CN215545213U - A numerically controlled fraise machine milling cutter structure for door and window processing production - Google Patents

Abstract

The utility model discloses a milling cutter structure of a numerical control milling machine for door and window processing production, which relates to the technical field of milling cutter structures. The utility model relates to a milling cutter structure of a numerical control milling machine for door and window processing production, which can move through a fixed column and a movable column, and is characterized in that a pressing block, a buffer spring and a bottom block are matched with each other, the bottom block contacts a workbench earlier than the milling cutter, and the buffer spring performs a buffer action on the workbench to provide upward rebound force, so that the milling cutter cannot easily contact the workbench, and the milling cutter is protected from being damaged.

Description

A numerically controlled fraise machine milling cutter structure for door and window processing production

Technical Field

The utility model relates to the technical field of milling cutter structures, in particular to a milling cutter structure of a numerical control milling machine for door and window processing production.

Background

The milling machine mainly refers to a machine tool for processing various surfaces of a workpiece by using a milling cutter, generally, the milling cutter moves in a feeding motion, can process more parts, planes and grooves, and is a milling machine controlled by an electronic counting digitalized signal.

In the process of processing the machine by the milling machine, different milling cutters are needed to be used and replaced due to the fact that different parts and planes are processed by the milling machine, and the milling cutter is used for milling and is provided with a rotating tool with one or more cutter teeth

In the milling cutter structure of the numerical control milling machine in the prior art, the milling cutter is not fixed stably enough, the milling cutter can be loosened in the milling process, the milling is not accurate enough, and the milling cutter is easy to collide a workbench in the milling process to cause damage to the milling cutter.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a milling cutter structure of a numerical control milling machine for door and window processing production, which can effectively solve the problems that the milling is not accurate enough due to looseness in the milling process in the background technology, and the milling cutter is easy to collide with a workbench in the milling process to cause damage to the milling cutter and the like.

In order to solve the technical problems, the utility model is realized by the following technical scheme: a milling cutter structure of a numerical control milling machine for door and window processing production comprises a bearing table, a numerical control plate, a mounting assembly arranged above the bearing table, a milling cutter assembly and anti-collision assemblies arranged on the mounting assembly, wherein the anti-collision assemblies are positioned on two sides of the milling cutter assembly;

The mounting assembly comprises a workbench, a milling cutter and a mounting seat, the workbench is arranged above the bearing table, the workbench is provided with the milling cutter, and the mounting seat is movably arranged on one side of the milling cutter;

the milling cutter assembly comprises a milling cutter and fixing parts, the milling cutter is arranged in the mounting seat, each fixing part comprises fixing bolts, two fixing screws, a knob and fixing blocks, the fixing bolts penetrate through the milling cutter and are in threaded connection with the mounting seat, the two fixing screws are arranged on two sides of the mounting seat adjacent to the fixing bolts, one fixing screw is movably arranged on each side of the mounting seat, the fixing bolts are far away from the milling cutter, one knob is arranged at one end of each fixing screw, the other end of each fixing screw is provided with one fixing block, the fixing bolts are screwed into the milling cutter and enter the mounting seat to be fixed, the fixing screws penetrate through the mounting seat to perform rotary motion, and the fixing screws on two sides of the milling cutter move oppositely to clamp the milling cutter;

the anti-collision assembly comprises two connecting rods, connecting blocks, fixed columns, movable columns, pressing blocks, buffer springs and bottom blocks, the two connecting rods are arranged on two sides of the mounting seat, which are provided with fixing screws, respectively, each connecting rod and one end far away from the mounting seat are provided with one connecting block, one fixed column is arranged below each connecting block, one movable column is movably arranged below each fixed column, one pressing block is arranged below each movable column, one buffer spring is arranged below each pressing block, one end, far away from the pressing blocks, of each buffer spring is provided with one bottom block, each movable column performs telescopic motion in the fixed column, when a milling cutter is about to hit the workbench, the bottom blocks firstly contact the workbench and buffer through the extrusion of the buffer springs, and the milling cutter cannot hit the workbench.

Preferably, the plummer is the cuboid structure, and the corner adopts the circular arc transition.

Preferably, a numerical control plate is arranged on the bearing table and electrically connected with the milling cutter, and the numerical control plate controls the milling cutter to work.

Preferably, the numerical control board is provided with a display screen and a control key, the display screen is electrically connected with the control key, and instruction input is performed through the display screen and the control key.

Preferably, the plummer below is equipped with carrier assembly, carrier assembly includes mounting panel, carrier post and bears the foot, the mounting panel is equipped with four, four the mounting panel all sets up in the plummer below, every the mounting panel below is equipped with a carrier post, every the carrier post below is equipped with one and bears the foot, bears the foot bottom surface great, is convenient for carry on and bears the work.

Preferably, the bearing table is provided with four corners, and each mounting plate is close to one corner.

Preferably, the workstation is cuboid mechanism, just milling cutter is located workstation top intermediate position.

