism (500) adapted to feed the boards (2) onto the runner section (3), the feeding mechanism (500) comprising:
two bearing wheels (27) rotatably connected to the movable base (200);
the feeding motor is connected to the moving seat (200), and an output shaft of the feeding motor is connected with a driving wheel (28);
a feeding belt (29) connected to said driving wheel (28) and to said two carrying wheels (27) and adapted to carry said sheet material (2).
10. The tenoner of claim 1,
the moving seat (200) comprises a sliding table (30) and at least one upright post (31);
the sliding table (30) is connected to the base (1) in a sliding manner;
the upright column (31) is connected to the sliding table (30);
the sliding rail part (3) is connected to the upright post (31);
the adjusting mechanism is connected to the upright column (31).
CN202121630415.9U 2021-07-16 2021-07-16 Tenoning machine Active CN216099460U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121630415.9U CN216099460U (en) 2021-07-16 2021-07-16 Tenoning machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121630415.9U CN216099460U (en) 2021-07-16 2021-07-16 Tenoning machine

Publications (1)

Publication Number Publication Date
CN216099460U true CN216099460U (en) 2022-03-22

Family

ID=80723186

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121630415.9U Active CN216099460U (en) 2021-07-16 2021-07-16 Tenoning machine

Country Status (1)

Country Link
CN (1) CN216099460U (en)

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