CN112895025A - A numerical control edge milling machine for processing of wood system pizza dish - Google Patents

Abstract

The invention belongs to the technical field of pizza plate milling, and particularly relates to a numerical control edge milling machine for processing a wooden pizza plate, which comprises a rotary table mechanism, wherein the rotary table mechanism comprises a rotatable rotary table, and the rotary table is used for placing a wooden plate to be milled; a milling mechanism; the transverse displacement mechanism can control the milling mechanism to horizontally and transversely reciprocate; the vertical displacement mechanism can control the milling mechanism to move up and down in the vertical direction; the controller is respectively connected with the rotary table control mechanism, the milling mechanism, the transverse displacement mechanism and the vertical displacement mechanism and controls the mechanisms to be matched with the edge of the milled wood plate material; the problem of the not high degree of automation of the timber border processing operation that prior art exists is solved, with numerical control technique with mill the technique and fully combine and use the wood working field, can mill the shaping with pizza dish full-automatic to reduce artifical intensity of labour, and avoid milling the artifical potential safety hazard that carries out the stock circulation and cause of in-process.

Description

A numerical control edge milling machine for processing of wood system pizza dish

Technical Field

The invention belongs to the technical field of pizza tray milling, and particularly relates to a numerical control edge milling machine for processing a wooden pizza tray.

Background

Along with the improvement of people's standard of living, people are more and more high to the requirement of wooden furniture to along with the popularization of internet shopping mode, more and more people like to use the long-range furniture of ordering of network shopping mode, and the selling room of furniture is for saving the transportation space, generally adopts the form of assembling again in the place that the transportation reachs to the great furniture of volume, and a plurality of furniture component is processed out in advance according to the shape of furniture, size of a dimension promptly, assembles each component after transporting to user's family. The connecting members of such fabricated furniture are often provided with dovetail grooves and curved edges. The cutting of the edges on the wood panel material is usually carried out by means of a milling machine.

Milling machines used for existing kitchen ware accessories are large in size, for example, a pizza tray can be machined only by one step, if a wood plate needs to be machined, a plurality of milling machines need to be purchased, different machining steps are correspondingly machined, and the investment cost is too high and burdensome for workshop-type manufacturers with weak economic strength; meanwhile, the degree of automation of the existing milling machine is not high, the investment cost is low during operation, but the slotting efficiency is too low due to the manual operation, and the milling machine is only suitable for temporarily processing wood plates on site and is not suitable for batch-type edge milling operation of pizza trays.

Disclosure of Invention

In order to solve the problem that the automation degree of the wood edge machining operation is not high in the prior art, the scheme provides a numerical control edge milling machine for machining a wooden pizza tray, the numerical control technology is fully combined with the milling technology and applied to the field of wood machining, and the full-automatic milling and forming of a wooden plate can be realized, so that the labor intensity of workers is reduced, and the potential safety hazard caused by blank flowing in the milling process is avoided.

The technical scheme adopted by the invention is as follows:

a numerical control edge milling machine for processing wooden pizza plates comprises:

the rotary table mechanism comprises a rotatable rotary table, and the rotary table is used for placing a wood plate material to be milled;

the milling mechanism comprises a milling motor and a milling cutter, the milling cutter is connected to a rotating shaft of the milling motor, and the milling cutter can mill a wood plate material;

the transverse displacement mechanism can control the milling mechanism to horizontally and transversely reciprocate;

the vertical displacement mechanism can control the milling mechanism to move up and down in the vertical direction;

and the controller is respectively connected with the rotary table control mechanism, the milling mechanism, the transverse displacement mechanism and the vertical displacement mechanism and controls the mechanisms to be matched with the edge of the milled wood plate.

Optionally: a column pressing mechanism is arranged right above the rotary table mechanism and comprises a telescopic device, a telescopic table, a telescopic column sleeve and a telescopic head; the telescopic shaft of the telescopic device is vertically arranged downwards, the telescopic column sleeve is rotatably connected to the lower end of the telescopic shaft, and the telescopic head is connected to the lower end of the telescopic column sleeve.

Optionally: the protruding toper portion that forms in last border department of flexible column jacket is equipped with the external member that resets at the telescopic shaft overcoat, and the lower border department of resetting the external member is provided with the breach groove of cooperating the toper portion card to go into, and when the telescopic shaft rose, the inclined plane in breach groove was twisted round along flexible column jacket.

