CN220113525U - Six-sided wood board drilling and milling processing equipment with double main shafts of tool magazine - Google Patents

Abstract

The utility model belongs to the technical field, and provides wood board six-face drilling and milling equipment with a tool magazine double main shaft, which comprises an upper drilling assembly, a lower drilling assembly and a lower drilling assembly, wherein the upper drilling assembly comprises a translation servo motor, a lifting servo motor and an automatic tool changing main shaft, and the translation servo motor and the lifting servo motor respectively drive the automatic tool changing main shaft to move along the direction A and the direction B; and the tool magazine assembly comprises a tool magazine cylinder a, a tool magazine cylinder b and a tool holder, wherein the tool magazine cylinder b and the tool holder are arranged in parallel with the tool magazine cylinder a, the tool magazine cylinder b is arranged on a plate surface, an automatic tool changing spindle is configured by an upper drill group of six-sided drilling and milling processing equipment with the novel structure, the tool magazine assembly on the side of a support is matched, and the double spindle design of a lower spindle a and a lower spindle b in a lower drill assembly is matched, so that the plate processing can be completed at one time by adopting a structure with 2 different tools without stopping and tool changing, and the production efficiency is improved.

Description

Six-sided wood board drilling and milling processing equipment with double main shafts of tool magazine

Technical Field

The utility model belongs to the technical field of six-sided drilling and milling equipment, and particularly relates to wood board six-sided drilling and milling equipment with a tool magazine and double spindles.

Background

The six-sided drilling and milling processing equipment of the conventional single drilling package is provided with 1 drilling package and 1 grooving main shaft in an upper drilling group, and 1 drilling package and 1 grooving main shaft in a lower drilling group. The traditional structure can meet basic technological requirements of drilling, straightening a groove, milling, chamfering and the like. Typically, each particular process corresponds to a particular tool. When a plurality of slotting processes exist on a wood board or the same batch of boards, such as the processes of pulling Mi Nuocao, straightening grooves, milling and the like are arranged on the upper surface and the lower surface of the wood board, the slotting main shaft is required to be provided with a corresponding laminode milling cutter and a corresponding straight-edge milling cutter, the common straight-edge milling cutter cannot meet the requirements of the processes of the laminode grooves, and the process needs to be stopped to replace a cutter on the slotting main shaft or the wood board is required to be sent to another piece of equipment to be processed. The machine halt tool changing and equipment changing processing all need to take a certain time, and the production efficiency can be reduced to a certain extent. If the side surface of the wood plate needs to be grooved and the side surface is processed to be Mi Nuocao, the grooving main shaft needs to be provided with a saw blade and a laminox saw blade. The process of side broaching and side processing of the laminox groove needs to be finished on another device (such as a laminox invisible piece grooving machine) specially used for processing the side of the plate, when the wood plate is partially processed, the original point is needed to be repositioned to be replaced by another device, or a process hole for repositioning is needed to be added on the wood plate, the original point deviation of different layers of the original point can appear when the equipment is replaced, and the qualification rate of the finished product can be seriously influenced.

Disclosure of Invention

The utility model provides six-sided wood board drilling and milling equipment with a tool magazine and double spindles, which solves the problems in the prior art.

The technical scheme of the utility model is realized as follows:

the six-sided wood plate drilling and milling processing equipment with the double main shafts comprises an upper drilling assembly, a lower drilling assembly and a lower drilling assembly, wherein the upper drilling assembly comprises a translation servo motor, a lifting servo motor and an automatic tool changing main shaft, and the translation servo motor and the lifting servo motor respectively drive the automatic tool changing main shaft to move along the direction A and the direction B; the tool magazine assembly comprises a tool magazine cylinder a, a tool magazine cylinder b and a tool shank, wherein the tool magazine cylinder b and the tool shank are arranged in parallel with the tool magazine cylinder a, the tool magazine cylinder b is arranged on a plate surface, the plate surface provided with the tool magazine cylinder b is driven by the tool magazine cylinder a, and the tool shank is driven by the tool magazine cylinder b to move along the direction C; the lower drilling assembly comprises a lower main shaft a, a lower main shaft b which is arranged in parallel with the lower main shaft a, and a lower milling cutter cylinder a and a lower milling cutter cylinder b which are arranged corresponding to the lower main shaft a and the lower main shaft b, wherein the lower milling cutter cylinder a and the lower milling cutter cylinder b are connected with the lower main shaft a and the lower main shaft b through a group of C-shaped frames; and, a bracket.

