CN219541822U - Servo transmission workbench of numerical control milling machine - Google Patents

Abstract

The utility model relates to the technical field of numerically controlled milling machines, in particular to a servo transmission workbench of a numerically controlled milling machine, which comprises a numerically controlled milling machine and a double-end stud, wherein the outer walls of two ends of the double-end stud are rotationally connected with the numerically controlled milling machine through bearings, a second motor is fixedly connected with the outer wall of the numerically controlled milling machine, an output shaft of the second motor is fixedly connected with the double-end stud, two thread blocks are in threaded connection with the outer wall of the double-end stud, and a support plate is fixedly connected above the thread blocks. Through the cooperation between frame, first motor, bull stick, flabellum, feeder hopper, filter screen, pipeline and the collection bag, first motor drives the bull stick and rotates, and the bull stick drives the flabellum and rotates, makes in the feeder hopper produce the suction when the flabellum rotates, produces raw materials when washing and cuts in inhaling the feeder hopper, and the filter screen prevents that the material bits from falling on the flabellum, and the material bits enter into along the pipeline in the collection bag, collect the material bits, prevent that the material bits can influence washing and cut the normal clear of operation.

Description

Servo transmission workbench of numerical control milling machine

Technical Field

The utility model relates to the technical field of numerical control milling machines, in particular to a servo transmission workbench of a numerical control milling machine.

Background

Along with the improvement of the living standard of people and the wide application of aluminum-plastic doors and windows, especially the rapid growth of the home decoration industry, the requirements of people on the aesthetic and practical properties of doors and windows are continuously improved, and the numerical control milling machine is widely applied due to the advantages of high processing precision, high processing efficiency, convenient programming and the like as the numerical control milling machine can process three surfaces of sectional materials.

For example, the number of the section bar clamping devices is CN217433681U, which comprises a working table plate and a pressing cylinder, wherein the pressing cylinder is arranged on the working table plate, and the positioning and pressing direction of the pressing cylinder is along the Y-axis direction of the frame; the working platen turning device comprises a servo driving unit and a rotating beam, wherein the output end of the servo driving unit is provided with the rotating beam, the working platen is located above the rotating beam, and the working platen can move back and forth along the X-axis direction of the frame.

Disclosure of Invention

The utility model aims to solve the problem that scraps can influence the normal running of a washing operation, and provides a servo transmission workbench of a numerical control milling machine.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a servo drive workstation of numerically controlled fraise machine, includes numerically controlled fraise machine and double-end stud, the outer wall at double-end stud all rotates with the numerically controlled fraise machine through the bearing and links to each other, the inside of numerically controlled fraise machine is provided with clearance mechanism, the outer wall rigid coupling of numerically controlled fraise machine has the second motor, the output shaft of second motor links to each other with the double-end stud is fixed, the outer wall threaded connection of double-end stud has two thread blocks, the top rigid coupling of thread block has the extension board.

Preferably, the cleaning mechanism comprises a frame, the frame rigid coupling is in the inside of numerically controlled fraise machine, the inside rigid coupling of frame has first motor, the output shaft rigid coupling of first motor has the bull stick, the outer wall of bull stick rotates with the frame through the bearing and links to each other, the tip rigid coupling of bull stick has the flabellum, the upper end rigid coupling of frame has the feeder hopper, the inner wall rigid coupling of feeder hopper has the filter screen, the feeder hopper is fixed continuous with the outer wall of pipeline, the tip of pipeline has the collection bag through the bandage rigid coupling.

Preferably, two second sliding blocks are fixedly connected below the support plate and are connected with the outer wall of the sliding rod in a sliding manner, and two ends of the sliding rod are fixedly connected with the numerical control milling machine.

Preferably, the surface rigid coupling of extension board has second pneumatic cylinder and splint, the hydraulic stem rigid coupling of second pneumatic cylinder has the clamp splice, the outer wall and the extension board slip of clamp splice link to each other.

Preferably, a first driving frame is fixedly connected above the numerical control milling machine, a second driving frame is arranged above the first driving frame, a third driving frame is arranged in front of the second driving frame, and a cutting machine head is arranged below the third driving frame.

The servo transmission workbench of the numerical control milling machine has the beneficial effects that: through the cooperation between frame, first motor, bull stick, flabellum, feeder hopper, filter screen, pipeline and the collection bag, first motor drives the bull stick and rotates, and the bull stick drives the flabellum and rotates, makes in the feeder hopper produce the suction when the flabellum rotates, produces raw materials when washing and cuts in inhaling the feeder hopper, and the filter screen prevents that the material bits from falling on the flabellum, and the material bits enter into along the pipeline in the collection bag, collect the material bits, prevent that the material bits can influence washing and cut the normal clear of operation.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the structure of the present utility model;

FIG. 3 is a schematic view of the connection of the frame, the first motor and the rotating rod in the present utility model;

fig. 4 is a schematic structural view of a joint of a second motor, a screw block and a support plate in the present utility model.

