CN214561654U - Tenon sawing machine with line drawing mechanism - Google Patents

Abstract

The utility model discloses a tenon sawing machine with a line drawing mechanism, which comprises a machine body, wherein the machine body is provided with a processing platform, a processing cutter and a line drawing mechanism, and the processing platform can move along a processing direction; the line drawing mechanism and the processing cutter are sequentially distributed at intervals in the processing direction; the setting-out mechanism includes that first setting-out saw and first setting-out saw driving piece, first setting-out saw driving piece is used for driving first setting-out saw rotates. The utility model discloses a saw tenon machine with drawing line mechanism, it can carry out the setting-out processing through drawing the coping saw before milling, reduces the later stage and mills the tearing condition of product.

Description

Tenon sawing machine with line drawing mechanism

Technical Field

The utility model relates to a carpenter processing equipment technical field especially relates to a saw tenon machine with drawing mechanism.

Background

At present, in numerical control woodworking processing equipment, a workpiece is processed, and generally, the end part and the side part of the workpiece need to be processed, such as drilling, groove milling and the like on the top end or the side edge of the workpiece. The existing machines generally convey workpieces on a machine body, and machining tools are arranged at different stations. When the tenon-and-mortise structure of the carpenter is processed, the processing is mainly carried out through a drill bit, a milling cutter and the like. However, in the actual processing process, the edge end face of the wood board which is easily formed by directly milling is easily torn, and the edge of the finally formed product is not smooth, so that the later polishing operation is required.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a tenon sawing machine with line drawing mechanism, which can perform line drawing processing through a line drawing saw before milling, and reduce the later milling condition of tearing products.

The purpose of the utility model is realized by adopting the following technical scheme:

the tenon sawing machine with the line drawing mechanism comprises a machine body, wherein a processing platform, a processing cutter and the line drawing mechanism are arranged on the machine body, and the processing platform can move along a processing direction; the line drawing mechanism and the processing cutter are sequentially distributed at intervals in the processing direction; the setting-out mechanism includes that first setting-out saw and first setting-out saw driving piece, first setting-out saw driving piece is used for driving first setting-out saw rotates.

Further, drawing mechanism still includes first setting-out saw lifting unit, first setting-out saw lifting unit is used for driving the direction of height motion of first drawing coping saw along the organism.

Further, drawing mechanism still includes a setting-out saw moving member, a setting-out saw moving member is used for driving a setting-out saw and is close to or keeps away from at the horizontal direction machining platform.

Further, draw line mechanism still includes second setting-out saw and second setting-out saw driving piece, second setting-out saw pin joint is on the organism, and second setting-out saw driving piece is used for driving the rotation of second setting-out saw.

Further, at least two are leaned against the board on the processing platform, and each is leaned against the board and supplies two work pieces to lean on respectively, and at least two are leaned against the board and are in distribute gradually in the direction of working.

Further, the abutting plates are provided with two.

Further, a backing plate is arranged on the outer side of the leaning plate which is at the back in the machining direction, and the backing plate is used for placing the workpiece.

Further, the processing cutter is a drill and a milling cutter, and the drill and the milling cutter are both mounted on the machine body and are distributed at intervals in the processing direction.

Furthermore, still be equipped with waste material conveying assembly on the organism, waste material conveying assembly locates the below of drawing line mechanism and processing cutter and is used for receiving the waste material.

Further, the waste conveying assembly comprises a motor, a conveying belt and two conveying rollers, and the two conveying rollers are pivoted at two ends of the machine body in the machining direction; two ends of the conveying belt are respectively pivoted outside the two conveying rollers, and a rotating shaft of the motor is connected with one of the conveying rollers.

Compared with the prior art, the beneficial effects of the utility model reside in that: because in actual course of working, the easy edge of a knife terminal surface that forms is directly milled to the plank tears easily, therefore can cut earlier through first setting-out saw and form the processing wire casing, later stage mill during direct milling in processing wire casing department can, prevent that the terminal surface after the processing is accomplished from tearing, the processing terminal surface of formation is more level and smooth, and the machining precision is higher.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

fig. 3 is a schematic view of a partial structure of the line drawing mechanism of the present invention;

fig. 4 is a schematic view of a partial structure of the line drawing mechanism of the present invention.