Furthermore, a bevel gear is arranged at the end part of the output shaft of the translation servo motor, and a bevel rack is arranged at the position of the bracket corresponding to the bevel gear.

Further, go up the brill subassembly and still include slide a, the output shaft tip of lift servo motor is provided with the lead screw, be connected between nut seat and the slide a on the lead screw, automatic tool changing main shaft slides and sets up on slide a.

Further, a knife handle is arranged at the bottom of the automatic knife changing main shaft.

Further, the upper drill assembly further comprises main shaft pressing plate cylinders arranged on two sides of the automatic tool changing main shaft, and a main shaft pressing plate main body is arranged at the end part of the output end of each main shaft pressing plate cylinder.

Further, the drill-down assembly further comprises a fixing plate positioned at the rear side, and the fixing plate is fixedly positioned on the bracket; the device comprises a lower servo motor a, wherein a bevel gear is also arranged at the end part of an output shaft of the lower servo motor a, and a bevel rack is arranged at the position of the bracket corresponding to the bevel gear; and the lower spindle a and the lower spindle b are arranged on the sliding plate b in a sliding way through the sliding block.

Further, the lower drill assembly comprises a milling cutter supporting plate cylinder arranged on the sliding plate b, and a milling cutter supporting plate main body is arranged at the output end of the milling cutter supporting plate cylinder.

After the technical scheme is adopted, the utility model has the beneficial effects that:

according to the utility model, the upper drill group provided with the six-sided drilling and milling processing equipment with the novel structure is provided with the automatic tool changing main shaft, and the tool magazine assembly at the side of the bracket is matched with the double-main-shaft design of the lower main shaft a and the lower main shaft b in the lower drill assembly, so that the structure provided with 2 different tools does not need to stop for tool changing, the plate processing can be completed at one time, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic front view of a six-sided wood board drilling and milling device with a tool magazine and double spindles;

FIG. 2 is a first perspective view of FIG. 1;

FIG. 3 is an enlarged partial schematic view of FIG. 2A;

FIG. 4 is a second perspective view of FIG. 1;

FIG. 5 is an enlarged partial schematic view at B in FIG. 4;

FIG. 6 is an overall schematic of the drill-up assembly;

FIG. 7 is an exploded view of the upper drill assembly;

FIG. 8 is a first overall schematic of the down-drilling assembly;

FIG. 9 is a second overall schematic of the down-drilling assembly;

FIG. 10 is an exploded view of the lower drill assembly;

fig. 11 is an overall schematic view of the tool magazine assembly.

In the drawing the view of the figure,

10. a drill assembly; 20. a tool magazine assembly; 30. a tripping assembly; 40. a bracket; 50. a helical rack; 60. bevel gear; 70. a screw rod;

101. a translation servo motor; 102. a lifting servo motor; 103. a sliding plate a; 104. a main shaft pressing plate cylinder; 105. an automatic tool changing spindle; 106. a main shaft pressing plate main body;

201. a tool magazine cylinder a; 202. a tool magazine cylinder b; 203. a knife handle;

