CN219054632U - Drilling device - Google Patents

Abstract

The present utility model relates to a drilling device. The three-axis mobile drilling unit is arranged above the material compressing unit and used for drilling materials on the material compressing unit. The device has changed traditional prepreg drilling mode, adopts earlier through the fixed material that compresses tightly of material compression unit, then removes triaxial and removes drilling unit to the drilling position that corresponds, realizes the drilling to the material, and realizes the adjustment that corresponds drilling position through triaxial removal, can guarantee the machining precision of product better.

Description

Drilling device

Technical Field

The utility model relates to the technical field of drilling, in particular to a drilling device.

Background

The prepreg is a sheet material prepared by dipping treated glass fiber cloth with resin glue solution, and then performing heat treatment (pre-baking) to enable the resin to enter the B stage, and is a sheet material which is softened under the condition of heating and pressurizing, reacts and solidifies after cooling, and can be quickly solidified and bonded under the action of temperature and pressure.

The prepreg, also called as "PP sheet", is one of the main materials in the production of multi-layer boards, mainly comprises resin and reinforcing materials, the reinforcing materials are also divided into glass fiber cloth, paper base, composite materials and the like, and most of prepregs (adhesive sheets) used for manufacturing multi-layer printed boards adopt glass fiber cloth as reinforcing materials. When the prepreg material is used, the whole roll of the prepreg material is cut into sheet materials by a cutting machine, and after the cutting is finished, the sheet materials are transported to a drilling device for drilling operation.

In the prior art, the drilling machine part is fixed, the drilling machine is positioned below the drilling machine by moving the prepreg on the platform plate, and the drilling machine is started to drill the drilling machine core of the prepreg. Meanwhile, dust, scraps and the like are easy to generate in the prepreg processing process, and product pollution and the like are easy to cause.

Based on this, the present utility model provides a novel drilling device to overcome the defects in the prior art.

Disclosure of Invention

The utility model aims to provide a drilling device, which changes the traditional prepreg drilling mode, adopts the steps of fixing and compacting materials through a material compacting unit, then moving a triaxial mobile drilling unit to a corresponding drilling position, realizing the drilling of the materials, and realizing the adjustment of the corresponding drilling position through triaxial movement, so that the machining precision of products can be better ensured.

The utility model adopts the following technical scheme: the drilling device comprises a cabinet, a platform plate arranged on the upper surface of the cabinet, a material compressing unit and a triaxial mobile drilling unit, wherein the material compressing unit and the triaxial mobile drilling unit are arranged on the platform plate, and the triaxial mobile drilling unit is arranged above the material compressing unit and used for drilling materials on the material compressing unit.

Further, the platform plate is a marble plate.

Further, the material compacting unit includes:

the base plate is fixedly arranged on the platform plate and is rectangular;

the X-axis compression cylinder is fixedly arranged on the platform plate, and the expansion direction of the X-axis compression cylinder is perpendicular to the base plate;

the X-axis pressing strip assembly is arranged above the long side of the backing plate and is in transmission connection with the X-axis pressing cylinder;

the Y-axis compression cylinder is fixedly arranged on the platform plate, and the expansion direction of the Y-axis compression cylinder is perpendicular to the base plate;

and the Y-axis pressing strip assembly is arranged above the short side of the base plate and is in transmission connection with the Y-axis pressing cylinder.

Further, at least two X-axis compression cylinders and at least two Y-axis compression cylinders are arranged.

Further, the X-axis presser bar assembly includes:

an X-axis pressing strip, wherein the upper surface of the X-axis pressing strip is provided with a chute;

the X-axis pressing blocks are arranged in a plurality of sliding grooves of the X-axis pressing strips at intervals and are slidably arranged in the sliding grooves of the X-axis pressing strips, extend towards the position close to the center of the base plate and extend out of the edges of the X-axis pressing strips;

and/or the Y-axis presser bar assembly comprises:

the upper surface of the Y-axis pressing strip is provided with a sliding groove;

the Y-axis pressing blocks are arranged in a plurality of sliding grooves of the Y-axis pressing strips at intervals and in sliding fit, extend towards the center of the base plate and extend out of the edges of the Y-axis pressing strips.

