CN217433149U - End face milling equipment for titanium alloy bar-shaped blank - Google Patents

Abstract

The utility model discloses an end face milling equipment for titanium alloy bar-shaped blank, which relates to the field of milling equipment and comprises a milling equipment frame, wherein the surface of the milling equipment frame is provided with two groups of rotating mechanisms, the surface of the milling equipment frame is provided with two groups of adjusting mechanisms, the surface of a moving mechanism is provided with a milling cutter, and the milling cutter is in transmission connection with the power output end of a driving motor through a coupling, the processing efficiency is improved, and the method is suitable for popularization.

Description

End face milling equipment for titanium alloy bar-shaped blank

Technical Field

The utility model relates to a mill the equipment field, in particular to an end face milling equipment for bar-shaped blank of titanium alloy.

Background

Milling is a method of cutting a workpiece with a rotating multi-edge tool and is a high-precision machining method. When the milling machine is in work, a cutter rotates (does main motion), a workpiece moves (does feed motion), the workpiece can also be fixed, but the rotating cutter still needs to move (completes the main motion and the feed motion simultaneously), the milling machine tool comprises a horizontal milling machine or a vertical milling machine and a large-scale planomiller, the machine tools can be common machine tools and can also be numerical control machine tools, and the cross section of the titanium alloy bar needs to be milled in the production and processing process of the titanium alloy bar.

However, when the existing milling equipment is used, after the milling cutter is started, the titanium alloy bar is manually held by a worker and is in contact with the rotating milling cutter, and then milling of the end face of the titanium alloy bar is achieved, milling precision cannot be guaranteed, meanwhile, certain dangerousness exists, after part of the milling equipment is fixed to the titanium alloy bar by the mechanical clamp, the position is adjusted to conduct milling operation, but only one titanium alloy bar can be milled at one time, and the milling interval between multiple titanium alloy bars is large, so that the actual processing efficiency is affected, and therefore, the end face milling equipment for the titanium alloy bar blank is necessary to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an end face milling equipment for bar-shaped blank of titanium alloy to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a face milling equipment for bar-shaped blank of titanium alloy, is including milling the equipment frame, the surface that mills the equipment frame is provided with two sets of rotary mechanism, and is two sets of rotary mechanism bilateral symmetry sets up, rotary mechanism's inside is provided with four fixed establishment of group, and four groups fixed establishment is circumference array distribution, the surface that mills the equipment frame is provided with two sets of adjustment mechanism, and is two sets of adjustment mechanism bilateral symmetry sets up, the surface mounting who mills the equipment frame has the alignment jig, the inside of alignment jig is provided with moving mechanism, moving mechanism's surface is provided with the milling cutter, the milling cutter passes through the shaft coupling and is connected with driving motor's power take off end transmission.

Preferably, rotary mechanism includes fixed plate, rotating electrical machines, driving gear, location fluted disc and locating hole, the fixed plate is provided with two sets ofly, and is two sets of the symmetry sets up around the fixed plate, the medial surface at the front end fixed plate is installed to the rotating electrical machines, the driving gear passes through the shaft coupling and is connected with the power take off end transmission of rotating electrical machines, the meshing of location fluted disc is on the surface of driving gear, the locating hole is provided with four groups, four groups the locating hole is the inside that the circumference array was seted up at the location fluted disc, the both sides face of milling equipment frame has all been seted up and has been placed the through-hole, and it is corresponding with lower extreme locating hole to place the through-hole.

Preferably, the rotating mechanism further comprises a driven gear and a positioning rotating rod, the driven gear is meshed with the surface of the positioning fluted disc, the positioning rotating rod is fixed at the middle end of the outer side face of the driven gear, the rear end of the positioning rotating rod is provided with a positioning rotating hole in the inner side face of the fixing plate, and the positioning rotating rod is rotatably connected inside the positioning rotating hole.

Preferably, fixing mechanism includes telescopic cylinder and grip block, the notch has been seted up to the inside of location fluted disc, and the notch is linked together with the locating hole, telescopic cylinder installs in the notch, and telescopic cylinder's output sets up outwards, the output surface at telescopic cylinder is installed to the grip block.

Preferably, adjustment mechanism includes propelling movement cylinder and propelling movement cover, the propelling movement cylinder is installed at the left and right sides face of milling equipment frame, and the output of propelling movement cylinder sets up towards the inboard, the output surface at the propelling movement cylinder is installed to the propelling movement cover, and the propelling movement cover is corresponding with the top locating hole.