In the figure: 1. a numerical control milling machine, 2, a double-end stud, 3, a cleaning mechanism, 301, a frame, 302, a first motor, 303, a rotating rod, 304, fan blades, 305, a feed hopper, 306, a filter screen, 307, a pipeline, 308, a collecting bag, 3a1, a bracket, 3a2, a first hydraulic cylinder, 4, a second motor, 5, a thread block, 6, a support plate, 7, a second sliding block, 8, a sliding rod, 9, a second hydraulic cylinder, 10, a clamping block, 11, a clamping plate, 12, a first driving frame, 13, a second driving frame, 14, a third driving frame, 15 and a cutting machine head.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

example 1:

referring to fig. 1-4: in this embodiment, a servo drive workstation of numerically controlled fraise machine, including numerically controlled fraise machine 1 and stud 2, the outer wall at stud 2 both ends all rotates with numerically controlled fraise machine 1 through the bearing and links to each other, the inside of numerically controlled fraise machine 1 is provided with clearance mechanism 3, clearance mechanism 3 is convenient for clear up the bits, the outer wall rigid coupling of numerically controlled fraise machine 1 has second motor 4, the output shaft and the stud 2 of second motor 4 are fixed to be linked to each other, second motor 4 drives stud 2 and rotates, the outer wall threaded connection of stud 2 has two screw thread blocks 5, stud 2 drives two screw thread blocks 5 and moves, the top rigid coupling of screw thread block 5 has extension board 6, screw thread block 5 drives extension board 6 and moves, the below rigid coupling of extension board 6 has two second sliders 7, extension board 6 drives two second sliders 7 and slide bar 8's outer wall slip links to each other, second slider 7 slides at slide bar 8's outer wall, slide bar 8's both ends all link to each other with numerically controlled cylinder 1, the surface rigid coupling of extension board 6 has second pneumatic cylinder 9 and splint 11, the second pneumatic cylinder 9 rigid coupling has the second 10 to have first and second clamping frame 14, the first drive frame 14 of second pneumatic cylinder 10, the first drive frame 14 is provided with the first drive frame 14 of the first drive frame 14 in the first drive frame 13, the first drive frame 14 of the first drive frame 13 in the first drive frame 13, the first drive frame 14 is provided with the first drive frame 13 in the drive frame 13 direction of the first drive frame 13 in the first drive frame, the first drive frame 13 of the drive frame in the first drive frame 13 in the drive frame in the first drive frame in the direction of the second drive frame.

The cleaning mechanism 3 comprises a frame 301, a first motor 302, a rotating rod 303, a fan blade 304, a feed hopper 305, a filter screen 306, a pipeline 307 and a collecting bag 308, wherein the frame 301 is fixedly connected in the numerical control milling machine 1, hollow-out arrangement is arranged in the frame 301, cooling liquid is not accumulated in the frame 301, the first motor 302 is fixedly connected in the frame 301, the rotating rod 303 is fixedly connected with an output shaft of the first motor 302, the rotating rod 303 is driven by the first motor 302 to rotate, the outer wall of the rotating rod 303 is rotationally connected with the frame 301 through a bearing, the fan blade 304 is fixedly connected with the end part of the rotating rod 303, the fan blade 304 is driven by the rotating rod 303 to rotate, suction is generated in the feed hopper 305 by the fan blade 304, the upper end of the frame 301 is fixedly connected with the feed hopper 305, the filter screen 306 is fixedly connected with the inner wall of the feed hopper 305, the filter screen 306 prevents the material scraps from falling onto the fan blade 304, the feed hopper 305 is fixedly connected with the outer wall of the pipeline 307, the pipeline 307 is communicated with the feed hopper 305, the sucked material scraps enter the pipeline 307, the end part of the pipeline 307 is fixedly connected with the collecting bag 308 through the binding belt, the end part of the collecting bag 308 is fixedly connected with the pipeline 307, the material scraps is collected by the binding belt, the material scraps, the collecting bag 308 is made of nylon, the material is and the material is not fixedly required to be used according to the actual model of the collecting bag 308, the type is selected and can be used according to the requirement;

the first motor 302 drives the rotation of the rotating rod 303, the rotation of the rotating rod 303 drives the fan blades 304, suction is generated in the feed hopper 305 when the fan blades 304 rotate, raw material generated during washing is sucked into the feed hopper 305, the filter screen 306 prevents the raw material scraps from falling onto the fan blades 304, the raw material scraps enter the collecting bag 308 along the pipeline 307, the raw material scraps are collected, and the normal operation of washing and cutting operations is prevented from being influenced by the raw material scraps.