Optionally: the rotary table mechanism also comprises a rotary table motor; the rotary table comprises an upper rotary table and a lower rotary table; the rotary table motor is connected below the lower rotary table and is used for driving the lower rotary table to rotate; the lower rotary table is disc-shaped, a plurality of calibration chutes are arranged on the upper end surface of the lower rotary table, and the calibration chutes are distributed in a star shape and are arranged along the radial direction of the lower rotary table; all the calibration chutes are internally provided with slidable calibration slide blocks; the upper rotary table is connected to the calibration slide block through a connecting column, and the upper rotary table and the lower rotary table are coaxial and used for placing wood plates to be milled.

Optionally: the numerical control edge milling machine also comprises a positioning mechanism, wherein the positioning mechanism comprises a positioning seat, a connecting block, a transverse telescopic rod, a vertical positioning table and a vertical positioning block; the connecting block is fixed on the positioning seat, and the transverse telescopic rod is slidably arranged on the connecting block and can be close to or far away from the rotary table; vertical positioning platform is connected in the one end that horizontal telescopic link is close to the revolving stage, and vertical locating piece slidable sets up on vertical positioning platform and can vertical lift.

Optionally: the positioning mechanisms comprise two groups, the transverse telescopic rods of the two groups of positioning mechanisms are respectively arranged along different radial directions of the rotary table mechanism, and the telescopic directions of the transverse telescopic rods of the two groups of positioning mechanisms are mutually vertical.

Optionally: the transverse displacement mechanism comprises a transverse control motor, a transverse sliding seat, a transverse threaded rod, a transverse sliding rail, a transverse sliding block and a transverse sliding table; the transverse control motor is connected on the transverse sliding seat and can drive the transverse threaded rod, the transverse sliding rail is arranged on the transverse sliding seat and is parallel to the transverse threaded rod, the transverse sliding block is arranged on the transverse sliding rail in a sliding mode, and the transverse sliding table is in threaded fit with the transverse threaded rod.

Optionally: the vertical displacement mechanism comprises a vertical control motor, a vertical sliding seat, a vertical threaded rod, a vertical sliding rail, a vertical sliding block and a vertical sliding table; the vertical sliding seat is connected to the transverse sliding table and is connected with the transverse sliding block; vertical control motor connects on vertical slide and can drive vertical threaded rod, and vertical slide rail setting is on vertical slide and be on a parallel with vertical threaded rod, and vertical slider slidable sets up on vertical slide rail, vertical slip table and vertical threaded rod screw-thread fit.

Optionally: the milling mechanism further comprises a triangular milling seat, the milling seat is connected to the vertical sliding table and connected with the vertical sliding block, and the milling motor is fixed to the milling seat and controlled to ascend and descend by the vertical displacement mechanism or controlled to transversely move by the transverse displacement mechanism.

Optionally: the numerical control edge milling machine also comprises a machine cabinet, wherein the machine cabinet is provided with an upper beam and a dust port, and the dust port is arranged on the inclined lower side of the rotary table; the upper beam and two support columns below the upper beam form a portal frame; the transverse displacement mechanism is arranged on the upper cross beam, the vertical displacement mechanism is arranged on the transverse displacement mechanism, and the milling mechanism is arranged on the vertical displacement mechanism.

The invention has the beneficial effects that:

1. the problem that the automation degree of the pizza tray edge processing operation in the prior art is low is solved, the numerical control technology and the milling technology are fully combined and applied to the field of wood processing, and a wood plate can be fully automatically milled into the pizza tray, so that the labor intensity of workers is reduced, and potential safety hazards caused by blank flowing in the milling process manually are avoided;

2. according to the scheme, displacement control is realized through the transverse displacement mechanism and the vertical displacement mechanism respectively, and the rotary table mechanism is matched to rotate, so that the milling and forming of the edge of the pizza tray can be completed quickly, the whole process is completed by equipment numerical control, the vertical displacement mechanism not only can realize the position calibration of a milling cutter in the vertical direction, but also can simultaneously stack a plurality of wood plates on the rotary table mechanism, and the vertical displacement mechanism is used for carrying out position control to mill each wood plate respectively;