In the figure: 10. a body; 20. a line drawing mechanism; 21. a first scroll saw; 22. a second scroll saw; 23. a first scribe saw drive; 24. a first scribe saw lift; 25. a second scribe saw drive; 30. a processing platform; 31. a backup plate; 40. a waste transport assembly; 50. and (5) machining a cutter.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

in the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The tenoner with the line drawing mechanism 20 as shown in fig. 1-4 comprises a machine body 10, wherein a processing platform 30, a processing tool 50 and the line drawing mechanism 20 are arranged on the machine body 10, and the processing platform 30 moves along a processing direction under the driving of a driving piece of the processing platform. The drawing mechanism 20 and the machining tool 50 are sequentially spaced in the machining direction. In addition, the line drawing mechanism 20 includes a first line drawing saw 21 and a first line drawing saw driving member 23, and the first line drawing saw driving member 23 is configured to drive the first line drawing saw 21 to rotate.

On the basis of the structure, use the utility model discloses a during the saw tenon machine of setting-out mechanism 20, can be with the work piece clamping on processing platform 30, processing platform 30 can be along the direction of processing motion under the drive of processing platform driving piece, drives the work piece and passes through first drawing and fretsaw 21 and processing cutter 50 in proper order.

Specifically, when the workpiece is pushed to the first drawing saw 21, the first drawing saw 21 can be driven by the first drawing saw driving part 23 to rotate, the rotating first drawing saw 21 can cut at the bottom edge of the end part of the workpiece to form a processing line groove, and then the processing platform 30 is driven by the processing platform driving part to move to the processing tool 50 for milling.

Because in the actual course of working, the easy edge of a knife terminal surface that forms is directly milled to the plank tears easily, therefore can be earlier through first drawing scroll saw 217 cutting formation processing wire casing, later stage mill during direct milling in processing wire casing department can, prevent that the terminal surface after the processing is accomplished from tearing, the processing terminal surface of formation is more level and smooth, and the machining precision is higher.

Further, the line drawing mechanism 20 further comprises a first line drawing saw lifting piece 24, the first line drawing saw lifting piece 24 is used for driving the first line drawing saw 21 to move along the height direction of the machine body 10, namely the first line drawing saw lifting piece 24 can drive the first line drawing saw 21 to move up and down integrally, on one hand, the first line drawing saw 21 moves up and down, the depth of a line groove cut by the first line drawing saw 21 on a workpiece can be adjusted as required. On the other hand, when two or more workpieces are machined on the workpiece, after the previous workpiece is machined, the first drawing wire saw 21 may be lowered to avoid a gap, and another workpiece may be conveyed to a position, and the first drawing wire saw 21 may be raised again to perform the drawing.

Specifically, the first line drawing saw lifting and lowering member 24 of the present embodiment is a lifting and lowering cylinder. Set up the mount pad on the piston rod top of lift cylinder, with on first drawing coping saw 21 pin joint mount pad, and first setting-out saw driving piece 23 is installed on the mount pad equally, the flexible alright drive mount pad up-and-down motion of piston rod of lift cylinder, and then make first drawing coping saw 21 go up and down.

Further, the line drawing mechanism 20 further comprises a first line drawing saw moving part, the first line drawing saw moving part can drive the first line drawing saw 21 to be close to or far away from the processing platform 30 in the horizontal direction, namely, the first line drawing saw moving part can drive the first line drawing saw 21 to move, and the interval between the first line drawing saw 21 and the processing platform 30 is adjusted, so that the interval between the first line drawing saw 21 and the end part of the workpiece is adjusted, and the processing is facilitated.

Of course, the first scribing saw moving piece can also be selected to be realized by a cylinder structure.

Further, the line drawing mechanism 20 further includes a second line drawing saw 22 and a second line drawing saw driving member 25, the second line drawing saw 22 is pivotally connected to the machine body 10, and the second line drawing saw driving member 25 is configured to drive the second line drawing saw 22 to rotate.

Thus, the second drawing wire saw 22 and the first drawing wire saw 21 are distributed in the front and back direction in the machining direction, the height of the second drawing wire saw 22 can be higher than that of the first drawing wire saw 21, namely, the second drawing wire saw 22 and the first drawing wire saw 21 which are distributed in the front and back direction in the machining direction can respectively draw the bottom ends of the two workpieces, and the machining efficiency is higher.

Of course, the second wire saw 22 can also have another function, that is, after the workpiece is cut by the first wire saw 21 to form a processing slot, the processing platform 30 drives the workpiece to be pushed to the second wire saw 22, and the second wire saw driving part 25 drives the second wire saw 22 to rotate, so that the processing slot can be cut at the top end of the end part of the workpiece. The selection can be specifically carried out according to actual needs.

The first line saw driving member 23 and the second line saw driving member 25 for driving the first line saw 21 and the second line saw 22 to rotate can be implemented by using a motor or a motor-driven transmission mechanism (gear transmission, belt transmission, etc.) in the prior art.

