CN109108344B

CN109108344B - Production equipment for milling holes of anchor plates

Info

Publication number: CN109108344B
Application number: CN201811360865.3A
Authority: CN
Inventors: 杨家玉; 童远美; 樊飞进
Original assignee: Chongqing Changjiang Prestress Co ltd
Current assignee: Chongqing Changjiang Prestress Co ltd
Priority date: 2018-11-15
Filing date: 2018-11-15
Publication date: 2024-02-09
Anticipated expiration: 2038-11-15
Also published as: CN109108344A

Abstract

The invention provides production equipment for milling holes of anchor plates, which comprises the following components: milling machine, position driving device, slide rail, sliding seat, rotating seat, rotation driving device and clamp; the milling machine comprises: the milling machine comprises a mounting frame, a supporting table, a cutter driving mechanism and a milling head, wherein the supporting table for providing a supporting surface is arranged on the mounting frame, the cutter driving mechanism is arranged on the mounting frame and is connected with the milling head which is positioned right above the supporting surface, and the cutter driving mechanism is used for driving the milling head to move in the vertical direction and driving the milling head to rotate; the rotary driving device comprises a supporting table, a sliding rail, a sliding seat, a rotating seat, a rotary driving device and an output part, wherein the sliding rail is arranged on the supporting table, the sliding seat is arranged on the sliding rail, the rotating seat is arranged on the sliding seat and can rotate relative to the sliding seat, the rotary driving device is arranged on the bottom surface of the supporting table, and the output part of the rotary driving device passes through the supporting table, the sliding rail and the sliding seat and is then connected to the rotating seat. The production equipment for milling holes of anchor plates solves the problem that in the prior art, the clamp and the supporting table are detachably connected, so that the operation is troublesome.

Description

Production equipment for milling holes of anchor plates

Technical Field

The invention relates to production equipment of anchor plates for bridges, in particular to production equipment for milling holes of anchor plates.

Background

The anchor plate is disc-shaped, a plurality of holes are formed in the anchor plate, all holes are distributed on the circumference taking the center of the anchor plate as the center of the circle, all holes form a plurality of circles taking the anchor plate as the center of the circle, the radii of the circles formed by the holes are different, but the radii of the circles are all constant.

Among the prior art, anchor slab mills production facility for hole includes: milling machine and anchor clamps, anchor clamps are used for pressing from both sides tight anchor clamps, and the milling machine includes: mounting bracket, supporting bench, actuating mechanism and cutter head, install the supporting bench on the mounting bracket, the supporting bench is used for supporting the anchor clamps that the centre gripping has the anchor plate, the supporting bench top is provided with the cutter head, install actuating mechanism in the mounting bracket, actuating mechanism is used for driving the cutter head and removes and drive the cutter head rotation in vertical direction, because the cutter head only can finish milling an anchor eye of anchor plate at every turn, consequently, need anchor clamps can dismantle with the supporting bench to be connected, but anchor clamps can dismantle with the supporting bench to be connected, lead to milling an anchor clamps just need to dismantle at every turn, be connected anchor clamps with the supporting bench again, troublesome operation has reduced production efficiency.

Disclosure of Invention

The invention provides production equipment for milling holes of anchor plates, which solves the problem of troublesome operation caused by detachable connection of a clamp and a supporting table in the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

production equipment for milling holes of anchor plates comprises: milling machine, position driving device, slide rail, sliding seat, rotating seat, rotation driving device and clamp; the milling machine comprises: the milling machine comprises a mounting frame, a supporting table, a cutter driving mechanism and a milling head, wherein the supporting table for providing a supporting surface is arranged on the mounting frame, the cutter driving mechanism is arranged on the mounting frame and is connected with the milling head which is positioned right above the supporting surface, and the cutter driving mechanism is used for driving the milling head to move in the vertical direction and driving the milling head to rotate; the rotary anchor plate clamping device comprises a support table, a sliding rail, a sliding seat, a rotating seat, a rotary driving device, a clamp, a position driving device, a clamp and a clamp, wherein the sliding rail is arranged on the support table, the sliding seat is arranged on the sliding rail, the sliding seat is arranged on the sliding seat, the rotating seat is rotatable relative to the sliding seat, the rotary driving device is arranged on the bottom surface of the support table, an output part of the rotary driving device penetrates through the support table, the sliding rail and the sliding seat and then is connected to the rotating seat, the rotary driving device is used for driving the rotating seat to rotate, the clamp is arranged on the rotating seat, the position driving device is arranged on the support table and is connected with the sliding seat, the clamp is used for clamping an anchor plate, and when the clamp clamps the anchor plate to clamp the anchor plate, the position driving device is used for driving the anchor plate to move in the direction where the diameter is located with the anchor plate.