Working principle:

when the servo transmission workbench of the numerical control milling machine is used, the positions of the support plates 6 on two sides are adjusted according to the size of a workpiece to be cut, the second motor 4 is started, the second motor 4 drives the stud 2 to rotate, the stud 2 drives the two threaded blocks 5 to move, the threaded blocks 5 drive the support plates 6 to move, the support plates 6 move horizontally under the cooperation of the second sliding block 7 and the sliding rod 8, the second motor 4 is closed when the support plates 6 on two sides move to the required positions, the workpiece is placed between the two clamping blocks 10 and the two clamping plates 11, the clamping blocks 10 are driven by the second hydraulic cylinder 9, the workpiece is fixed by the two clamping blocks 10 and the clamping plates 11, the cutting machine head 15 is positioned at the cutting position of the workpiece through the first driving frame 12, the second driving frame 13 and the third driving frame 14, the cutting machine head 15 cuts the workpiece, the first motor 302 is started, the first motor 302 drives the rotating rod 303 to rotate, the rotating rod 303 drives the fan blades 304 to rotate, the raw meal 304 is produced in the feed hopper 305 during cutting, the raw meal 304 is sucked into the feed hopper, the filter screen 304 is prevented from falling onto the pipeline 307, and the filter screen 308 is prevented from being sucked into the filter screen, and the chip is prevented from being cut normally.

Example 2:

referring to fig. 1-4: in this embodiment, the cleaning mechanism 3 further includes a bracket 3a1 and a first hydraulic cylinder 3a2, the first hydraulic cylinder 3a2 is fixedly connected inside the numerically controlled milling machine 1, a hydraulic rod of the first hydraulic cylinder 3a2 is fixedly connected with the bracket 3a1, the first hydraulic cylinder 3a2 drives the bracket 3a1 to slide, the bracket 3a1 is fixedly connected with the frame 301, the bracket 3a1 drives the frame 301 to move, and in embodiment 2, the frame 301 is arranged inside the numerically controlled milling machine 1;

through the cooperation between support 3a1 and the first pneumatic cylinder 3a2, the support 3a1 slip is driven to first pneumatic cylinder 3a2, and support 3a1 drives the position of frame 301 and feeder hopper 305, and then can be according to the position adjustment clearance mechanism 3 that the work piece washed, is convenient for clear up the bits of material.

Working principle:

when washing, start first pneumatic cylinder 3a2, first pneumatic cylinder 3a2 drive support 3a1 slides, and support 3a1 drives the position of frame 301 and feeder hopper 305, and then can adjust the position of clearance mechanism 3 according to the position that the work piece washed, is convenient for clear up the bits.

While the utility model has been shown and described with reference to a preferred embodiment, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the utility model.

Claims (5)

1. The utility model provides a servo drive workstation of numerically controlled fraise machine, includes numerically controlled fraise machine (1) and double-end stud (2), the outer wall at double-end stud (2) both ends all rotates with numerically controlled fraise machine (1) through the bearing and links to each other, its characterized in that: the inside of numerically controlled fraise machine (1) is provided with clearance mechanism (3), the outer wall rigid coupling of numerically controlled fraise machine (1) has second motor (4), the output shaft of second motor (4) links to each other with stud (2) is fixed, the outer wall threaded connection of stud (2) has two screw thread pieces (5), the top rigid coupling of screw thread piece (5) has extension board (6).

2. A servo drive table for a numerically controlled milling machine as in claim 1, wherein: the cleaning mechanism (3) comprises a frame (301), the frame (301) is fixedly connected in the numerical control milling machine (1), a first motor (302) is fixedly connected in the frame (301), a rotating rod (303) is fixedly connected to an output shaft of the first motor (302), the outer wall of the rotating rod (303) is rotationally connected with the frame (301) through a bearing, fan blades (304) are fixedly connected to the end portions of the rotating rod (303), a feed hopper (305) is fixedly connected to the upper end of the frame (301), a filter screen (306) is fixedly connected to the inner wall of the feed hopper (305), the feed hopper (305) is fixedly connected with the outer wall of a pipeline (307), and a collecting bag (308) is fixedly connected to the end portion of the pipeline (307) through a binding belt.

3. A servo drive table for a numerically controlled milling machine as in claim 1, wherein: two second sliding blocks (7) are fixedly connected below the support plate (6), the second sliding blocks (7) are connected with the outer wall of the sliding rod (8) in a sliding mode, and two ends of the sliding rod (8) are fixedly connected with the numerical control milling machine (1).

4. A servo drive table for a numerically controlled milling machine as in claim 1, wherein: the surface rigid coupling of extension board (6) has second pneumatic cylinder (9) and splint (11), the hydraulic stem rigid coupling of second pneumatic cylinder (9) has clamp splice (10), the outer wall of clamp splice (10) links to each other with extension board (6) slip.

5. A servo drive table for a numerically controlled milling machine as in claim 1, wherein: the top rigid coupling of numerically controlled fraise machine (1) has first actuating frame (12), the top of first actuating frame (12) is provided with second actuating frame (13), the place ahead of second actuating frame (13) is provided with third actuating frame (14), the below of third actuating frame (14) is provided with washing aircraft nose (15).