CN116000355B - Milling machine for machining breaking hammer nut accommodating groove - Google Patents

Abstract

The application relates to the technical field of milling machines, in particular to a milling machine for machining a breaking hammer nut accommodating groove, which comprises a machine tool, a milling cutter arranged on the machine tool and a driving mechanism arranged on the machine tool and used for driving the milling cutter to mill a front cylinder body, wherein the machine tool is provided with a rotating device, the rotating device comprises a support frame arranged on the machine tool, a clamping mechanism which is in rotating fit with the support frame and used for fixedly clamping the front cylinder body, and a rotating mechanism which is arranged on the support frame and used for driving the clamping mechanism to rotate, the rotating mechanism drives an end angle of the front cylinder body to rotate to the milling cutter, and the milling cutter mills the front cylinder body. The milling device has the effect of improving the milling efficiency of the breaking hammer nut accommodating groove.

Description

Milling machine for machining breaking hammer nut accommodating groove

Technical Field

The application relates to the technical field of milling machines, in particular to a milling machine for machining a breaking hammer nut accommodating groove.

Background

At present, the breaking hammer is also called a hydraulic pick and a hydraulic gun, the power source of the breaking hammer is pressure oil provided by a pump station of an excavator or a loader, and the breaking hammer can more effectively clean the floating stones and soil in rock gaps in the action of excavating a building foundation; the breaking hammer generally adopts the main body through bolt to connect the front section cylinder body, the middle section cylinder body and the rear section cylinder body, and in order to be convenient for fix the main body through bolt, a milling machine is required to mill a corresponding nut accommodating groove in the front cylinder body of the breaking hammer.

The existing milling machine for machining the breaking hammer nut accommodating groove generally comprises a machine tool and a milling cutter arranged on the machine tool, when the milling of the nut accommodating groove is carried out on the front cylinder body, the front cylinder body is arranged on the machine tool, the milling cutter is driven to rotate through a driving mechanism, the front cylinder body is milled, and generally, all the four end corners of the breaking hammer are provided with main body through bolts, so that the milling cutter is required to mill the same nut accommodating groove one by one at the four end corners of the front cylinder body.

In the related art, when milling is performed on four end corners of the front cylinder body one by the milling cutter, the front cylinder body needs to be disassembled and overturned for many times, and then is installed, so that the defect of lower milling efficiency of the breaking hammer nut accommodating groove is caused.

Disclosure of Invention

The application provides a milling machine for machining a breaking hammer nut accommodating groove, which can improve the milling efficiency of the breaking hammer nut accommodating groove.

The application provides a milling machine for machining a breaking hammer nut accommodating groove, which adopts the following technical scheme:

the utility model provides a quartering hammer nut holding tank processing is with milling machine, includes the lathe, sets up milling cutter on the lathe and sets up on the lathe and be used for driving the actuating mechanism that milling cutter milled to preceding cylinder body, be provided with rotating device on the lathe, rotating device is including setting up support frame, the normal running fit on the support frame and be used for the fixture of the fixed centre gripping of preceding cylinder body and set up on the support frame and be used for driving fixture pivoted slewing mechanism, slewing mechanism drives the end angle of preceding cylinder body and rotates milling cutter department, milling cutter mills preceding cylinder body.

Through adopting above-mentioned technical scheme, through rotating device's setting, remove fixture department with preceding cylinder body, carry out fixed centre gripping to preceding cylinder body through fixture, after milling cutter mills the end angle of preceding cylinder body, start rotating mechanism, drive preceding cylinder body and rotate for the waiting of preceding cylinder body mills end angle and rotates milling cutter department and process, can promote the milling efficiency to quartering hammer nut holding tank.

Optionally, the rotating mechanism comprises a rotating assembly for driving the clamping mechanism to rotate and a driving assembly for driving the rotating assembly to rotate, and the rotating assembly is in rotating fit on the supporting frame.

Through adopting above-mentioned technical scheme, start drive assembly, can drive the rotation subassembly and rotate, and then realize fixture's rotation.

Optionally, the rotation subassembly includes installing on fixture and be used for driving fixture pivoted bull gear, meshing in the gear on the bull gear and install the dwang on the gear, drive assembly is connected with the dwang.

Through adopting above-mentioned technical scheme, rotate the dwang, can drive the gear rotation, drive the bull gear and rotate, and then realize fixture's rotation, the simple operation.

Optionally, the drive assembly includes install on the dwang and be used for driving the worm wheel of dwang pivoted, the worm of meshing on the worm wheel and install on the support frame and be used for driving worm pivoted driving piece.