Compared with the prior art, the invention has the following beneficial effects:

when all holes on one circumference need to be processed, the cylinder is started, so that a certain part of the circumference surrounded by the holes on the circumference is opposite to the milling head; then, as the distance between each hole on one circumference is fixed and known, and the position relation between two adjacent circumferences is also known, the rotary driving device is started so that a certain hole on the circumference is aligned with the milling head; then, finely milling the hole aligned with the milling head to ensure that the friction coefficient of the inner wall of the hole can meet the requirement; then, starting the rotary driving device, aligning the next hole on the circumference with the milling head after rotation so as to finish-mill the next hole; finally, the above operation is cycled, and finish milling is performed on each hole. The automatic rotation of the anchor plate and the movement of the anchor plate are realized, so that each hole on the anchor plate can be finish-milled after one-time clamping.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural view of a production facility for milling holes in anchor plates;

FIG. 2 is an enlarged view of the clamp of FIG. 1;

FIG. 3 is a cross-sectional view of the clamp of FIG. 2;

fig. 4 is a top view of the driving mechanism in fig. 3.

Reference numerals: milling machine 1, mounting bracket 11, supporting table 12, milling head 13, position driving device 2, slide rail 3, sliding seat 4, rotary seat 5, rotation driving device 6, clamp 7, bottom plate 71, first arc clamping arm 72, second arc clamping arm 73, clamping driving mechanism 74, horizontal screw 741, first slider 742, connecting rod 743, elastic member 75, lifting rod 76, rod body 761, rotary cylinder 762, rotary arm 77, vertical screw 78, rotation limiting mechanism 79, first gear 791, second gear 792, driving mechanism 70, driving rod 701, second slider 702, telescopic rod 703, first mounting shaft 704, rotary rod 705, supporting shaft 706, second mounting shaft 707, and anchor plate 8.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the present invention more clear and easy to understand, the present invention is further described below with reference to the accompanying drawings and the detailed description:

as shown in fig. 1 to 4, the present invention proposes a production device for milling holes of an anchor plate 8, comprising: milling machine 1, position driving device 2, slide rail 3, sliding seat 4, rotating seat 5, rotation driving device 6 and clamp 7; the milling machine 1 includes: the milling machine comprises a mounting frame 11, a supporting table 12, a cutter driving mechanism (not shown) and a milling head 13, wherein the supporting table 12 for providing a supporting surface is mounted on the mounting frame 11, the cutter driving mechanism is mounted on the mounting frame 11 and is connected with the milling head 13 positioned right above the supporting surface, and the cutter driving mechanism is used for driving the milling head 13 to move in the vertical direction and driving the milling head 13 to rotate; the support table 12 is provided with the sliding rail 3, the sliding rail 3 is provided with the sliding seat 4 capable of sliding, the sliding seat 4 is provided with the rotating seat 5 capable of rotating relative to the sliding seat 4, the bottom surface of the support table 12 is provided with the rotary driving device 6, an output part of the rotary driving device 6 penetrates through the support table 12, the sliding rail 3 and the sliding seat 4 and then is connected to the rotating seat 5, the rotary driving device 6 is used for driving the rotating seat 5 to rotate, the rotating seat 5 is provided with the clamp 7, the support table 12 is provided with the position driving device 2, the position driving device 2 is connected with the sliding seat 4, the clamp 7 is used for clamping the anchor plate 8, and when the clamp 7 clamps the anchor plate 8, the position driving device 2 is used for driving the anchor plate 8 to move in the direction of a diameter with the anchor plate 8 through the sliding seat 4.

In order to design the position driving device 2 with a simple structure, the position driving device 2 includes: the cylinder, the piston rod of cylinder is connected to sliding seat 4.

In order to design the rotation driving device 6 with a simple structure, the rotation driving device 6 includes: the output shaft of the motor is the output part of the rotation driving device 6.

