CN211762174U

CN211762174U - Woodworking numerical control side hole machine

Info

Publication number: CN211762174U
Application number: CN202020289295.XU
Authority: CN
Inventors: 冯世卿
Original assignee: Jinan Pinjia Mechanical Equipment Co ltd
Current assignee: Jinan Pinjia Mechanical Equipment Co ltd
Priority date: 2020-03-11
Filing date: 2020-03-11
Publication date: 2020-10-27
Anticipated expiration: 2030-03-11

Abstract

The utility model discloses a woodworking numerical control side hole machine, including the lathe and installing workstation and locating beam on the lathe upper portion, the locating beam is installed in the top of workstation, locating beam upper portion is equipped with the numerical control platform of controlling the side hole machine, locating beam lower part is equipped with a plurality of first pressure material cylinders and the second pressure material cylinders that compress tightly panel, one side of lathe is connected with the work host computer through X axle guide rail, be equipped with the saw bit host computer and the upper punch host computer and the lower punch host computer that set up side by side from top to bottom on the work host computer, the saw bit host computer is installed and is used for cutting the saw bit of stealthy piece mounting groove, install the drill bit of different models respectively on upper punch host computer and the lower; the utility model designs two punching main machines and one saw blade main machine, which realizes the numerical control side hole machine with double drill bits and three shafts, carries a plurality of types of drill bits, can cut invisible piece mounting grooves and has complete functions; the first material pressing cylinder and the second material pressing cylinder are installed in a staggered mode from front to back, a triangular structure is formed between the first material pressing cylinder and the second material pressing cylinder, and the pressing effect on the plates is better.

Description

Woodworking numerical control side hole machine

Technical Field

The utility model relates to an engraver technical field, concretely relates to carpenter's numerical control side hole machine.

Background

A side hole machine is economical and practical plate-type furniture horizontal hole punching equipment, and is matched with a plate-type furniture cutting machine to form an economical plate-type furniture numerical control production line, so that a traditional sliding table saw and a gang drill can be replaced. Most of the existing side hole machines adopt a single drill bit, have single drilling size, do not have the function of installing a saw blade and do not have the function of digging a groove; most of the pressing cylinders are vertically pressed downwards by a single cylinder, and when the side surface of a plate is impacted, the plate shakes; the dust collection device is not arranged, and the working environment is poor. Therefore, designing a double-drill three-shaft numerical control woodworking side hole machine is a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide a carpenter's numerical control side hole machine.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a carpenter's numerical control side hole machine, include the lathe and install workstation and locating beam on lathe upper portion, the locating beam is installed in the top of workstation, locating beam upper portion is equipped with the numerical control platform of controlling the side hole machine, the locating beam lower part is equipped with a plurality of first pressure material cylinders and the second that compress tightly panel and presses the material cylinder, one side of lathe is connected with the host computer of working through X axle guide rail, be equipped with the saw bit host computer and the host computer of punching and punching down on the host computer of working that sets up side by side from top to bottom, the saw bit that is used for cutting the stealthy piece mounting groove is installed to the saw bit host computer, on punch the host computer and punch.

The X-axis guide rail is connected to the lower portion of the working host through an X-axis sliding seat, an X-axis motor used for driving the working host is arranged on the X-axis sliding seat, a Y-axis sliding block is connected to the upper portion of the X-axis sliding seat through a Z-axis sliding rail, the Y-axis sliding block is connected with the X-axis cylinder through a Z-axis cylinder arranged on one side of the X-axis sliding seat in a driving mode, the Y-axis sliding block is vertically arranged with the X-axis guide rail, Y-axis sliding block two-side vertical directions are respectively provided with a Y-axis saw blade sliding rail and a Y-axis punching sliding rail, a saw blade host is connected to the Y-axis saw blade sliding rail through a fixed sliding block, an upper punching host and a lower punching host which are arranged side by side up and down are connected.

Specifically, a gear is arranged in the X-axis motor, and the gear is meshed with a rack parallel to the X-axis guide rail and used for driving the working host.

Specifically, the upper end of the Y-axis sliding block is provided with a Y-axis motor for driving the connecting sliding block.