3. the column pressing mechanism in the scheme can press the wood plate materials from the upper side of the wood plate materials, the processing of the plurality of wood plate materials is general, in addition, the conical part and the reset external member enable the telescopic column sleeve to reset the position, the unification of pizza trays produced in batches on the shape is facilitated, and the equipment error in the edge milling process is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of a numerically controlled edge milling machine according to the present embodiment;

FIG. 2 is a structural diagram of the relative positions of the displacement mechanism and the turntable mechanism in the present solution;

FIG. 3 is a detailed structural view of the plunger mechanism in the present embodiment;

FIG. 4 is a detailed structural view of the displacement mechanism in the present embodiment;

FIG. 5 is a detailed structural view of the positioning mechanism in the present embodiment;

FIG. 6 is a detailed structural view of the turntable mechanism;

fig. 7 is a structural view of a pizza tray.

In the figure: 1-a cabinet; 11-an upper beam; 12-dust port; 2-a lateral displacement mechanism; 21-transverse control motor; 22-a transverse slide; 23-a transverse threaded rod; 24-a transverse slide rail; 25-transverse slide block; 26-a transverse slipway; 3-a vertical displacement mechanism; 31-a vertical slide; 32-vertical slide block; 33-vertical sliding rails; 34-vertical threaded rod; 35-vertical control motor; 4-a milling mechanism; 41-milling the motor; 42-a milling tool; 43-a milling seat; 5-a column pressing mechanism; 51-a telescopic shaft; 52-a retractor; 53-telescoping table; 54-telescopic column sleeve; 55-telescoping head; 56-a conical portion; 57-a reduction kit; 6-a controller; 7-a positioning mechanism; 71-positioning seat; 72-connecting block; 73-transverse telescopic rods; 74-a vertical positioning table; 75-vertical positioning blocks; 8-a turntable mechanism; 81-a turntable motor; 82-a lower turntable; 83-calibration chute; 84-calibrating the slide block; 85-connecting column; 86-upper turntable; 9-pizza tray.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the embodiments or the description in the prior art, it is obvious that the following description of the structure of the drawings is only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

The technical solution provided by the present invention will be described in detail by way of embodiments with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

In some instances, some embodiments are not described or not in detail, as they are conventional or customary in the art.

Furthermore, the technical features described herein, or the steps of all methods or processes disclosed, may be combined in any suitable manner in one or more embodiments, in addition to the mutually exclusive features and/or steps. It will be readily appreciated by those of skill in the art that the order of the steps or operations of the methods associated with the embodiments provided herein may be varied. Any order in the drawings and examples is for illustrative purposes only and does not imply that a certain order is required unless explicitly stated to be required.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The terms "connected" and "coupled" when used in this application, encompass both direct and indirect connections, and also include both direct and indirect connections, where appropriate and without making any inconsistency.

Example 1

As shown in fig. 1, fig. 2, fig. 4, fig. 6 and fig. 7, the present embodiment designs a numerical control edge milling machine for processing wooden pizza trays, which includes a cabinet 1, a turntable mechanism 8, a milling mechanism 4, a lateral displacement mechanism 2, a vertical displacement mechanism 3 and a controller 6.

The cabinet 1 is provided with an upper beam 11 and a dust port 12, and the dust port 12 is arranged on the inclined lower side of the rotary table; the upper beam 11 and two support columns below the upper beam form a portal frame; the transverse displacement mechanism 2 is arranged on the upper beam 11, the vertical displacement mechanism 3 is arranged on the transverse displacement mechanism 2, and the milling mechanism 4 is arranged on the vertical displacement mechanism 3. This rack 1 is integral mechanism, can seal above-mentioned mechanism to in the rack 1, and then can guarantee technical staff's operational safety at the full numerical control dish mills the in-process.