In order to achieve clamping of the anchor plate 8 from both the horizontal direction and the vertical direction and to avoid pinching of the anchor plate 8 due to the arc-shaped face of the anchor plate 8 in the horizontal direction, the clamp 7 comprises: the bottom plate 71 is used for being installed on the rotary seat 5, the first arc-shaped clamping arm 72 is fixed on the rotary seat 5, the second arc-shaped clamping arm 73 is arranged beside the first arc-shaped clamping arm 72, the second arc-shaped clamping arm 73 bends towards the direction of the first arc-shaped clamping arm 72, the first arc-shaped clamping arm 72 bends towards the direction of the second arc-shaped clamping arm 73, the second arc-shaped clamping arm 73 can move relative to the bottom plate 71, the second arc-shaped clamping arm 73 is connected with the clamping driving mechanism 74, the clamping driving mechanism 74 is used for driving the second arc-shaped clamping arm 73 to move in the direction away from or close to the first arc-shaped clamping arm 72, the clamping driving mechanism 74 is installed on the bottom plate 71, the lifting rod 76 is rotatably installed on the bottom plate 71, the elastic member 75 is installed at the joint of the lifting rod 76 and the bottom plate 71, the top of the lifting rod 76 is fixedly provided with the rotating arm 77, the rotating arm 77 is penetrated by the vertical screw 78, the vertical screw 78 is connected with the vertical screw 78, and the vertical screw 78 is used for being pressed against the vertical screw 78 in the vertical screw 78 from the vertical direction to be located at the upper edge of the vertical screw plate 8, and the vertical screw rod 78 can be kept upwards located at the vertical screw rod 75.

In order to avoid the disorder of the existing sequence due to vertical compression and horizontal compression, the clamping driving mechanism 74 drives the second arc-shaped clamping arm 73 and the first arc-shaped clamping arm 72 to clamp the anchor plate 8 in the vertical direction, and the clamp 7 further comprises: the rotation limiting mechanism 79 and the driving mechanism 70, the clamping driving mechanism 74 is connected to the rotation limiting mechanism 79 through the driving mechanism 70, and the rotation limiting mechanism 79 is used for limiting the rotation of the lifting rod 76.

To design the clamp driving mechanism 74 to be simple in structure, the clamp driving mechanism 74 includes: the horizontal screw 741, the first slider 742 and the connecting rod 743 are arranged on the bottom plate 71, the mounting cavity is provided with the first slider 742, the first slider 742 can move relative to the bottom plate 71 in the direction of enabling the second arc-shaped clamping arm 73 to be far away from or close to the first arc-shaped clamping arm 72, the first slider 742 is connected with the horizontal screw 741 which can rotate relative to the first slider 742, the horizontal screw 741 penetrates through the bottom plate 71, the horizontal screw 741 is in threaded connection with the bottom plate 71, the connecting rod 743 is arranged on the first slider 742, and a sliding groove for the connecting rod 743 to slide is arranged on the bottom plate 71.

In order to facilitate the installation of the elastic member 75, avoiding the engagement of the first gear 791 with the second gear 792 to affect the expansion and contraction of the elastic member 75, the lifter 76 includes: the rod 761 and the rotary cylinder 762 are arranged in the installation cavity, a central shaft is arranged in the installation cavity in a surrounding mode, the rotary cylinder 762 supported by the inner wall of the installation cavity is arranged outside the central shaft, a coil spring is arranged between the rotary cylinder 762 and the central shaft in a convolution mode, the coil spring is an elastic piece 75, one end of the coil spring is fixed to the central shaft, the other end of the coil spring is fixed to the inner wall of the rotary cylinder 762, the rotary cylinder 762 is fixed to one end of the rod 761, the other end of the rod 761 penetrates out of the bottom plate 71, the rod 761 and the rotary cylinder 762 can rotate relative to the bottom plate 71, the rod 761 is used for installing the rotary arm 77, and the rotary arm 77 can be kept above the anchor plate 8 under the elasticity of the coil spring.