Further, the triaxial mobile drilling unit includes:

the Y-axis linear module is arranged on the platform plate and is arranged on the outer side of the material compressing unit;

the X-axis linear module is arranged on the Y-axis linear module;

the Z-axis linear module is arranged on the X-axis linear module;

the drilling assembly is arranged on the Z-axis linear module, and the drilling direction of the drilling assembly is the same as the sliding direction of the Z-axis linear module;

the driving cylinder is arranged on the sliding table of the Z-axis linear module and is arranged beside the drilling assembly;

the dust collection cover body is connected with the telescopic end of the driving cylinder and drives the dust collection cover body to move up and down along the sliding direction of the Z-axis linear module; the dust collection cover body is arranged at the bottom of the drilling assembly and is provided with a dust collection inlet and a dust collection outlet communicated with the dust collection inlet; a drill bit in the drilling assembly is diametrically opposed to the dust collection inlet in the dust collection housing.

Further, the lower surface of the dust collection cover body at the dust collection inlet is downwards protruded to form a boss; the lower surface of the boss is a plane.

Further, a protective cover is arranged on the cabinet, and covers the outer sides of the material compressing unit and the triaxial mobile drilling unit.

Furthermore, an observation window is formed in the front face of the protective cover, and correlation grating sensors are arranged on two sides of the observation window.

Further, a tray is hinged to the front face of the protective cover.

Compared with the prior art, the drilling device has the beneficial effects that:

1) The drilling device is mainly used for drilling operation of prepregs. The utility model provides a traditional prepreg drilling mode has been changed in this application, adopts earlier through the fixed material that compresses tightly of material compressing tightly unit, then removes triaxial and removes drilling unit to the drilling position that corresponds, realizes the drilling to the material. The adjustment of the corresponding drilling positions is realized through triaxial movement, so that the machining precision of products can be better ensured.

2) The pressing strip assembly adopts the design of pressing strips and pressing blocks to realize the compaction of materials; and because briquetting slidable mounting can be according to the mounted position of size adjustment briquetting of material in the spout of corresponding layering upper surface, satisfy not unidimensional material and compress tightly the requirement, the practicality is better.

3) After the drilling assembly is adjusted to be right above the drilling position, the driving cylinder is started to drive the dust collection cover body to move downwards until the dust collection cover body is stopped against the upper surface of the material, so that the effect of pressing the material can be achieved, and the drilling quality of the material can be improved; then, the drilling assembly is started to drill materials, and because the drill bit in the drilling assembly penetrates through the dust collecting inlet to drill, dust, chips and the like generated during drilling can be sucked into the dust collecting cover body through the dust collecting inlet and discharged through the dust collecting outlet, so that the dust collection effect is achieved, and the environment protection requirement is met.

Drawings

For a clearer description of embodiments of the utility model or of solutions in the prior art, the drawings which are used in the description of the embodiments or of 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 from them without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the whole structure of a drilling device according to the present utility model;

FIG. 2 is a schematic diagram showing the overall structure of the material compressing unit and the triaxial mobile drilling unit in FIG. 1;

FIG. 3 is a schematic diagram showing the overall structure of the material compressing unit and the triaxial mobile drilling unit in FIG. 1;

FIG. 4 is a schematic diagram of the three-axis mobile drilling unit of FIG. 2 with the Y-axis linear module and the X-axis linear module removed;

FIG. 5 is a schematic view of the structure of FIG. 4 with the Z-axis linear module removed;

FIG. 6 is a schematic view of the dust hood of FIG. 1;

FIG. 7 is a second schematic view of the dust hood of FIG. 1;

in the figure: cabinet 1, shield 10, viewing window 101, and grating sensor 102; a platform plate 2;

the material compressing unit 3, the backing plate 30, the X-axis compressing cylinder 31, the X-axis compressing bar component 32, the X-axis pressing bar 321, the X-axis compressing block 322, the Y-axis compressing cylinder 33, the Y-axis compressing bar component 34, the Y-axis compressing bar 341 and the Y-axis compressing block 342; the three-axis moving drilling unit 4, the Y-axis linear module 40, the X-axis linear module 41, the Z-axis linear module 42, the drilling assembly 43, the driving cylinder 44, the dust collection cover 45, the dust collection inlet 451, the dust collection outlet 452, and the boss 453.

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 fall within the scope of the utility model.