Through adopting above-mentioned technical scheme, start the driving piece, can drive the worm and rotate, and then drive the worm wheel and rotate, realize the rotation of dwang.

Optionally, fixture includes the mount pad that is connected with the bull gear, sets up relatively and be used for the mount pad of the fixed centre gripping of preceding cylinder body and be used for driving the lifting unit of mount pad to preceding cylinder body centre gripping with the mount pad, mount pad and mount pad all normal running fit are on the support frame.

Through adopting above-mentioned technical scheme, start lifting unit, can drive the grip slipper and go up and down, when driving the grip slipper to be close to preceding cylinder body department motion, can realize the fixed centre gripping to preceding cylinder body.

Optionally, the lifting assembly comprises a fixed sleeve arranged on the mounting seat, a sliding rod arranged on the clamping seat and in sliding fit with the fixed sleeve, and a first driver for driving the sliding rod to slide in the fixed sleeve.

Through adopting above-mentioned technical scheme, start driver one, can drive the grip slipper and go up and down, drive the slide bar simultaneously and go up and down in fixed sleeve for the lift adjustment of grip slipper is more stable.

Optionally, stop device is provided with on mount pad and the grip slipper, stop device is including setting up in the fixed block of mount pad along length direction one side of lathe and setting up in the stopper of mount pad along length direction on the opposite side of lathe, preceding cylinder body is located between fixed block and the stopper.

Through adopting above-mentioned technical scheme, through stop device's setting, when installing the preceding cylinder body, can carry out spacingly to the removal of preceding cylinder body along the length direction of lathe through fixed block and stopper for the installation of preceding cylinder body in grip slipper and mount pad is more stable.

Optionally, one end of the fixed block and the limiting block, which is away from the milling cutter, is provided with an arc-shaped block, and the distance between the two arc-shaped blocks in the direction close to the milling cutter is gradually reduced.

Through adopting above-mentioned technical scheme, through the setting of arc piece for when removing preceding cylinder body to fixed block and stopper, in preceding cylinder body can be more convenient enter into fixed block and stopper, can neatly handle preceding cylinder body through the arc piece simultaneously, make preceding cylinder body can be located between fixed block and the stopper.

Optionally, the sliding grooves along the length direction of the machine tool are formed in the mounting seat and the clamping seat, the sliding blocks which are in sliding fit with the sliding grooves are arranged on the limiting blocks, and a pushing device for pushing the limiting blocks to slide is arranged on the mounting seat.

Through adopting above-mentioned technical scheme, through thrust unit's setting, start thrust unit, can drive the stopper and slide to extrude the locking to preceding cylinder body, make preceding cylinder body spacing along the length direction of lathe more stable, make things convenient for preceding cylinder body to enter into between stopper and the fixed block simultaneously.

Optionally, the stopper that is located on the mount pad is connected with fixed sleeve, is located stopper and the slide bar on the grip pad are connected, thrust unit is connected with fixed sleeve on the stopper and is used for driving fixed sleeve and slides.

Through adopting above-mentioned technical scheme, when thrust unit promotes fixed sleeve, can drive two stopper and carry out sliding adjustment simultaneously for the sliding adjustment of two stopper is more stable, when the grip slipper goes up and down simultaneously, can drive the slide bar and slide in fixed sleeve.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through rotating device's setting, remove fixture department with preceding cylinder body, carry out fixed centre gripping to preceding cylinder body through fixture, after milling cutter mills the end angle of preceding cylinder body, start rotating mechanism drives preceding cylinder body and rotates for the end angle of waiting to mill of preceding cylinder body rotates milling cutter department and processes, can promote the milling efficiency to quartering hammer nut holding tank.

Drawings

FIG. 1 is a schematic view of the overall structure of the present application;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is a schematic structural view showing the connection relationship of the support frame and the clamping mechanism;

fig. 4 is a partial enlarged view at B in fig. 3.