The rotary table mechanism 8 comprises a rotatable rotary table, and the circular rotary table can be used for placing wood plates to be milled; the turntable mechanism 8 further comprises a turntable motor 81; the turntable comprises an upper turntable 86 and a lower turntable 82; the turntable motor 81 is connected below the lower turntable 82 and used for driving the lower turntable 82 to rotate; the lower rotary table 82 is disc-shaped, a plurality of calibration chutes 83 are formed in the upper end face of the lower rotary table 82, and the calibration chutes 83 are distributed in a star shape and are arranged along the radial direction of the lower rotary table 82; all the calibration chutes 83 are provided with slidable calibration sliders 84; the upper turntable 86 is connected to the calibration slide 84 by a connecting column 85, the upper turntable 86 being coaxial with the lower turntable 82 and being used for placing the wood veneer material to be milled. The rotary table mechanism 8 comprises an upper rotary table 86 and a lower rotary table 82, the upper rotary table 86 is detachably connected with the lower rotary table 82, and the position of the lower rotary table 82 can be calibrated, so that pizza trays of different sizes can be conveniently matched with different upper rotary tables 86, and further, the fixing and the use are convenient.

The milling mechanism 4 comprises a milling motor 41 and a milling cutter 42, the milling cutter 42 is connected to a rotating shaft of the milling motor 41, and the milling cutter 42 can mill the edge of the pizza disk 9; the milling mechanism 4 further comprises a triangular milling seat 43, the milling seat 43 is connected to the vertical sliding table and connected with the vertical sliding block 32, and the milling motor 41 is fixed on the milling seat 43 and controlled to ascend and descend by the vertical displacement mechanism 3 or controlled to transversely move by the transverse displacement mechanism 2.

The transverse displacement mechanism 2 can control the milling mechanism 4 to horizontally and transversely reciprocate; the transverse displacement mechanism 2 comprises a transverse control motor 21, a transverse sliding seat 22, a transverse threaded rod 23, a transverse sliding rail 24, a transverse sliding block 25 and a transverse sliding table 26; the transverse control motor 21 is connected to the transverse sliding base 22 and can drive the transverse threaded rod 23, the transverse sliding rail 24 is arranged on the transverse sliding base 22 and is parallel to the transverse threaded rod 23, the transverse sliding block 25 is slidably arranged on the transverse sliding rail 24, and the transverse sliding table 26 is in threaded fit with the transverse threaded rod 23. The transverse displacement mechanism 2 is mainly used for processing the pizza plate edge at a uniform height position in cooperation with the rotation of the turntable mechanism 8.

The vertical displacement mechanism 3 can control the milling mechanism 4 to move up and down in the vertical direction; the vertical displacement mechanism 3 comprises a vertical control motor 35, a vertical sliding seat 31, a vertical threaded rod 34, a vertical sliding rail 33, a vertical sliding block 32 and a vertical sliding table; the vertical sliding seat 31 is connected on the transverse sliding table and is connected with the transverse sliding block 25; vertical control motor 35 connects on vertical slide 31 and can drive vertical threaded rod 34, and vertical slide 33 sets up on vertical slide 31 and be on a parallel with vertical threaded rod 34, and vertical slider 32 slidable sets up on vertical slide 33, vertical slip table and the 34 screw-thread fit of vertical threaded rod. The vertical displacement mechanism 3 is mainly used for calibrating the position and switching the vertical position when milling different wood boards.

And the controller 6 is respectively connected with the control rotary table mechanism 8, the milling mechanism 4, the transverse displacement mechanism 2 and the vertical displacement mechanism 3, and controls the mechanisms to be matched with the edge of the pizza tray for milling.

When the pizza tray edge milling device is used, model parameters of a milled pizza tray are input into the controller 6, and the transverse displacement mechanism 2, the vertical displacement mechanism 3 and the rotary table mechanism 8 control the stretching of the milling cutter 42 and the rotating speed of a wooden plate material at different time according to the model parameters, so that the milling and forming of the pizza tray edge are completed.

Example 2

As shown in fig. 1 to 6, in addition to the structure of embodiment 1, a column pressing mechanism 5 is provided directly above the turntable mechanism 8, and the column pressing mechanism 5 includes a telescopic device 52, a telescopic table 53, a telescopic column sleeve 54, and a telescopic head 55; the telescopic shaft 51 of the telescopic device 52 is vertically arranged downwards, the telescopic column sleeve 54 is rotatably connected to the lower end of the telescopic shaft 51, and the telescopic head 55 is connected to the lower end of the telescopic column sleeve 54. The upper edge of the telescopic column sleeve 54 protrudes to form a conical part 56, the telescopic shaft 51 is sleeved with a resetting sleeve 57, the lower edge of the resetting sleeve 57 is provided with a notch groove which is clamped in by matching with the conical part 56, and when the telescopic shaft 51 ascends, the telescopic column sleeve 54 twists along the inclined plane of the notch groove.