The utility model is discussed in detail below in conjunction with fig. 1-7 and the specific embodiments:

as shown in fig. 1 to 7, the utility model provides a drilling device, which comprises a cabinet 1, a platform plate 2 arranged on the upper surface of the cabinet 1, a material compressing unit 3 arranged on the platform plate 2 and a triaxial moving drilling unit 4, wherein the triaxial moving drilling unit 4 is arranged above the material compressing unit 3 and is used for drilling materials on the material compressing unit 3. When the device works, firstly, materials are placed at the material compressing unit 3, and the materials are compressed and positioned through the material compressing unit 3; then, the triaxial moving drilling unit 4 moves to the position to be drilled, and the drilling operation and the like are performed on the material compacting unit 3.

The drilling device is mainly used for drilling operation of prepregs. In the prior art, a drilling machine part is fixedly arranged, a drilling hole of the prepreg is positioned below the drilling machine through the prepreg on the mobile platform, and then drilling is realized, so that the prepreg is difficult to move smoothly and accurately due to the limitation of the material properties and the like of the prepreg, and the processing quality of a product is influenced; the traditional prepreg drilling mode has been changed in this application, adopts earlier through material compress tightly 3 fixed compress tightly the material, then removes triaxial and removes drilling unit 4 to the drilling position that corresponds, realizes the drilling to the material. The adjustment of the corresponding drilling positions is realized through triaxial movement, so that the machining precision of products can be better ensured.

Further, a protective cover 10 is installed on the cabinet 1, the protective cover 10 covers the outer sides of the material compressing unit 3 and the triaxial mobile drilling unit 4, and has protection and sealing functions, so that the dustproof performance of the whole equipment is improved, the service life of the whole equipment is prolonged, and the like. Correspondingly, a plurality of sheet metal side doors can be arranged on the protective cover 10, so that the protective cover 10 can be opened and closed conveniently, and maintenance and repair are facilitated.

Of course, an observation window 101 may be further formed on the front surface of the protection cover 10, and correlation grating sensors 102 may be installed on two sides of the observation window 101, so as to be used for safety monitoring and reminding, and avoid misoperation. Meanwhile, a tray 11 for placing a mouse and a keyboard and the like can be hinged on the front surface of the protective cover 10; the tray 11 has an unfolded state and a folded state; in the unfolded state, a keyboard and the like can be placed, and in the folded state, the tray 11 can be conveniently stored, and the folded state of the tray 11 is shown in fig. 1.

Further, the platform board 2 is a marble board, and in this embodiment, the thickness of the marble board is relatively thicker, so that the marble board is ensured to have a certain weight, and is placed on the cabinet 1, so that the supporting stability is improved; however, the specific thickness of the marble plate is not limited, and the marble plate can be designed by a person skilled in the art according to practical situations.

Further, the material compacting unit 3 includes:

a base plate 30, wherein the base plate 30 is fixedly arranged on the platform plate 2, and the base plate 30 is rectangular;

an X-axis pressing cylinder 31, wherein the X-axis pressing cylinder 31 is fixedly mounted on the platform plate 2, a long side of a base plate 30 is arranged, and the expansion and contraction direction of the X-axis pressing cylinder 31 is perpendicular to the base plate 30; in this embodiment, at least two X-axis compressing cylinders 31 are provided, which are respectively provided at two ends of the long side of the backing plate 30, and the plurality of X-axis compressing cylinders 31 are adjusted in a synchronous lifting manner, so that stability is good;

the X-axis pressing bar assembly 32 is arranged above the long side of the backing plate 30, and is in transmission connection with the telescopic end of the X-axis pressing cylinder 31;

a Y-axis pressing cylinder 33, wherein the Y-axis pressing cylinder 33 is fixedly mounted on the platform plate 2 and is provided with a short side of the backing plate 30, and the expansion and contraction direction of the Y-axis pressing cylinder 33 is perpendicular to the backing plate 30; in this embodiment, at least two Y-axis pressing cylinders 33 are provided, which are respectively provided at two ends of the short side of the backing plate 30, and the plurality of Y-axis pressing cylinders 33 are adjusted in a synchronous lifting manner, so that stability is good;

the Y-axis presser bar assembly 34 is disposed above the short side of the backing plate 30, and is in driving connection with the telescopic end of the Y-axis presser cylinder 33.