Preferably, the moving mechanism includes step motor, threaded rod and connecting seat, step motor installs the front surface at the alignment jig, the threaded rod passes through the shaft coupling and is connected with step motor's power take off transmission, connecting seat threaded connection is on the surface of threaded rod, the milling cutter rotates to be connected in the connecting seat, driving motor installs the surface at the connecting seat.

Preferably, the moving mechanism further comprises two groups of bearing seats, the two groups of bearing seats are sleeved on the circumferential surfaces of the end parts of the two sides of the threaded rod, and the bearing seats are fixed on the inner wall of the adjusting frame.

The utility model discloses a technological effect and advantage:

1. by arranging the fixing mechanism and the adjusting mechanism, a titanium alloy bar is placed inside the positioning hole through the placing through hole, then the telescopic cylinder is stretched and adjusted to enable the clamping plate to be fixed, then the fixed titanium alloy bar is rotated to the upper end, the pushing cylinder is adjusted to enable the pushing sleeve to be in contact with the outer end of the titanium alloy bar at the moment, then the pushing sleeve is separated from the titanium alloy bar, the position of the titanium alloy bar is changed by stretching and adjusting the pushing cylinder, after the position is adjusted, the telescopic cylinder is adjusted to fix the titanium alloy bar again, the operation is simple, and the milling precision of the titanium alloy bar is ensured;

2. through setting up rotary mechanism, put into a titanium alloy bar after the locating hole, adjust the rotating electrical machines and make the driving gear rotatory, make the location fluted disc drive titanium alloy bar remove then, can continue to place titanium alloy bar in to the locating hole this moment, after fixing the titanium alloy bar, start driving motor and adjust step motor, change the position of milling cutter, realize milling process simultaneously to two titanium alloy bars, adjust the rotating electrical machines and can process many titanium alloy bars fast, the machining efficiency is improved, and the device is suitable for popularization.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the rotating mechanism of the present invention.

Fig. 3 is a schematic view of the sectional structure of the fixing mechanism of the present invention.

Fig. 4 is a schematic view of the bottom view structure of the moving mechanism of the present invention.

In the figure: 1. milling a device frame; 2. a rotation mechanism; 201. a fixing plate; 202. a rotating electric machine; 203. a driving gear; 204. positioning a fluted disc; 205. positioning holes; 206. a driven gear; 207. positioning the rotating rod; 3. a fixing mechanism; 301. a telescopic cylinder; 302. a clamping plate; 4. an adjustment mechanism; 401. a push cylinder; 402. pushing the sleeve; 5. an adjusting bracket; 6. a moving mechanism; 601. a stepping motor; 602. a threaded rod; 603. a connecting seat; 604. a bearing seat; 7. milling a cutter; 8. the motor is driven.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

The utility model provides a terminal surface milling equipment for bar-shaped blank of titanium alloy as shown in fig. 1-4, including milling equipment rack 1, the surface that mills equipment rack 1 is provided with two sets of rotary mechanism 2, two sets of rotary mechanism 2 bilateral symmetry sets up, rotary mechanism 2's inside is provided with four fixed establishment 3 of group, four fixed establishment 3 of group are the circumference array and distribute, the surface that mills equipment rack 1 is provided with two sets of adjustment mechanism 4, two sets of adjustment mechanism 4 bilateral symmetry sets up, the surface mounting who mills equipment rack 1 has alignment jig 5, the inside of alignment jig 5 is provided with moving mechanism 6, moving mechanism 6's surface is provided with milling cutter 7, milling cutter 7 passes through the shaft coupling and is connected with driving motor 8's power take off end transmission.

The rotating mechanism 2 comprises a fixing plate 201, a rotating motor 202, a driving gear 203, a positioning fluted disc 204 and positioning holes 205, wherein two groups of fixing plates 201 are arranged on the fixing plate 201, the two groups of fixing plates 201 are symmetrically arranged in front and back, the rotating motor 202 is arranged on the inner side surface of the front end fixing plate 201, the driving gear 203 is in transmission connection with the power output end of the rotating motor 202 through a coupler, the positioning fluted disc 204 is meshed on the surface of the driving gear 203, four groups of positioning holes 205 are arranged on the positioning fluted disc 205 in a circumferential array manner, placing through holes are formed in both side surfaces of the milling equipment rack 1 and correspond to the lowermost positioning hole 205, after milling of one titanium alloy bar is completed, the rotating motor 202 is adjusted to rotate the driving gear 203, then the positioning fluted disc 204 drives the titanium alloy bar to move, the titanium alloy bar to be processed is transferred to the upper end and is continuously milled, the processing efficiency is improved.