Above compression leg mechanism 5 not only can be followed the flitch material and pushed down the flitch material, realize that complex flitch material adds man-hour, also need not to change milling device's structure, improve the commonality, in addition, toper portion 56 and reset external member 57 make flexible post cover 54 carry out the position reset, flexible post cover 54 takes place the off-centre easily in long-term use, when eccentric flexible post cover 54 takes place to rotate, cause the dislocation of flitch material easily, and the position through resetting flexible post cover 54 can be favorable to reducing the influence of off-centre to the pizza dish of processing, and then be favorable to the unification of pizza dish of batch production on the shape, reduce the equipment error of edge milling in-process.

Example 3

As shown in fig. 1 to 7, on the basis of the structure of embodiment 1 or embodiment 2, the numerical control edge milling machine for processing a wooden pizza tray of this embodiment further includes two positioning mechanisms 7, where each positioning mechanism 7 includes two groups, and each group of positioning mechanism 7 includes a positioning seat 71, a connecting block 72, a transverse telescopic rod 73, a vertical positioning table 74 and a vertical positioning block 75; the connecting block 72 is fixed on the positioning seat 71, and the transverse telescopic rod 73 is slidably arranged on the connecting block 72 and can be close to or far away from the rotary table; the vertical positioning table 74 is connected to one end, close to the rotary table, of the transverse telescopic rod 73, and the vertical positioning block 75 is slidably arranged on the vertical positioning table 74 and can vertically lift; the transverse telescopic rods 73 of the two groups of positioning mechanisms 7 are respectively arranged along different radial directions of the rotary table mechanism 8, and the telescopic directions of the transverse telescopic rods 73 of the two groups of positioning mechanisms 7 are mutually vertical.

This positioning mechanism 7 mainly places the location on the last revolving stage 86 with the flitch material, and the flitch material of waiting to mill is squarely, and when square right angle two times leaned on respectively to vertical locating piece 75, just can realize the location of flitch material, can fix a position fast to improve the work efficiency of pizza dish 9 processing.

The above examples are merely for clearly illustrating the examples and are not intended to limit the embodiments; other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of the invention may be made without departing from the scope of the invention.

Claims (10)

1. A numerical control edge milling machine for processing wooden pizza plates is characterized in that: the method comprises the following steps:

the rotary table mechanism (8), the rotary table mechanism (8) includes the rotatable revolving table, the revolving table is used for placing the timber stock to be milled;

the milling mechanism (4), the milling mechanism (4) comprises a milling motor (41) and a milling cutter (42), the milling cutter (42) is connected to a rotating shaft of the milling motor (41), and the milling cutter (42) can mill a wood board material;

the transverse displacement mechanism (2) can control the milling mechanism (4) to reciprocate horizontally and transversely;

the vertical displacement mechanism (3) can control the milling mechanism (4) to move up and down in the vertical direction;

and the controller (6) is respectively connected with the rotary table mechanism (8), the milling mechanism (4), the transverse displacement mechanism (2) and the vertical displacement mechanism (3) and controls the mechanisms to be matched with the milling edges of the wood plate materials.

2. A numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 1, characterized in that: a column pressing mechanism (5) is arranged right above the turntable mechanism (8), and the column pressing mechanism (5) comprises a telescopic device (52), a telescopic table (53), a telescopic column sleeve (54) and a telescopic head (55); the telescopic shaft (51) of the telescopic device (52) is vertically arranged downwards, the telescopic column sleeve (54) is rotatably connected to the lower end of the telescopic shaft (51), and the telescopic head (55) is connected to the lower end of the telescopic column sleeve (54).

3. A numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 2, characterized in that: the upper edge of the telescopic column sleeve (54) protrudes to form a conical part (56), a resetting sleeve (57) is sleeved outside the telescopic shaft (51), a notch groove matched with the conical part (56) in a clamped mode is formed in the lower edge of the resetting sleeve (57), and when the telescopic shaft (51) ascends, the telescopic column sleeve (54) twists along the inclined plane of the notch groove.