During operation, the material to be processed is placed above the base plate 30, then the X-axis pressing cylinder 31 drives the X-axis pressing bar assembly 32 to move downwards, and the Y-axis pressing cylinder 33 drives the Y-axis pressing bar assembly 34 to move downwards synchronously, so that the pressing operation of the material on the base plate 30 is realized, the pressing and positioning of the material are realized, and the drilling processing of the later-stage material is facilitated.

Specifically, the X-axis presser bar assembly 32 includes:

an X-axis pressing bar 321, wherein a chute is formed on the upper surface of the X-axis pressing bar 321;

x axle pressure piece 322, X axle pressure piece 322 sets up a plurality of, and interval and slidable mounting are in the spout of X axle layering 321, X axle pressure piece 322 is to being close to backing plate 30 center department extends, and stretches out to outside the edge of X axle pressure piece 321, realizes compressing tightly to the material through X axle pressure piece 322. And because the X-axis pressing block 322 is slidably arranged in the chute on the upper surface of the X-axis pressing bar 321, the installation position of the X-axis pressing block 322 can be adjusted according to the size of the material, the pressing requirements of the materials with different sizes are met, and the practicability is better.

Similarly, the Y-axis presser bar assembly 34 includes:

a Y-axis pressing bar 341, wherein a chute is formed on the upper surface of the Y-axis pressing bar 341;

the Y-axis pressing blocks 342, the Y-axis pressing blocks 342 are provided with a plurality of Y-axis pressing blocks 342, the Y-axis pressing blocks 342 are arranged in the sliding grooves of the Y-axis pressing strips 341 at intervals in a sliding mode, the Y-axis pressing blocks 342 extend towards the center of the base plate 30 and extend out of the edges of the Y-axis pressing strips 341, and the materials are pressed through the Y-axis pressing blocks 342. And because the Y-axis pressing block 342 is slidably arranged in the chute on the upper surface of the Y-axis pressing bar 341, the installation position of the Y-axis pressing block 342 can be adjusted according to the size of the material, the pressing requirements of the materials with different sizes are met, and the practicability is better.

Further, the triaxial mobile drilling unit 4 includes:

the Y-axis linear module 40 is arranged on the platform plate 2 and is arranged outside the material compacting unit 3;

an X-axis linear module 41, the X-axis linear module 41 being mounted on the Y-axis linear module 40;

a Z-axis straight line module 42, the Z-axis straight line module 42 being mounted on the X-axis straight line module 41;

the drilling assembly 43 is installed on the Z-axis linear module 42, and the drilling direction of the drilling assembly 43 is the same as the sliding direction of the Z-axis linear module 42;

the driving cylinder 44 is arranged on the sliding table of the Z-axis linear module 42 and is arranged beside the drilling assembly 43;

the dust collection cover body 45 is connected with the telescopic end of the driving cylinder 44, and drives the dust collection cover body 45 to move up and down along the sliding direction of the Z-axis linear module 42; the dust collection cover 45 is arranged at the bottom of the drilling assembly 43, and is provided with a dust collection inlet 451 and a dust collection outlet 452 communicated with the dust collection inlet 451, wherein the dust collection outlet 452 is used for being connected with an external dust collection device to realize a dust collection function; the drill bit in the drilling assembly 43 is opposite to the dust collecting inlet 451 in the dust collecting cover 45, when in use, the drill bit penetrates through the dust collecting inlet 451 to drill the material on the material compacting unit 3, and dust, chips and the like generated during drilling are sucked into the dust collecting cover 45 through the dust collecting inlet 451 and discharged through the dust collecting outlet 452, so that the dust collecting function is realized.

In operation, three mutually perpendicular Y-axis linear modules 40, X-axis linear modules 41 and Z-axis linear modules 42 form a triaxial assembly for driving the drilling assembly 43 to move, so as to realize adjustment of the position of the drilling assembly 43. Correspondingly, the specific structure of the linear module is not particularly limited in the utility model, and the linear module can be a belt linear module, a gear rack linear module, a screw linear module or the like, so long as linear sliding can be realized. After the drilling assembly 43 is adjusted to be right above the drilling position, the driving cylinder 44 is started to drive the dust collection cover 45 to move downwards until the dust collection cover is stopped against the upper surface of the material, so that the effect of pressing the material can be achieved, and the drilling quality of the material can be improved; then, the drilling assembly 43 is started to drill the material, and as the drill bit in the drilling assembly 43 penetrates through the dust collecting inlet 451 to drill, dust, chips and the like generated during drilling are sucked into the dust collecting cover 45 through the dust collecting inlet 451 and discharged through the dust collecting outlet 452, so that the dust collection effect is achieved, and the environment protection requirement is met.