The rotating mechanism 2 further comprises a driven gear 206 and a positioning rotating rod 207, the driven gear 206 is meshed with the surface of the positioning fluted disc 204, the positioning rotating rod 207 is fixed at the middle end of the outer side face of the driven gear 206, a positioning rotating hole is formed in the inner side face of the rear end fixing plate 201, the positioning rotating rod 207 is rotatably connected inside the positioning rotating hole, in the process of adjusting the rotation of the positioning fluted disc 204, the driven gear 206 is meshed with the positioning fluted disc 204, and meanwhile, the positioning rotating rod 207 is positioned and rotated in the positioning rotating hole, so that the stability of the rotation process of the positioning fluted disc 204 is ensured.

Fixing mechanism 3 includes telescopic cylinder 301 and grip block 302, the notch has been seted up to the inside of location fluted disc 204, and the notch is linked together with locating hole 205, telescopic cylinder 301 installs in the notch, and telescopic cylinder 301's output sets up outwards, grip block 302 installs the output surface at telescopic cylinder 301, put into titanium alloy bar back in the locating hole 205, the realization is to the location of titanium alloy bar, tensile telescopic cylinder 301 of adjusting makes grip block 302 carry out the centre gripping fixedly to titanium alloy bar, guarantee titanium alloy bar milling process's precision.

Adjustment mechanism 4 includes propelling movement cylinder 401 and propelling movement cover 402, propelling movement cylinder 401 is installed at milling equipment rack 1's the left and right sides face, and propelling movement cylinder 401's output sets up towards the inboard, propelling movement cover 402 is installed on propelling movement cylinder 401's output surface, and propelling movement cover 402 is corresponding with top locating hole 205, with the rotatory back to the top of titanium alloy bar, tensile regulation propelling movement cylinder 401 makes propelling movement cover 402 contact with the titanium alloy bar, the position that the adjustment titanium alloy bar was located simultaneously.

The moving mechanism 6 comprises a stepping motor 601, a threaded rod 602 and a connecting seat 603, the stepping motor 601 is installed on the front surface of the adjusting frame 5, the threaded rod 602 is in transmission connection with a power output end of the stepping motor 601 through a coupler, the connecting seat 603 is in threaded connection with the surface of the threaded rod 602, the milling cutter 7 is rotatably connected into the connecting seat 603, the driving motor 8 is installed on the surface of the connecting seat 603, when the titanium alloy bar is milled, the driving motor 8 is started to enable the milling cutter 7 to rotate, meanwhile, the position of the milling cutter 7 is changed by adjusting the stepping motor 601, and automatic milling is achieved.

The moving mechanism 6 further comprises bearing seats 604, the bearing seats 604 are provided with two groups, the two groups of bearing seats 604 are sleeved on the circumferential surfaces of the end portions of the two sides of the threaded rod 602, the bearing seats 604 are fixed on the inner wall of the adjusting frame 5, in the rotating process of the adjusting threaded rod 602, the threaded rod 602 is positioned and rotated in the bearing seats 604, and stability of the milling cutter 7 in the moving process is guaranteed.

The working principle is as follows: when the device is used, a titanium alloy bar to be milled is placed into the positioning hole 205 through the through hole, then the corresponding telescopic cylinder 301 is stretched and adjusted inwards to limit and fix the titanium alloy bar by the clamping plate 302, then the rotating motor 202 is adjusted to rotate the driving gear 203, the driving gear 203 is meshed with the positioning fluted disc 204, the fixed titanium alloy bar is rotated to the upper end, then the pushing cylinder 401 is adjusted to enable the pushing sleeve 402 to be in contact with the outer side surface of the titanium alloy bar, the telescopic cylinder 301 is adjusted to enable the clamping plate 302 to be separated from the titanium alloy bar, then the pushing cylinder 401 is continuously adjusted to change the position of the titanium alloy bar, after the position is adjusted, the telescopic cylinder 301 is stretched and adjusted to enable the clamping plate 302 to fix the titanium alloy bar again, after the titanium alloy bars are installed in the positioning holes 205 on two sides, the driving motor 8 is started to enable the milling cutter 7 to rotate, and meanwhile the stepping motor 601 is adjusted to change the position of the milling cutter 7, the milling processing of the titanium alloy bars on the two sides is achieved, the milling efficiency is improved, after the milling processing of the two titanium alloy bars is completed, the pushing cylinder 401 is contracted, the rotating motor 202 is adjusted, the other titanium alloy bar is rotated to the upper end, then the other titanium alloy bar can be milled, the milling gaps of the multiple titanium alloy bars are reduced, the milling efficiency is improved, in the process of milling the titanium alloy bars, the other milled titanium alloy bars are taken down, and then the other titanium alloy bars which are not milled are installed again.