Further, at least two backup plates 31 are arranged on the processing platform 30, each backup plate 31 is used for two workpieces to be backed on, at least two backup plates 31 are sequentially distributed in the processing direction, namely, when the workpieces are clamped, at least two workpieces can be sequentially clamped and backed on the backup plates 31, the positioning precision is high, the backup plates 31 can prevent the workpieces from shifting in the processing process, and therefore the processing platform 30 can move to drive the workpieces to sequentially pass through the first scroll saw 21 and the second scroll saw 22 to perform line drawing and cutting.

Of course, the abutting plate 31 in the present embodiment is provided with two.

Further, a backing plate for placing a workpiece is provided on the outer side of the abutting plate 31 located rearward in the machining direction. Therefore, after the workpiece is clamped in place, the placing height positions of the two workpieces which are distributed in the front and at the back in the machining direction are different.

That is, when the first drawing wire saw 21 moves to the upper side of the first drawing wire saw 21 in the processing direction and the previous workpiece with a lower height moves, the first drawing wire saw 21 can move upwards under the action of the first drawing wire saw lifting piece 24, the first drawing wire saw 21 can process the previous workpiece poisoned in the rotating process, and then the processing platform 30 moves along the processing direction to push the next workpiece to the first drawing wire saw 21, so that the backing plate can avoid the gap, and then the first drawing wire saw 21 moves upwards to process the workpiece.

Further, the processing tool 50 is a drill and a milling cutter, both of which are mounted on the machine body 10 and are distributed at intervals in the processing direction, that is, the workpiece drawn by the line drawing mechanism 20 can move to the processing tool 50 in the moving process of the processing platform 30, and a hole is drilled by the drill, or milling operation is performed by the milling cutter, specifically, the selection is performed according to actual needs.

Furthermore, the machine body 10 is further provided with a scrap conveyor assembly 40, the scrap conveyor assembly 40 is disposed below the line drawing mechanism 20 and the machining tool 50, that is, when line drawing or milling machining is performed, the generated wood chips can fall to the scrap conveyor assembly 40, and the scrap assembly machining wood chips are uniformly output and recovered.

Specifically, the scrap conveying assembly 40 includes a conveying belt and two conveying rollers, which are pivotally connected to two ends of the machine body 10 in the machining direction; the both ends of conveyor belt pin joint outside two conveying rollers respectively, and the conveying roller rotates and can drive conveyor belt and rotate under the drive of motor, and conveyor belt is located the below of processing cutter 50, first drawing coping saw 21, second drawing coping saw 22, and conveyor belt can receive the saw-dust that produces in the course of working, and conveyor belt alright carry the saw-dust to the organism 10 outside, carry out unified recovery.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (10)

1. The sawing and tenoning machine with the line drawing mechanism is characterized by comprising a machine body, wherein a processing platform, a processing cutter and the line drawing mechanism are arranged on the machine body, and the processing platform can move along a processing direction; the line drawing mechanism and the processing cutter are sequentially distributed at intervals in the processing direction; the setting-out mechanism includes that first setting-out saw and first setting-out saw driving piece, first setting-out saw driving piece is used for driving first setting-out saw rotates.

2. The tenoner of claim 1 wherein the line drawing mechanism further includes a first line drawing saw lift for moving the first line drawing saw in a height direction of the frame.

3. The tenoner of claim 2 wherein the line drawing mechanism further includes a first line drawing saw mover for moving the first line drawing saw horizontally toward or away from the work platform.

4. The tenoner of claim 2 wherein the line drawing mechanism further includes a second line drawing saw pivotally connected to the housing and a second line drawing saw drive for rotating the second line drawing saw.

5. The tenoner of any one of claims 2 to 4 wherein there are at least two abutments of the work platform, each abutment being against a respective one of the two work pieces, the at least two abutments being distributed in sequence in the machine direction.

6. The tenoner of claim 5 wherein there are two of said abutment plates.

7. The tenoner of claim 5 wherein a backing plate is provided on the outside of the abutment plate rearward in the machine direction, said backing plate being for the workpiece to rest on.

8. The tenoner of any one of claims 1 to 4 wherein the working tools are drills and mills, the drills and mills being mounted on the body and spaced apart in the working direction.

9. The tenoner of any one of claims 1 to 4 wherein the body further includes a scrap conveyor assembly located beneath the scoring mechanism and the working tool for receiving scrap material.

10. The saw and tenon machine having a line drawing mechanism as claimed in claim 9, wherein the scrap transporting means comprises a motor, a transporting belt, and two transporting rollers pivotally connected to both ends of the machine body in the machine direction; two ends of the conveying belt are respectively pivoted outside the two conveying rollers, and a rotating shaft of the motor is connected with one of the conveying rollers.

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