The utility model has the following beneficial effects:

1. according to the milling cutter fixing device, one side of the milling cutter is fixed through the fixing bolt, the fixing screw rods, the knob and the fixing blocks are matched, the knob is rotated, the fixing screw rods on the two sides move towards the milling cutter, the fixing blocks connected with one end of the fixing screw rods clamp the milling cutter, the milling cutter is fixed, the milling cutter is more stable, and the milling process is more accurate.

2. The milling cutter fixing device can move through the fixed column and the moving column, the pressing block, the buffer spring and the bottom block are matched with each other, the bottom block contacts the workbench earlier than the milling cutter, the buffer effect is performed on the workbench through the buffer spring, upward rebound force is provided, the milling cutter cannot easily contact the workbench, and the milling cutter is protected from being damaged.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

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

FIG. 1 is a schematic view of the overall structure of a milling cutter structure of a numerical control milling machine for door and window processing production according to the present invention;

FIG. 2 is a schematic view of a front view structure of a milling cutter structure of a numerically controlled milling machine for door and window processing production according to the present invention;

FIG. 3 is a schematic isometric view of a milling cutter structure of a numerically controlled milling machine for door and window processing production according to the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 2 at B.

In the drawings, the components represented by the respective reference numerals are listed below:

110. a bearing table; 120. a numerical control board; 130. a display screen; 140. a control key; 210. a work table; 220. a milling cutter; 230. a mounting seat; 310. milling cutters; 320. fixing the bolt; 330. fixing the screw rod; 340. a knob; 350. a fixed block; 410. a connecting rod; 420. connecting blocks; 430. fixing a column; 440. a movable post; 450. briquetting; 460. a buffer spring; 470. a bottom block; 510. mounting a plate; 520. a load bearing column; 530. a load-bearing foot.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the utility model is a milling cutter structure of a numerical control milling machine for door and window processing production, comprising a bearing table 110, a numerical control plate 120, a mounting assembly arranged above the bearing table 110, a milling cutter assembly and an anti-collision assembly arranged on the mounting assembly, wherein the anti-collision assembly is positioned at two sides of the milling cutter assembly;

the mounting assembly comprises a workbench 210, a milling cutter 220 and a mounting seat 230, the workbench 210 is arranged above the bearing table 110, the workbench 210 is provided with the milling cutter 220, and the mounting seat 230 is movably arranged on one side of the milling cutter 220;

the milling cutter assembly comprises a milling cutter 310 and fixing parts, the milling cutter 310 is arranged in the mounting seat 230, each fixing part comprises a fixing bolt 320, a fixing screw 330, a knob 340 and a fixing block 350, the fixing bolts 320 penetrate through the milling cutter 310 and are in threaded connection with the mounting seat 230, two fixing screws 330 are arranged, two sides of the mounting seat 230 adjacent to the fixing bolts 320 are respectively and movably provided with one fixing screw 330, one end, far away from the milling cutter 310, of each fixing screw 330 is provided with one knob 340, the other end of each fixing screw 330 is provided with one fixing block 350, the fixing bolts 320 are screwed into the milling cutter 310 and enter the mounting seat 230 for fixing, the fixing screws 330 penetrate through the mounting seat 230 for rotary motion, and the fixing screws 330 on two sides of the milling cutter 310 move oppositely to clamp the milling cutter 310;

The anti-collision assembly comprises two connecting rods 410, two connecting blocks 420, two fixed columns 430, two movable columns 440, a pressing block 450, a buffer spring 460 and a bottom block 470, wherein two connecting rods 410 are arranged on two sides of the mounting seat 230, which are provided with the fixing screw 330, respectively, one connecting block 420 is arranged on each connecting rod 410 and one end, which is far away from the mounting seat 230, a fixed column 430 is arranged below each connecting block 420, one movable column 440 is movably arranged below each fixed column 430, one pressing block 450 is arranged below each movable column 440, one buffer spring 460 is arranged below each pressing block 450, one bottom block 470 is arranged on one end, which is far away from the pressing block 450, of each buffer spring 460, the movable columns 440 perform telescopic motion in the fixed columns 430, when the milling cutter 310 is about to hit the table 210, the bottom block 470 first contacts the table 210, the buffering is performed by pressing the buffering spring 460 so that the milling cutter 310 does not collide with the table 210.

Further, the carrier table 110 is a rectangular parallelepiped structure, and the corners are in arc transition.

Further, a numerical control board 120 is disposed on the bearing table 110, the numerical control board 120 is electrically connected to the milling cutter 220, and the numerical control board 120 controls the milling cutter 220 to work.

Furthermore, a display screen 130 and control keys 140 are arranged on the numerical control board 120, the display screen 130 is electrically connected with the control keys 140, and instruction input is performed through the display screen 130 and the control keys 140.