Claims (7)

1. A face milling equipment for titanium alloy bar-shaped blank, which comprises a milling equipment frame (1), and is characterized in that: the surface of milling equipment frame (1) is provided with two sets of rotary mechanism (2), and is two sets of rotary mechanism (2) bilateral symmetry sets up, the inside of rotary mechanism (2) is provided with four fixed establishment (3), and is four groups fixed establishment (3) are circumference array distribution, the surface of milling equipment frame (1) is provided with two sets of adjustment mechanism (4), and is two sets of adjustment mechanism (4) bilateral symmetry sets up, the surface mounting of milling equipment frame (1) has alignment jig (5), the inside of alignment jig (5) is provided with moving mechanism (6), the surface of moving mechanism (6) is provided with milling cutter (7), milling cutter (7) are connected through the power take off end transmission of shaft coupling with driving motor (8).

2. The end face milling apparatus for the titanium alloy rod-shaped billet according to claim 1, characterized in that: rotary mechanism (2) are including fixed plate (201), rotating electrical machines (202), driving gear (203), location fluted disc (204) and locating hole (205), fixed plate (201) are provided with two sets ofly, and are two sets of fixed plate (201) front and back symmetry sets up, the medial surface at front end fixed plate (201) is installed in rotating electrical machines (202), driving gear (203) are connected through the power take off transmission of shaft coupling and rotating electrical machines (202), location fluted disc (204) meshing is on the surface of driving gear (203), locating hole (205) are provided with four groups, four groups locating hole (205) are the inside that the circumference array was seted up at location fluted disc (204), the both sides face of milling equipment frame (1) has all been seted up and has been placed the through-hole, and it is corresponding with lower extreme locating hole (205) to place the through-hole.

3. The end face milling apparatus for the titanium alloy rod-shaped billet according to claim 2, characterized in that: the rotating mechanism (2) further comprises a driven gear (206) and a positioning rotating rod (207), the driven gear (206) is meshed on the surface of the positioning fluted disc (204), the positioning rotating rod (207) is fixed at the middle end of the outer side face of the driven gear (206), the rear end of the positioning rotating rod is provided with a positioning rotating hole in the inner side face of the fixing plate (201), and the positioning rotating rod (207) is rotatably connected inside the positioning rotating hole.

4. The end face milling apparatus for the titanium alloy rod-shaped billet according to claim 2, characterized in that: fixed establishment (3) are including telescopic cylinder (301) and grip block (302), the notch has been seted up to the inside of location fluted disc (204), and notch and locating hole (205) are linked together, telescopic cylinder (301) are installed in the notch, and telescopic cylinder's (301) output sets up outwards, the output surface at telescopic cylinder (301) is installed in grip block (302).

5. The face milling apparatus for the rod-shaped billet of titanium alloy according to claim 2, wherein: adjustment mechanism (4) are including propelling movement cylinder (401) and propelling movement cover (402), the left and right sides face in milling equipment rack (1) is installed in propelling movement cylinder (401), and the output of propelling movement cylinder (401) sets up towards the inboard, the output surface at propelling movement cylinder (401) is installed in propelling movement cover (402), and propelling movement cover (402) are corresponding with top locating hole (205).

6. The end face milling apparatus for the titanium alloy rod-shaped billet according to claim 1, characterized in that: moving mechanism (6) include step motor (601), threaded rod (602) and connecting seat (603), the front surface at alignment jig (5) is installed in step motor (601), the power take off end transmission that threaded rod (602) passed through shaft coupling and step motor (601) is connected, connecting seat (603) threaded connection is on the surface of threaded rod (602), milling cutter (7) rotate to be connected in connecting seat (603), the surface at connecting seat (603) is installed in driving motor (8).

7. The end face milling apparatus for the titanium alloy rod-shaped billet according to claim 6, characterized in that: the moving mechanism (6) further comprises bearing seats (604), the bearing seats (604) are arranged in two groups, the two groups of bearing seats (604) are sleeved on the circumferential surfaces of the end parts of the two sides of the threaded rod (602), and the bearing seats (604) are fixed on the inner wall of the adjusting frame (5).

Images