Specifically, the lower surface of the dust collection cover 45 at the dust collection inlet 451 protrudes downward to form a boss 453; the lower surface of boss 453 is a plane, presses the effect better to the material. Meanwhile, correspondingly, a cross-shaped dust collection inlet is formed in the boss 453, so that dust can be sucked in.

The utility model has been further described with reference to specific embodiments, but it should be understood that the detailed description is not to be construed as limiting the spirit and scope of the utility model, but rather as providing those skilled in the art with the benefit of this disclosure with the benefit of their various modifications to the described embodiments.

Claims (10)

1. A drilling device, characterized in that: the three-axis mobile drilling unit is arranged above the material compressing unit and used for drilling materials on the material compressing unit.

2. Drilling device according to claim 1, characterized in that:

the platform plate is a marble plate.

3. Drilling device according to claim 1, characterized in that:

the material compacting unit includes:

the base plate is fixedly arranged on the platform plate and is rectangular;

the X-axis compression cylinder is fixedly arranged on the platform plate, and the expansion direction of the X-axis compression cylinder is perpendicular to the base plate;

the X-axis pressing strip assembly is arranged above the long side of the backing plate and is in transmission connection with the X-axis pressing cylinder;

the Y-axis compression cylinder is fixedly arranged on the platform plate, and the expansion direction of the Y-axis compression cylinder is perpendicular to the base plate;

and the Y-axis pressing strip assembly is arranged above the short side of the base plate and is in transmission connection with the Y-axis pressing cylinder.

4. A drilling apparatus according to claim 3, wherein:

the X-axis compression cylinder and the Y-axis compression cylinder are respectively provided with at least two.

5. A drilling apparatus according to claim 3, wherein:

the X-axis press bar assembly includes:

an X-axis pressing strip, wherein the upper surface of the X-axis pressing strip is provided with a chute;

the X-axis pressing blocks are arranged in a plurality of sliding grooves of the X-axis pressing strips at intervals and are slidably arranged in the sliding grooves of the X-axis pressing strips, extend towards the position close to the center of the base plate and extend out of the edges of the X-axis pressing strips;

and/or the Y-axis presser bar assembly comprises:

the upper surface of the Y-axis pressing strip is provided with a sliding groove;

the Y-axis pressing blocks are arranged in a plurality of sliding grooves of the Y-axis pressing strips at intervals and in sliding fit, extend towards the center of the base plate and extend out of the edges of the Y-axis pressing strips.

6. Drilling device according to claim 1, characterized in that:

the triaxial mobile drilling unit includes:

the Y-axis linear module is arranged on the platform plate and is arranged on the outer side of the material compressing unit;

the X-axis linear module is arranged on the Y-axis linear module;

the Z-axis linear module is arranged on the X-axis linear module;

the drilling assembly is arranged on the Z-axis linear module, and the drilling direction of the drilling assembly is the same as the sliding direction of the Z-axis linear module;

the driving cylinder is arranged on the sliding table of the Z-axis linear module and is arranged beside the drilling assembly;

the dust collection cover body is connected with the telescopic end of the driving cylinder and drives the dust collection cover body to move up and down along the sliding direction of the Z-axis linear module; the dust collection cover body is arranged at the bottom of the drilling assembly and is provided with a dust collection inlet and a dust collection outlet communicated with the dust collection inlet; a drill bit in the drilling assembly is diametrically opposed to the dust collection inlet in the dust collection housing.

7. The drilling apparatus of claim 6, wherein:

the lower surface of the dust collection cover body positioned at the dust collection inlet is downwards protruded to form a boss;

the lower surface of the boss is a plane.

8. Drilling device according to claim 1, characterized in that: and a protective cover is arranged on the cabinet and covers the outer sides of the material compacting unit and the triaxial mobile drilling unit.

9. The drilling apparatus of claim 8, wherein: an observation window is formed in the front face of the protective cover, and correlation grating sensors are arranged on two sides of the observation window.

10. The drilling apparatus of claim 8, wherein:

a tray is hinged to the front face of the protective cover.

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