Further, a bearing assembly is arranged below the bearing table 110, the bearing assembly comprises four mounting plates 510, four bearing columns 520 and four bearing pins 530, the four mounting plates 510 are arranged below the bearing table 110, one bearing column 520 is arranged below each mounting plate 510, one bearing pin 530 is arranged below each bearing column 520, the bottom surface of each bearing pin 530 is large, and bearing work is facilitated.

Further, the carrier table 110 has four corners, and each mounting plate 510 is adjacent to one corner.

Further, the table 210 is a rectangular parallelepiped mechanism, and the milling cutter 310 is located at an intermediate position above the table 210.

When a person uses the milling cutter device, the milling cutter 310 is initially fixed on the mounting base 230 through the fixing bolt 320, the knobs 340 on two sides of the milling cutter 310 are rotated to move the fixing screw rods 330 on two sides of the milling cutter 310 towards the milling cutter 310, the fixing blocks 350 clamp and fix the milling cutter 310, a workpiece is placed on the workbench 210 below the milling cutter 310, the milling cutter 220 is controlled to work through the numerical control plate 120, in order to prevent the milling cutter 310 from contacting the workbench 210, the connecting rod 410 and the connecting block 420 are arranged on two sides of the mounting base 230 and connected to the upper side through the pressing block 450, the buffer spring 460 and the bottom block 470, the bottom block 470 contacts the workbench 210 before the milling cutter 310, the buffer effect is performed through the buffer spring 460 on the workbench 210, an upward rebound force is provided, the milling cutter 310 cannot easily contact the workbench 210, and the milling cutter 310 is protected from being damaged.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The milling cutter structure of the numerical control milling machine for door and window processing production is characterized by comprising a bearing table (110), a numerical control plate (120), a mounting assembly arranged above the bearing table (110), a milling cutter assembly and anti-collision assemblies arranged on the mounting assembly, wherein the anti-collision assemblies are positioned on two sides of the milling cutter assembly;

the mounting assembly comprises a workbench (210), a milling cutter (220) and a mounting seat (230), the workbench (210) is arranged above the bearing table (110), the milling cutter (220) is arranged on the workbench (210), and the mounting seat (230) is movably arranged on one side of the milling cutter (220);

The milling cutter assembly comprises a milling cutter (310) and fixing portions, the milling cutter (310) is arranged inside the mounting seat (230), each fixing portion comprises a fixing bolt (320), a fixing screw (330), a knob (340) and a fixing block (350), the fixing bolts (320) penetrate through the milling cutter (310) and are in threaded connection with the mounting seat (230), two fixing screws (330) are arranged, two fixing screws (330) are movably arranged on two adjacent sides of the mounting seat (230) and the fixing bolts (320), one end, far away from the milling cutter (310), of each fixing screw (330) is provided with one knob (340), and the other end of each fixing screw (330) is provided with one fixing block (350);

the anti-collision assembly comprises a connecting rod (410), a connecting block (420), a fixed column (430), a movable column (440), a pressing block (450), a buffer spring (460) and a bottom block (470), the connecting rods (410) are two, two connecting rods (410) are respectively arranged on two sides of the mounting seat (230) where the fixing screw rods (330) are arranged, each connecting rod (410) and one end far away from the mounting seat (230) are provided with a connecting block (420), a fixing column (430) is arranged below each connecting block (420), a movable column (440) is movably arranged below each fixing column (430), a pressing block (450) is arranged below each movable column (440), a buffer spring (460) is arranged below each pressing block (450), and a bottom block (470) is arranged at one end, far away from the pressing block (450), of each buffer spring (460).

2. The milling cutter structure of the numerical control milling machine for door and window processing production of claim 1, wherein: the bearing table (110) is of a cuboid structure, and corners are in arc transition.

3. The milling cutter structure of the numerical control milling machine for door and window processing production of claim 1, wherein: the numerical control device is characterized in that a numerical control plate (120) is arranged on the bearing table (110), and the numerical control plate (120) is electrically connected with the milling cutter (220).

4. The milling cutter structure of the numerical control milling machine for door and window processing production of claim 3, wherein: the numerical control panel (120) is provided with a display screen (130) and a control key (140), and the display screen (130) is electrically connected with the control key (140).

5. The milling cutter structure of the numerical control milling machine for door and window processing production of claim 1, wherein: bearing assembly is equipped with in plummer (110) below, bearing assembly includes mounting panel (510), bears post (520) and bears foot (530), mounting panel (510) are equipped with four, four mounting panel (510) all set up in plummer (110) below, every mounting panel (510) below is equipped with one and bears post (520), every bear post (520) below is equipped with one and bears foot (530).

6. The milling cutter structure of the numerical control milling machine for door and window processing production of claim 5, wherein: the bearing table (110) is provided with four corners, and each mounting plate (510) is close to one corner.

7. The milling cutter structure of the numerical control milling machine for door and window processing production of claim 1, wherein: the workbench (210) is a cuboid mechanism, and the milling cutter (310) is located in the middle position above the workbench (210).

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