For the simple structure of the rotation limiting mechanism 79 and the driving mechanism 70, the vertical screw 78 can compress the anchor plate 8 in the vertical direction only after the second arc-shaped clamping arm 73 clamps the anchor plate 8, so that the rotation limiting mechanism 79 with a distance between the anchor plate 8 and the first arc-shaped clamping arm 72 caused by compressing the anchor plate 8 in the vertical direction by the vertical screw 78 before the second arc-shaped clamping arm 73 clamps the anchor plate 8 is avoided, and the rotation limiting mechanism comprises: a first gear 791 and a second gear 792, wherein the rotary cylinder 762 passes through and is fixed with the first gear 791, and the first gear 791 can be meshed with a second gear 792;

the driving mechanism 70 includes: the driving rod 701, the second sliding block 702, the telescopic rod 703, the first installation shaft 704, the rotating rod 705, the supporting shaft 706 and the second installation shaft 707, the second gear 792 is fixed to one end of the second installation shaft 707, the other end of the second installation shaft 707 is fixed to one end of the rotating rod 705, the middle part of the rotating rod 705 is hinged to the supporting shaft 706, the rotating rod 705 is parallel to the horizontal plane, the other end of the rotating rod 705 is hinged to one end of the first installation shaft 704, the first installation shaft 704 is located in the vertical direction, the other end of the first installation shaft 704 is fixed to one end of the telescopic rod 703, the other end of the telescopic rod 703 extends into the second sliding block 702, the telescopic rod 703 can move relative to the second sliding block 702 in the direction perpendicular to the first installation shaft 704 and the horizontal screw 741, the second sliding block 702 can be slidably installed in the installation cavity, the second sliding block 702 is parallel to the sliding direction of the first sliding block 742, and the first sliding block 742 is fixed to the second sliding block 702 through the driving rod 701. Because the weight of the anchor plate 8 is more than 10kg, the second arc-shaped clamping arm 73 cannot have gap deviation in the vertical direction when being pushed, so that the anchor plate is clamped from the horizontal direction and then clamped from the vertical direction, the operation sequence is guaranteed through the structure, errors in the horizontal direction caused by the fact that the anchor plate is compressed from the vertical direction are avoided, and the processing quality is guaranteed.

The working principle of the embodiment is as follows: when the anchor plate 8 is installed, firstly, the anchor plate 8 is placed between the first arc-shaped clamping arm 72 and the second arc-shaped clamping arm 73 (at the moment, the horizontal screw 741 is far away from the first gear 791 and drives the second slide block 702 to move towards the first slide block 742, and the rotating rod 705 drives the second gear 792 to keep meshed with the first gear 791, so that the clamping arm keeps a deflection state and the anchor plate 8 is not blocked from being inserted between the first arc-shaped clamping arm 72 and the second arc-shaped clamping arm 73); then, the horizontal screw rod 741 is rotated, so that the horizontal screw rod 741 moves towards the first arc-shaped clamping arm 72, the first slider 742 drives the second arc-shaped clamping arm 73 to move towards the first arc-shaped clamping arm 72 through the connecting rod 743, the anchor plate 8 is clamped from the horizontal direction, a gap is difficult to appear between the anchor plate 8 and the bottom plate 71 because the anchor plate 8 is heavier, the second slider 702 is driven to move along with the first slider 742, the second gear 792 is driven by the rotating rod 705 to deflect towards the direction of the first gear 791, and finally the rotating arm 77 rotates to the position right above the anchor plate 8 under the elasticity of the coil spring; finally, the vertical screw 78 is rotated to press the anchor plate 8 against the bottom plate 71 from the vertical direction.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims

1. Production equipment for milling holes of anchor plates is characterized by comprising: milling machine, position driving device, slide rail, sliding seat, rotating seat, rotation driving device and clamp;

the milling machine comprises: the milling machine comprises a mounting frame, a supporting table, a cutter driving mechanism and a milling head, wherein the supporting table for providing a supporting surface is arranged on the mounting frame, the cutter driving mechanism is arranged on the mounting frame and is connected with the milling head which is positioned right above the supporting surface, and the cutter driving mechanism is used for driving the milling head to move in the vertical direction and driving the milling head to rotate;

the rotary anchor plate clamping device comprises a support table, a sliding rail, a sliding seat, a rotating seat, a rotary driving device, a clamp, a position driving device, a clamp and a clamp, wherein the sliding rail is arranged on the support table, the sliding seat is arranged on the sliding rail, the sliding seat is arranged on the sliding seat, the rotating seat is rotatable relative to the sliding seat, the rotary driving device is arranged on the bottom surface of the support table, an output part of the rotary driving device penetrates through the support table, the sliding rail and the sliding seat and then is connected to the rotating seat, the rotary driving device is used for driving the rotating seat to rotate, the clamp is arranged on the rotating seat, the position driving device is arranged on the support table and is connected with the sliding seat, the clamp is used for clamping an anchor plate, and when the clamp clamps the anchor plate to clamp the anchor plate, the position driving device is used for driving the anchor plate to move in the direction where the diameter is located with the anchor plate.