Specifically, the upper punching host is transversely connected to the connecting slide block through a transversely arranged Y-axis punching slide rail, and the lower punching host is transversely connected to the connecting slide block through a transversely arranged Y-axis lower punching slide rail.

Specifically, a plurality of positioning cylinders are fixed on the side edge of the workbench and one side of the working host machine and used for positioning one side of the working surface of the plate.

Specifically, the first material pressing cylinder and the second material pressing cylinder are installed in a front-back staggered mode and used for compressing and fixing the plates.

The upper end of the Y-axis sliding block is provided with a dust suction box of a dust suction device through a dust suction support, a cylinder for controlling a first dust suction opening, a second dust suction opening and a three-switch dust suction opening is arranged in the dust suction box, and the outer side of the dust suction box is connected with a dust suction air pump through a main dust suction pipe.

The punching machine is characterized in that a saw blade dust hood is arranged on the upper portion of the saw blade main machine and connected with a first dust suction opening through a dust suction hose, a punching dust hood is arranged on the upper punching main machine and connected with a second dust suction opening, a punching dust hood is arranged on the lower punching main machine and connected with a third dust suction opening.

The utility model discloses following beneficial effect has:

the utility model designs two punching main machines and one saw blade main machine, which realizes the numerical control side hole machine with double drill bits and three shafts, carries a plurality of types of drill bits, can cut invisible piece mounting grooves and has complete functions; the designed first material pressing cylinder and the second material pressing cylinder are installed in a staggered mode from front to back, and form a triangular structure with the plate, so that the plate is better compressed; the designed dust suction devices are distributed on the two punching main machines and the saw blade main machine, so that the working environment is better, and the environment pollution is avoided; the designed positioning beam is of a gantry structure, a positioning cylinder is arranged at a corresponding position below the positioning beam, when a plate is placed, the positioning cylinder is lifted and positioned, and after the first pressing cylinder and the second pressing cylinder compress the plate, the positioning cylinder automatically descends, so that the punching and grooving are prevented from being influenced, and the punching and grooving are more accurate; the designed guide rails are double guide rails, the supporting surface is stable, the rack transmission method is adopted, the transmission is stable, and the deformation and vibration are avoided after long-term high-speed operation.

Drawings

FIG. 1 is a schematic structural diagram of a woodworking numerical control side-hole machine.

FIG. 2 is a front view of a woodworking numerical control side hole machine.

FIG. 3 is a rear view of a woodworking numerical control side hole machine.

FIG. 4 is a top view of the woodworking numerical control side hole machine.

FIG. 5 is a left side view of the woodworking numerical control side hole machine.

FIG. 6 is a right side view of the woodworking numerical control side hole machine.

In the figure: 1-a machine tool; 2-a working host; 3-a workbench; 4-a numerical control console; 5, positioning a beam; 6-a first material pressing cylinder; 7-a second material pressing cylinder; 8-a dust suction device; 201-saw blade host; 202-punching host; 203-lower punching host; 204-X axis motor; 205-X axis guide rails; 206-a rack; 207-X axis slide; a 208-Y axis motor; a 209-Y axis perforating slide rail; 210-Y axis blade slide; 211-Y axis slide block; a sliding rail is punched on a 212-Y axis; 213-punching cylinder; a 214-Y axis lower punch slide; 215-lower punching cylinder; a 216-Z axis cylinder; 217-Z axis slide rails; 218-a saw blade; 219-a drill bit; 501-positioning a cylinder; 801-dust suction box; 802-blade suction hood; 803-perforated suction hood.

Detailed Description

The technical solution in the embodiments of the present invention will be described in further detail in the following clearly and completely with reference to the accompanying drawings in the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-6, a woodworking numerical control side-hole machine comprises a machine tool 1, a workbench 3 and a positioning beam 5 which are arranged on the upper portion of the machine tool 1, wherein the positioning beam 5 is in a gantry structure and is arranged above the workbench 3, a numerical control table 4 for controlling the side-hole machine is arranged on the upper portion of the positioning beam 5, a plurality of first material pressing cylinders 6 and second material pressing cylinders 7 for pressing plates are arranged on the lower portion of the positioning beam 5, the first material pressing cylinders 6 and the second material pressing cylinders 7 are arranged in a front-back staggered manner and form a triangular structure with the plates, the pressing effect on the plates is better, the positioning cylinders 501 are used for pressing and fixing the plates, a plurality of positioning cylinders 501 are fixed on the side of the workbench 3 and on one side of a main working machine 2 and are used for positioning one side of the working surface of the plates, when the plates are placed, the positioning cylinders 501 are lifted and positioned, and after the first material pressing cylinders 6 and, avoid influencing and punch and grooving, punch and grooving more accurate.