Reference numerals illustrate: 1. a machine tool; 2. a milling cutter; 3. a driving mechanism; 4. a rotating device; 5. a support frame; 6. a clamping mechanism; 61. a mounting base; 611. an arc surface; 62. a clamping seat; 63. a lifting assembly; 631. fixing the sleeve; 632. a slide bar; 633. a first driver; 7. a rotating mechanism; 71. a rotating assembly; 711. a large gear ring; 712. a gear; 713. a rotating lever; 72. a drive assembly; 721. a worm wheel; 722. a worm; 723. a driving member; 8. a limiting device; 81. a fixed block; 82. a limiting block; 83. an arc-shaped block; 84. a guide wheel; 9. a pushing device; 91. a mounting plate; 92. a second driver; 10. and (5) connecting a plate.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses a milling machine for machining a breaking hammer nut accommodating groove. Referring to fig. 1 and 2, the milling cutter comprises a machine tool 1, a milling cutter 2 arranged on the machine tool 1 and a driving mechanism 3 arranged on the machine tool 1 and used for driving the milling cutter 2 to mill a front cylinder body, wherein two milling cutters 2 and 3 are symmetrically arranged along the length direction of the machine tool 1, and the driving mechanism 3 can drive the milling cutter 2 to rotate and can drive the milling cutter 2 to slide towards a position close to or far away from the front cylinder body. The machine tool 1 is provided with a rotating device 4, and the rotating device 4 is used for driving the front cylinder body to rotate. When the four end corners of the front cylinder body are required to be milled, the front cylinder body is firstly mounted on the rotating device 4, after the mounting is completed, the driving mechanism 3 is started to drive the milling cutter 2 to rotate, the milling cutter 2 is driven to mill two end corners close to the upper surface of the front cylinder body, after the milling is completed, the rotating device 4 is started to drive the two end corners to be milled of the front cylinder body to rotate to the milling cutter 2, the driving mechanism 3 is started again, the milling cutter 2 is driven to mill the front cylinder body, and the milling operation of the four end corners of the front cylinder body is completed.

Referring to fig. 1 and 2, the rotating device 4 includes a support frame 5 disposed on the machine tool 1, a clamping mechanism 6 rotationally matched with the support frame 5, and a rotating mechanism 7 disposed on the support frame 5, wherein the support frame 5 is provided with three support frames 5, the three support frames 5 are fixedly connected with each other and are in a concave structure, and a rotating groove is formed in the support frame 5.

Referring to fig. 3 and 4, the clamping mechanism 6 is used for fixedly clamping the front cylinder, the clamping mechanism 6 comprises a mounting seat 61, a clamping seat 62 and a lifting assembly 63, wherein the clamping seat 62 and the mounting seat 61 are oppositely arranged in the height direction of the support frame 5, the clamping seat 62 is used for fixedly clamping the front cylinder, the upper surface of the mounting seat 61 and the lower surface of the clamping seat 62 are arranged to be horizontal planes, the lower surface of the mounting seat 61 and the upper surface of the clamping seat 62 are arranged to be arc-shaped surfaces 611, and the mounting seat 61 and the clamping seat 62 are both in rotary fit in a rotary groove of the support frame 5 through the arc-shaped surfaces 611.

Referring to fig. 3 and 4, the lifting assembly 63 is configured to drive the clamping seat 62 to clamp the front cylinder, the lifting assembly 63 includes a fixing sleeve 631 fixedly mounted on the upper surface of the mounting seat 61, a sliding rod 632 fixedly mounted on the clamping seat 62, and a first driver 633, the sliding rod 632 is slidably fitted in the fixing sleeve 631 along the height direction of the support frame 5, and the sliding rod 632 and the fixing sleeve 631 are provided with two groups. The first driver 633 is configured to drive the sliding rod 632 to slide in the fixed sleeve 631, the first driver 633 may directly use a hydraulic cylinder, the cylinder of the first driver 633 is fixedly mounted on the mounting seat 61, and the piston rod of the first driver 633 is fixedly mounted on the clamping seat 62.

Referring to fig. 1 and 2, the rotating mechanism 7 is used for driving the clamping mechanism 6 to rotate, the rotating mechanism 7 includes a rotating component 71 for driving the clamping mechanism 6 to rotate and a driving component 72 for driving the rotating component 71 to rotate, the rotating component 71 is rotationally matched with the supporting frame 5, the rotating component 71 includes a bull gear 711 installed on the clamping mechanism 6, a gear 712 meshed with the bull gear 711 and a rotating rod 713 fixedly installed on the gear 712, in combination with fig. 3, a connecting plate 10 is fixedly arranged on the installing seat 61, the connecting plate 10 is an arc-shaped plate, the bull gear 711 is used for driving the clamping mechanism 6 to rotate, the bull gear 711 is fixedly connected with the installing seat 61 through being fixedly connected with the connecting plate 10, and a plate for rotationally supporting the rotating rod 713 is fixedly arranged on the supporting frame 5.