2. The production facility for milling holes in anchor plates according to claim 1, wherein the position driving means comprises: and the piston rod of the air cylinder is connected to the sliding seat.

3. The production facility for milling holes in anchor plates according to claim 2, wherein the rotary driving means comprises: and the output shaft of the motor is an output part of the rotary driving device.

4. A production facility for milling holes in anchor plates according to any one of claims 1 to 3, characterized in that the jig comprises: the bottom plate is used for installing on the roating seat, be fixed with first arc centre gripping arm on the roating seat, be provided with second arc centre gripping arm next to first arc centre gripping arm, second arc centre gripping arm is crooked to first arc centre gripping arm place direction, first arc centre gripping arm is crooked to second arc centre gripping arm place direction, second arc centre gripping arm can remove relative bottom plate, second arc centre gripping arm is connected with clamping driving mechanism, clamping driving mechanism is used for driving second arc centre gripping arm and moves in the direction of keeping away from or being close to first arc centre gripping arm, clamping driving mechanism installs on the bottom plate, the lifter can rotationally install on the bottom plate, install the elastic component in the junction of lifter and bottom plate, the lifter top is fixed with the swinging boom, the swinging boom is passed by vertical screw rod, vertical screw rod and swinging boom threaded connection, vertical screw rod is used for compressing tightly the anchor slab edge that is located the bottom plate from vertical direction, can keep vertical screw rod to be located vertical direction under the elasticity of elastic component.

5. The apparatus for producing anchor plate milling holes of claim 4, wherein the jig further comprises: the rotation limiting mechanism and the driving mechanism are connected to the rotation limiting mechanism through the driving mechanism, and the rotation limiting mechanism is used for limiting the rotation of the lifting rod.

6. The apparatus for producing anchor plate milling holes of claim 5, wherein the clamping driving mechanism comprises: the horizontal screw rod, first slider and connecting rod have seted up the installation cavity on the bottom plate, install first slider in the installation cavity, first slider can be relative bottom plate in the direction that makes second arc centre gripping arm keep away from or be close to first arc centre gripping arm upward movement, first slider is connected with the rotatory horizontal screw rod of relative first slider, horizontal screw rod passes the bottom plate, horizontal screw rod and bottom plate threaded connection, installs the connecting rod on the first slider, has seted up the spout that supplies the connecting rod to slide on the bottom plate.

7. The apparatus for milling holes in anchor plates according to claim 6, wherein the lifting bar comprises: the rotary rotating device comprises a rod body and a rotary cylinder, wherein a central shaft is arranged in a mounting cavity, the rotary cylinder supported by the inner wall of the mounting cavity is surrounded outside the central shaft, a coil spring is arranged between the rotary cylinder and the central shaft in a convolution mode, the coil spring is an elastic piece, one end of the coil spring is fixed to the central shaft, the other end of the coil spring is fixed to the inner wall of the rotary cylinder, the rotary cylinder is fixed to one end of the rod body, the other end of the rod body penetrates out of a bottom plate, the rod body and the rotary cylinder can rotate relative to the bottom plate, the rod body is used for mounting a rotary arm, and the rotary arm can be kept above an anchor plate under the elasticity of the coil spring.

8. The apparatus for producing anchor plate milling holes of claim 7, wherein the rotation limiting mechanism comprises: the rotary cylinder penetrates through and is fixedly provided with the first gear, and the first gear can be meshed with a second gear;

the driving mechanism comprises: the telescopic device comprises a driving rod, a second sliding block, a telescopic rod, a first installation shaft, a rotating rod, a supporting shaft and a second installation shaft, wherein a second gear is fixed to one end of the second installation shaft, the other end of the second installation shaft is fixed to one end of the rotating rod, the middle part of the rotating rod is hinged to the supporting shaft, the rotating rod is parallel to the horizontal plane, the other end of the rotating rod is hinged to one end of the first installation shaft, the first installation shaft is located in the vertical direction, the other end of the telescopic rod is fixed to one end of the telescopic rod, the other end of the telescopic rod stretches into the second sliding block, the telescopic rod can move in the direction perpendicular to the first installation shaft and the horizontal screw relative to the second sliding block, the second sliding block can be slidably installed in an installation cavity, the second sliding block is parallel to the sliding direction of the first sliding block, and the first sliding block is fixed with the second sliding block through the driving rod.