One side of the machine tool 1 is connected with a working host machine 2 through an X-axis guide rail 205, the working host machine 2 is provided with a saw blade host machine 201 and an upper punching host machine 202 and a lower punching host machine 203 which are arranged side by side from top to bottom, the lower part of the working host machine 2 is connected with the X-axis guide rail 205 through an X-axis slide base 207, the X-axis slide base 207 is provided with an X-axis motor 204 for driving the working host machine 2, a gear is arranged inside the X-axis motor 204, the gear is meshed with a rack 206 which is parallel to the X-axis guide rail 205, and the rack is used for. X axle slide 207 upper portion is connected with Y axle slider 211 through Z axle slide rail 217, Y axle slider 211 is connected through the drive of the Z axle cylinder 216 that sets up in X axle slide 207 one side, be used for driving Y axle slider 211 along Z axle slide rail 217 back-and-forth movement, Y axle slider 211 and the vertical perpendicular setting of X axle guide rail 205, and Y axle slider 211 both sides vertical direction is equipped with Y axle saw bit slide rail 210 and Y axle slide rail 209 that punches respectively, connect saw bit host computer 201 through fixed slider on the Y axle saw bit slide rail 210, saw bit host computer 201 drive itself moves along Y axle saw bit slide rail 210, install the saw bit 218 that is used for cutting the invisible member mounting groove simultaneously on the saw bit host computer 201, it is connected with upper punch host computer 202 and the host computer 203 that punches down that set up side by side from top to bottom through connecting the slider on the Y axle slide rail 209 that punches, install the drill bit 219 of.

Y axle slider 211 upper end is installed the Y axle motor 208 of drive link block, a Y axle motor for the drive link block reciprocates, on punch host computer 202 through the Y axle of horizontal setting on punch slide rail 212 transverse connection on link block, on punch host computer 202 rear end and be connected with punch cylinder 213, a slide rail 212 back-and-forth movement that punches along the Y axle is gone up to punch host computer 202 in the drive, punch host computer 203 down through the Y axle of horizontal setting under punch slide rail 214 transverse connection on link block, punch host computer 203 rear end down and be connected with down punch cylinder 215, a slide rail 214 back-and-forth movement that punches along the Y axle is gone up to punch host computer 203 down for the drive. The saw blade main machine 201, the upper punching main machine 202 and the lower punching main machine 203 can flexibly move on the X, Y, Z shaft, and control parameters are set through the numerical control table 4, so that the automatic production work of punching and slotting the side surfaces of the plates is realized.

The upper end of the Y-axis sliding block 211 is provided with a dust suction box 801 of a dust suction device 8 through a dust suction support, a cylinder for controlling three switches of a first dust suction opening, a second dust suction opening and a dust suction opening is arranged in the dust suction box 801, backflow silting of debris is avoided when a main machine which does not work is arranged, and the outer side of the dust suction box 801 is connected with a dust suction air pump through a main dust suction pipe. Saw bit host computer 201 upper portion is equipped with saw bit suction hood 802, and saw bit suction hood 802 passes through dust absorption hose connection dust absorption mouth one, is equipped with the suction hood 803 that punches on going up to punch on the host computer 202, and the suction hood 803 that punches connects dust absorption mouth two, is equipped with the suction hood 803 that punches on the host computer 203 that punches down, and dust absorption hood 803 that punches connects dust absorption mouth three, avoids the polluted environment.