301. a lower spindle a; 302. a lower spindle b; 303. a lower servo motor a; 304. a slide plate b; 305. a lower servo motor b; 306. a lower milling cutter cylinder a; 307. a lower milling cutter cylinder b; 308. a milling cutter pallet body; 309. a milling cutter supporting plate cylinder; 310. drilling a bag; 311. and a fixing plate.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples:

as shown in fig. 1, fig. 4-7 and fig. 11, a six-sided drilling and milling device for a wood board with a tool magazine double spindle comprises an upper drilling assembly 10, a lower drilling assembly and a lower drilling assembly, wherein the upper drilling assembly comprises a translation servo motor 101, a lifting servo motor 102 and an automatic tool changing spindle 105, and the translation servo motor 101 and the lifting servo motor 102 respectively drive the automatic tool changing spindle 105 to move along the direction A and the direction B; the tool magazine assembly 20 comprises a tool magazine cylinder a201, a tool magazine cylinder b202 and a tool holder 203, wherein the tool magazine cylinder b202 and the tool holder 203 are arranged in parallel with the tool magazine cylinder a201, the tool magazine cylinder b202 is arranged on a plate surface, the tool magazine cylinder a201 drives the plate surface provided with the tool magazine cylinder b202 and the tool magazine cylinder b202 drives the tool holder 203 to move along the C direction; and, a bracket 40; a bevel gear 60 is arranged at the end part of the output shaft of the translation servo motor 101, and a bevel gear 50 is arranged at the position of the bracket 40 corresponding to the bevel gear 60; the upper drill assembly 10 further comprises a sliding plate a103, a screw rod 70 is arranged at the end part of an output shaft of the lifting servo motor 102, a nut seat on the screw rod 70 is connected with the sliding plate a103, and an automatic tool changing main shaft 105 is arranged on the sliding plate a103 in a sliding manner; the bottom of the automatic tool changing main shaft 105 is provided with a tool handle 203;

firstly, clamping a plate by a clamping hand (not shown in the drawing) to a machining position, wherein a translation servo motor 101 in an upper drill assembly 10 drives the upper drill assembly 10 to move towards a tool magazine assembly 20, specifically, a bevel gear 60 arranged on the translation servo motor 101 is meshed and rotated along a bevel rack 50 arranged on a bracket 40 to drive the upper drill assembly 10 to move to the tool magazine assembly 20 along 'A' and 'C', then an automatic tool changing spindle 105 on a slide plate a103 is driven to descend to the tool changing position by a lifting servo motor 102, specifically, the lifting servo motor 102 drives a screw 70 to rotate, a nut seat on the screw 70 moves downwards along the screw 70, the nut seat is fixedly connected with the slide plate a103, the slide plate a103 is in sliding connection with the automatic tool changing spindle 105, so that the automatic tool changing spindle 105 is driven to move downwards to the tool changing position along the 'B' direction, an automatic tool changing spindle 105 is pushed to the tool changing position by a tool magazine cylinder a201 and a tool magazine cylinder B202 according to a determined program, then the automatic tool changing spindle 105 on the upper drill assembly 10 is driven to descend to the tool changing position by the lifting servo motor 102, and the tool changing spindle is driven to the tool changing spindle is reset by the tool holder 102, and the tool changing spindle is finished by the lifting servo motor (the tool holder is not reset by the tool holder 203 and the tool changing spindle is driven to be moved to the tool changing position) and the tool changing spindle is moved to the tool changing position;

wherein, as shown in fig. 6, the upper drill assembly 10 further comprises a main shaft pressing plate cylinder 104 arranged at two sides of the automatic tool changing main shaft 105, and a main shaft pressing plate main body 106 is arranged at the output end of the main shaft pressing plate cylinder 104;

before machining, in order to prevent the plate from moving, the main shaft pressing plate main body 106 needs to be driven to descend by the main shaft pressing plate cylinder 104 to compress the plate, and then processes of grooving, milling, corner cutting, machining front side surface laminode grooves and the like of the plate are completed according to control of a preset program;