Referring to fig. 1 and 2, the driving unit 72 includes a worm wheel 721 fixedly installed on the rotation rod 713 for driving the rotation rod 713 to rotate, a worm 722 engaged with the worm wheel 721, and a driving unit 723 fixedly installed on the support frame 5, the driving unit 723 may directly employ a motor, an output shaft of the driving unit 723 is fixedly connected with the worm 722, and a plate for rotatably supporting the worm 722 is fixedly provided on the support frame 5 for driving the worm 722 to rotate.

Referring to fig. 1-3, when the front cylinder needs to be processed, the front cylinder is placed between the mounting seat 61 and the clamping seat 62, then the first driver 633 is started to drive the clamping seat 62 to descend, and meanwhile, the sliding rod 632 is driven to descend in the fixed sleeve 631, and when the clamping seat 62 is used for fixing and clamping the front cylinder, the first driver 633 stops working. Then, the driving mechanism 3 is started to drive the milling cutter 2 to mill two end angles of the upper surface of the front cylinder body, after the milling is completed, the driving member 723 is started to drive the worm 722, the worm wheel 721, the rotating rod 713, the gear 712 and the large gear ring 711 to rotate in sequence, the mounting seat 61 and the clamping seat 62 are driven to rotate in the supporting frame 5, and then the front cylinder body is driven to rotate, so that the end angle to be milled of the front cylinder body rotates to the milling cutter 2, the driving member 723 is closed, and the end angle to be milled of the front cylinder body is milled through the milling cutter 2.

Referring to fig. 3 and 4, in order to make the installation of the front cylinder body between the mounting seat 61 and the clamping seat 62 more stable, the limiting device 8 is provided on the mounting seat 61 and the clamping seat 62, the limiting device 8 includes a fixing block 81 fixedly provided on one side of the mounting seat 61 along the length direction of the machine tool 1 and a limiting block 82 provided on the other side of the mounting seat 61 along the length direction of the machine tool 1, the fixing block 81 is fixedly provided with one on the mounting seat 61 and the clamping seat 62, the limiting block 82 is provided with one on the mounting seat 61 and the clamping seat 62, and the fixing block 81 and the limiting block 82 are rectangular blocks along the length direction of the front cylinder body. The mounting seat 61 and the clamping seat 62 are respectively provided with a sliding groove along the length direction of the machine tool 1, the sliding grooves are T-shaped grooves, the limiting block 82 is fixedly provided with a sliding block which is in sliding fit with the sliding grooves, and the sliding block is a T-shaped block. The limiting block 82 positioned on the mounting seat 61 is fixedly connected with the fixed sleeve 631 close to the limiting block 82, and the limiting block 82 positioned on the clamping seat 62 is fixedly connected with the sliding rod 632 close to the limiting block 82.

Referring to fig. 3 and 4, the fixed block 81 and the stopper 82 are fixedly provided with arc blocks 83 at one ends thereof facing away from the milling cutter 2, and the distance between the two arc blocks 83 in the width direction of the front cylinder body along the direction approaching the milling cutter 2 is gradually reduced. The two arc blocks 83 are provided with a mounting groove at one side close to each other, and a plurality of guide wheels 84 are rotatably matched in the mounting groove.

Referring to fig. 3 and 4, a pushing device 9 for pushing the limiting block 82 to slide is disposed on the mounting seat 61, the pushing device 9 includes a mounting plate 91 fixedly mounted on the mounting seat 61 and a second driver 92 fixedly disposed on the mounting plate 91, the second driver 92 may directly adopt a hydraulic cylinder, a cylinder body of the second driver 92 is fixedly connected with the mounting plate 91, a piston rod of the second driver 92 is fixedly connected with a fixed sleeve 631 on the limiting block 82 and is used for driving the fixed sleeve 631 to slide.

Referring to fig. 3 and 4, when the front cylinder needs to be clamped, the front cylinder is moved between the two arc blocks 83, the front cylinder passes between the two arc blocks 83 and reaches between the fixed block 81 and the limiting block 82, one side of the front cylinder is abutted on the fixed block 81, then the first driver 633 drives the clamping seat 62 to descend, drives the clamping seat 62 to clamp the front cylinder fixedly, then the second driver 92 is started, drives the fixing sleeve 631 to slide towards the position close to the front cylinder, and simultaneously drives the two limiting blocks 82 to slide towards the position close to the front cylinder through the sliding rod 632, and the fixing operation of the front cylinder is completed through the fixed clamping of the limiting blocks 82 to the front cylinder.