4. A numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 1, characterized in that: the rotary table mechanism (8) also comprises a rotary table motor (81); the rotary table comprises an upper rotary table (86) and a lower rotary table (82); the rotary table motor (81) is connected below the lower rotary table (82) and is used for driving the lower rotary table (82) to rotate; the lower rotary table (82) is disc-shaped, a plurality of calibration sliding chutes (83) are formed in the upper end face of the lower rotary table (82), and the calibration sliding chutes (83) are distributed in a star shape and are all arranged along the radial direction of the lower rotary table (82); all the calibration chutes (83) are internally provided with a slidable calibration slide block (84); the upper turntable (86) is connected to the calibration slide (84) by a connection column (85), the upper turntable (86) being coaxial with the lower turntable (82) and being used for placing the wood veneer material to be milled.

5. A numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 1, characterized in that: the positioning mechanism (7) comprises a positioning seat (71), a connecting block (72), a transverse telescopic rod (73), a vertical positioning table (74) and a vertical positioning block (75); the connecting block (72) is fixed on the positioning seat (71), and the transverse telescopic rod (73) is arranged on the connecting block (72) in a sliding manner and can be close to or far away from the rotary table; vertical location platform (74) is connected in the one end that horizontal telescopic link (73) is close to the revolving stage, and vertical locating piece (75) slidable sets up on vertical location platform (74) and can vertical lift.

6. The numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 5, characterized in that: the numerical control edge milling machine further comprises two positioning mechanisms (7), the two positioning mechanisms (7) are arranged in two groups, the transverse telescopic rods (73) of the two groups of positioning mechanisms (7) are arranged in different radial directions of the rotary table mechanism (8) respectively, and the telescopic directions of the transverse telescopic rods (73) of the two groups of positioning mechanisms (7) are perpendicular to each other.

7. A numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 1, characterized in that: the transverse displacement mechanism (2) comprises a transverse control motor (21), a transverse sliding seat (22), a transverse threaded rod (23), a transverse sliding rail (24), a transverse sliding block (25) and a transverse sliding table (26); the transverse control motor (21) is connected on the transverse sliding seat (22) and can drive the transverse threaded rod (23), the transverse sliding rail (24) is arranged on the transverse sliding seat (22) and is parallel to the transverse threaded rod (23), the transverse sliding block (25) can be slidably arranged on the transverse sliding rail (24), and the transverse sliding table (26) is in threaded fit with the transverse threaded rod (23).

8. The numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 7, wherein: the vertical displacement mechanism (3) comprises a vertical control motor (35), a vertical sliding seat (31), a vertical threaded rod (34), a vertical sliding rail (33), a vertical sliding block (32) and a vertical sliding table; the vertical sliding seat (31) is connected to the transverse sliding table and is connected with the transverse sliding block (25); vertical control motor (35) are connected on vertical slide (31) and can drive vertical threaded rod (34), and vertical slide rail (33) set up on vertical slide (31) and be on a parallel with vertical threaded rod (34), and vertical slider (32) slidable sets up on vertical slide rail (33), vertical slip table and vertical threaded rod (34) screw-thread fit.

9. The numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 8, wherein: the milling mechanism (4) further comprises a triangular milling seat (43), the milling seat (43) is connected to the vertical sliding table and connected with the vertical sliding block (32), and the milling motor (41) is fixed to the milling seat (43) and controlled to ascend and descend by the vertical displacement mechanism (3) or controlled to transversely move by the transverse displacement mechanism (2).

10. A numerically controlled edge milling machine for the processing of wooden pizza trays according to claim 1, characterized in that: the numerical control edge milling machine further comprises a cabinet (1), wherein an upper cross beam (11) and a dust port (12) are arranged on the cabinet (1), and the dust port (12) is arranged on the inclined lower side of the rotary table; the upper beam (11) and two support columns below the upper beam form a portal frame; the transverse displacement mechanism (2) is arranged on the upper cross beam (11), the vertical displacement mechanism (3) is arranged on the transverse displacement mechanism (2), and the milling mechanism (4) is arranged on the vertical displacement mechanism (3).

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