8-10, the lower drill assembly 30 comprises a lower spindle a301, a lower spindle b302 arranged in parallel with the lower spindle a301, and a lower milling cutter cylinder a306 and a lower milling cutter cylinder b307 which are arranged corresponding to the lower spindle a301 and the lower spindle b302, wherein the lower milling cutter cylinder a306 and the lower milling cutter cylinder b307 are connected with the lower spindle a301 and the lower spindle b302 through a group of C-shaped brackets; the lower drill assembly 30 further includes a fixing plate 311 at the rear side, the fixing plate 311 being fixedly located on the bracket 40; the motor comprises a lower servo motor a303, a bevel gear 60 is also arranged at the end part of an output shaft of the lower servo motor a303, and a bevel gear 50 is arranged at a position corresponding to the bevel gear 60 of the bracket 40; the device comprises a lower servo motor b305, a screw rod 70 is arranged at the end part of an output shaft of the lower servo motor b305, a sliding plate b304 is arranged at the front side of a nut seat of the screw rod 70, a drill bag 310 is further arranged on the sliding plate b304, the drill bag 310 is fixedly arranged on the sliding plate b304, and a lower main shaft a301 and a lower main shaft b302 are arranged on the sliding plate b304 in a sliding manner through a sliding block; the lower drill assembly 30 includes a milling cutter blade cylinder 309 provided on the slide b304, an output end of the milling cutter blade cylinder 309 being provided with a milling cutter blade body 308;

the lower drill assembly 30 can also perform processes such as milling and slotting on the back surface of a plate, specifically, firstly, the plate is moved to a processing position, according to the process requirement, a lower servo motor a303 in the lower drill assembly 30 drives a bevel gear 60 at the end part to move along a bevel gear 50 arranged on a bracket 40, the lower drill assembly 30 is driven to move along an A direction, a lower servo motor B305 drives a screw 70 connected with the end part of an output shaft to rotate, a nut seat moves along the screw 70, the nut seat is fixedly connected with a sliding plate B304, so that the sliding plate B304 is driven to lift along a fixed plate 311 along a B direction, and because the sliding plate B304 is fixedly connected with the lower spindle a301 and the lower spindle B302, the lower spindle a301 and the lower spindle B302 can be driven to lift through the sliding plate B304, the back surface of the plate is processed through two groups of cutters arranged on the double spindles, the lower spindle a301 and the lower spindle B302 are controlled by a lower cylinder a306 and a lower cylinder B307, when a certain type of nuts is required, the lower spindle a306 and the lower spindle B307 are controlled, and the milling cutter is also pressed on the main body is required to compress the plate by one group of cutters, and the milling cutter is required to compress the plate on the plate, and the plate is also required to be processed by the milling cutter on the back surface of the plate, and the plate is required to be processed by the main body, and the plate is also processed by the milling cutter.

Working principle: when the device is used for processing a plate, the working processes of the upper drill assembly 10 and the lower drill assembly 30 are that the upper drill assembly 10 can change a tool through the tool magazine assembly 20, specifically, a bevel gear 60 on a translation servo motor 101 in the upper drill assembly 10 moves to the upper part of the tool magazine assembly 20 along a bevel gear 50 on a bracket 40, then a lifting servo motor 102 is utilized to drive a screw rod 70 to rotate, a nut seat on the screw rod 70 drives a slide plate a103 to descend, because the slide plate a103 is in sliding connection with the automatic tool changing spindle 105, the automatic tool changing spindle 105 is driven to descend to a tool changing position, a tool magazine cylinder b202 of a tool magazine cylinder a201 on the tool magazine assembly 20 pushes a tool holder 203 to the tool changing position according to a preset program, a pneumatic chuck (not shown in the drawing) is arranged on the automatic tool changing spindle 105, the tool changing spindle 105 is used for sucking the tool changing process, then the automatic tool changing spindle 105 moves through the translation servo motor 101 and the lifting servo motor 102, the side surface and the plate are processed, the lower servo motor 30 is driven to descend, the upper part and the lower part of the underground drill assembly 30 are correspondingly controlled by the servo motor 305 a and the lower part of the tool changing spindle 302 and the tool changing spindle 302 is required to be processed by the tool changing spindle 301 b, and the lower part of the tool changing spindle is required to be processed by the spindle 302 b, and the tool changing spindle is required to be processed by the lower part of the tool changing spindle 302 b and the tool changing spindle is not required to be controlled to be moved by the spindle 101.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. Six drilling and milling processing equipment for wood boards with double main shafts of tool magazine is characterized by comprising