The utility model discloses during the use, the parameter that operating personnel will need processing panel on numerical control platform 4 sets up, then place 3 left sides of workstation with panel, click the start button, location cylinder 501 raises this moment, operating personnel withstands location cylinder 501's baffle forward with panel, the first material of pressing of panel top is pressed cylinder 6 and second and is pressed material cylinder 7 and descend to support and press panel, location cylinder 501 falls down simultaneously, then the host computer 2 punches the operation through control drill bit 219, control saw bit 218 cuts the operation of stealthy piece mounting groove, the operation is accomplished the back, the normal position is returned to host computer 2, first material of pressing cylinder 6 and second is pressed material cylinder 7 and raises, accomplish the side opening course of working of a panel, then carry out subsequent work.

The utility model discloses not be limited to above-mentioned embodiment, anybody should learn the structural change who makes under the teaching of the utility model, all with the utility model discloses have the same or close technical scheme, all fall into the utility model discloses an within the protection scope.

The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims

1. The utility model provides a carpenter's numerical control side hole machine which characterized in that: including the lathe and install workstation and the locating beam on lathe upper portion, the locating beam is installed in the top of workstation, locating beam upper portion is equipped with the numerical control platform of controlling the side hole machine, the locating beam lower part is equipped with a plurality of first pressure material cylinders and the second that compress tightly panel and presses the material cylinder, one side of lathe is connected with the host computer of working through the X axle guide rail, be equipped with the saw bit host computer and the host computer of punching and punching down on setting up side by side from top to bottom on the host computer of working, the saw bit that is used for cutting stealthy piece mounting groove is installed to the saw bit host computer, on punch the host computer and punch down and install the drill bit.

2. The woodworking numerical control side hole machine as claimed in claim 1, wherein: the X axle guide rail is connected through the X axle slide that is equipped with to work host computer lower part, be equipped with the X axle motor that is used for driving the work host computer on the X axle slide, X axle slide upper portion has Y axle slider through Z axle sliding rail connection, Y axle slider is connected through the drive of the Z axle cylinder that sets up in X axle slide one side, Y axle slider and the vertical perpendicular setting of X axle guide rail, and the vertical direction in Y axle slider both sides is equipped with Y axle saw bit slide rail and Y axle slide rail that punches respectively, connect the saw bit host computer through fixed slider on the Y axle saw bit slide rail, be connected with the host computer that punches and the host computer that punches down that sets up side by side from top to bottom through link block on the Y axle slide rail that punches, on punch the host computer rear end and be connected with the.

3. The woodworking numerical control side hole machine as claimed in claim 2, wherein: and a gear is arranged in the X-axis motor, and the gear is meshed with a rack parallel to the X-axis guide rail and used for driving the working host.

4. The woodworking numerical control side hole machine as claimed in claim 2, wherein: and a Y-axis motor for driving the connecting sliding block is installed at the upper end of the Y-axis sliding block.

5. The woodworking numerical control side hole machine as claimed in claim 4, wherein: the upper punching host is transversely connected to the connecting sliding block through a transversely arranged Y-axis punching sliding rail, and the lower punching host is transversely connected to the connecting sliding block through a transversely arranged Y-axis lower punching sliding rail.

6. The woodworking numerical control side hole machine as claimed in claim 1, wherein: and a plurality of positioning cylinders are fixed on the side edge of the workbench and one side of the working host machine and used for positioning one side of the working surface of the plate.

7. The woodworking numerical control side hole machine as claimed in claim 1, wherein: the first material pressing cylinder and the second material pressing cylinder are installed in a staggered mode from front to back and are used for compressing and fixing the plates.

8. The woodworking numerical control side hole machine as claimed in claim 2, wherein: the upper end of the Y-axis sliding block is provided with a dust suction box of a dust suction device through a dust suction support, a cylinder for controlling the first dust suction port, the second dust suction port and the three switches of the dust suction ports is arranged in the dust suction box, and the outer side of the dust suction box is connected with a dust suction air pump through a main dust suction pipe.

9. The woodworking numerical control side hole machine as claimed in claim 8, wherein: the upper portion of the saw blade main machine is provided with a saw blade dust hood, the saw blade dust hood is connected with a first dust suction opening through a dust suction hose, a punching dust hood is arranged on the upper punching main machine and connected with a second dust suction opening, a punching dust hood is arranged on the lower punching main machine and connected with a third dust suction opening.