The implementation principle of the milling machine for machining the breaking hammer nut accommodating groove provided by the embodiment of the application is as follows: when the front cylinder body is required to be milled, the front cylinder body is firstly moved between the mounting seat 61 and the clamping seat 62, then the front cylinder body is fixedly clamped through the clamping seat 62, and meanwhile, the front cylinder body is fixedly clamped through the limiting block 82, and after the clamping is finished, the driving mechanism 3 is started to drive the milling cutter 2 to mill two end angles at the top of the front cylinder body;

after the milling of the two end angles of the front cylinder body is completed, the rotating mechanism 7 is started to drive the mounting seat 61, the clamping seat 62 and the front cylinder body to rotate, so that the two end angles to be milled of the front cylinder body rotate to the milling cutter 2, the front cylinder body is milled through the milling cutter 2, and the milling of the four end angles of the front cylinder body is completed.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (6)

1. The utility model provides a quartering hammer nut holding tank milling machine for processing, includes lathe (1), sets up milling cutter (2) on lathe (1) and sets up on lathe (1) and be used for driving milling cutter (2) to preceding cylinder body milling drive mechanism (3), its characterized in that: the utility model provides a lathe is provided with rotary device (4) on (1) lathe, rotary device (4) including set up support frame (5) on (1) lathe, normal running fit just be used for on support frame (5) with the fixed centre gripping of preceding cylinder body fixture (6) and set up on support frame (5) and be used for driving fixture (6) pivoted slewing mechanism (7), slewing mechanism (7) drive the end angle of preceding cylinder body and rotate milling cutter (2) department, milling cutter (2) mills preceding cylinder body, slewing mechanism (7) including be used for driving fixture (6) pivoted slewing assembly (71) and be used for driving slewing assembly (71) pivoted actuating assembly (72), slewing assembly (71) normal running fit is on support frame (5), slewing assembly (71) are including installing on fixture (6) and be used for driving fixture (6) pivoted bull gear (711), gear (712) and installed on gear (712) slewing lever (713), slewing assembly (72) are connected with slewing mechanism (711), including being connected with slewing mechanism (61) and being connected with slewing mechanism (711) The lifting assembly (63) is arranged opposite to the mounting seat (61) and used for fixing and clamping the front cylinder body, the lifting assembly (63) is used for driving the clamping seat (62) to clamp the front cylinder body, the mounting seat (61) and the clamping seat (62) are both in rotary fit on the support frame (5), and the lifting assembly (63) comprises a fixed sleeve (631) mounted on the mounting seat (61), a sliding rod (632) mounted on the clamping seat (62) and in sliding fit in the fixed sleeve (631), and a first driver (633) used for driving the sliding rod (632) to slide in the fixed sleeve (631).

2. The milling machine for machining a breaking hammer nut accommodating groove according to claim 1, wherein: the driving assembly (72) comprises a worm wheel (721) which is arranged on the rotating rod (713) and used for driving the rotating rod (713) to rotate, a worm (722) which is meshed with the worm wheel (721), and a driving piece (723) which is arranged on the supporting frame (5) and used for driving the worm (722) to rotate.

3. The milling machine for machining a breaking hammer nut accommodating groove according to claim 1, wherein: be provided with stop device (8) on mount pad (61) and grip slipper (62), stop device (8) are including setting up in mount pad (61) along fixed block (81) of length direction one side of lathe (1) and setting up in mount pad (61) along stopper (82) of length direction opposite side of lathe (1), preceding cylinder body is located between fixed block (81) and stopper (82).

4. A milling machine for machining a breaking hammer nut accommodating groove according to claim 3, wherein: one end of the fixed block (81) and one end of the limiting block (82) which are away from the milling cutter (2) are provided with arc-shaped blocks (83), and the distance between the two arc-shaped blocks (83) along the direction close to the milling cutter (2) is gradually reduced.

5. A milling machine for machining a breaking hammer nut accommodating groove according to claim 3, wherein: the mounting seat (61) and the clamping seat (62) are respectively provided with a sliding groove along the length direction of the machine tool (1), the limiting block (82) is provided with a sliding block which is in sliding fit with the sliding grooves, and the mounting seat (61) is provided with a pushing device (9) for pushing the limiting block (82) to slide.

6. The milling machine for machining the breaking hammer nut accommodating groove according to claim 5, wherein: the limiting block (82) located on the mounting seat (61) is connected with the fixed sleeve (631), the limiting block (82) located on the clamping seat (62) is connected with the sliding rod (632), and the pushing device (9) is connected with the fixed sleeve (631) on the limiting block (82) and used for driving the fixed sleeve (631) to slide.