The drilling assembly (10) comprises a translation servo motor (101), a lifting servo motor (102) and an automatic tool changing spindle (105), wherein the translation servo motor (101) and the lifting servo motor (102) respectively drive the automatic tool changing spindle (105) to move along the direction A and the direction B; the method comprises the steps of,

the tool magazine assembly (20) comprises a tool magazine cylinder a (201), a tool magazine cylinder b (202) and a tool shank (203), wherein the tool magazine cylinder b (202) is arranged in parallel with the tool magazine cylinder a (201), the tool magazine cylinder b is arranged on a plate surface, the tool magazine cylinder a (201) drives the plate surface provided with the tool magazine cylinder b (202) and the tool shank (203) are driven by the tool magazine cylinder b (202) to move along the direction C; the method comprises the steps of,

the lower drill assembly (30) comprises a lower main shaft a (301), a lower main shaft b (302) arranged in parallel with the lower main shaft a (301), and a lower milling cutter cylinder a (306) and a lower milling cutter cylinder b (307) which are arranged corresponding to the lower main shaft a (301) and the lower main shaft b (302), wherein the lower milling cutter cylinder a (306) and the lower milling cutter cylinder b (307) are connected with the lower main shaft a (301) and the lower main shaft b (302) through a group of C-shaped frames; the method comprises the steps of,

a bracket (40).

2. The six-sided wood board drilling and milling equipment with the double main shafts of the tool magazine according to claim 1, wherein a bevel gear (60) is arranged at the end part of an output shaft of the translation servo motor (101), and a bevel rack (50) is arranged at a position of the bracket (40) corresponding to the bevel gear (60).

3. The six-sided wood board drilling and milling equipment with the tool magazine double main shafts according to claim 1, wherein the drilling assembly (10) further comprises a sliding plate a (103), a screw (70) is arranged at the end part of an output shaft of the lifting servo motor (102), a nut seat on the screw (70) is connected with the sliding plate a (103), and the automatic tool changing main shaft (105) is slidably arranged on the sliding plate a (103).

4. A six-sided wood drilling and milling machine with a magazine double spindle according to claim 3, characterized in that the bottom of the automatic tool changing spindle (105) is provided with a tool shank (203).

5. The six-sided wood board drilling and milling equipment with the double spindles with the tool magazine according to claim 4, wherein the drilling assembly (10) further comprises spindle pressing plate cylinders (104) arranged on two sides of the automatic tool changing spindle (105), and a spindle pressing plate main body (106) is arranged at the output end of each spindle pressing plate cylinder (104).

6. The six-sided wood drilling and milling equipment with the tool magazine double main shafts according to claim 1, wherein the drill-down assembly (30) further comprises a fixing plate (311) positioned at the rear side, and the fixing plate (311) is fixedly positioned on the bracket (40); and

the motor comprises a lower servo motor a (303), wherein a bevel gear (60) is also arranged at the end part of an output shaft of the lower servo motor a (303), and a bevel rack (50) is also arranged at the position of the bracket (40) corresponding to the bevel gear (60); the method comprises the steps of,

the device comprises a lower servo motor b (305), wherein a screw rod (70) is arranged at the end part of an output shaft of the lower servo motor b (305), a sliding plate b (304) is arranged at the front side of a nut seat of the screw rod (70), a drill bag (310) is further arranged on the sliding plate b (304), the drill bag (310) is fixedly arranged on the sliding plate b (304), and the lower main shaft a (301) and the lower main shaft b (302) are arranged on the sliding plate b (304) in a sliding manner through a sliding block.

7. The six-sided wood drilling and milling equipment with the magazine double spindle according to claim 6, wherein the drill-down assembly (30) comprises a milling cutter supporting plate cylinder (309) arranged on a sliding plate b (304), and an output end of the milling cutter supporting plate cylinder (309) is provided with a milling cutter supporting plate main body (308).