CN216065547U - Double-end hole turning mechanism - Google Patents

Abstract

The utility model relates to the technical field of mechanical devices, in particular to a double-head hole turning mechanism which comprises a rack, and a cylindrical barrel taking device, a cylindrical barrel clamping device and a cylindrical barrel machining device which are all arranged on the rack, wherein the cylindrical barrel taking device, the cylindrical barrel clamping device and the cylindrical barrel machining device are arranged on the rack; the cylindrical drum taking device is used for transferring the cylindrical drum to the cylindrical drum clamping device, and the cylindrical drum clamping device is used for clamping the cylindrical drum; the cylindrical barrel machining device comprises two cylindrical barrel turning mechanisms which are arranged side by side and are opposite to each other, the two cylindrical barrel turning mechanisms are respectively positioned on two sides of the cylindrical barrel clamping device, and the cylindrical barrel turning mechanisms are used for turning two ends of a cylindrical barrel. The utility model has novel structure and ingenious design, can simultaneously process the plugging holes at the two ends of the cylindrical barrel, has high working efficiency, can process the inner holes, the inner and outer chamfers and the end surfaces at the two ends of the cylindrical barrel by sequentially clamping the cylindrical barrel, effectively reduces the clamping time, improves the processing precision, reduces the labor cost and the operation difficulty, and is convenient and fast to use.

Description

Double-end hole turning mechanism

Technical Field

The utility model relates to the technical field of mechanical devices, in particular to a double-head hole turning mechanism.

Background

At present, the inner hole machining, the two end face machining and the excircle fillet machining of the end face of the cylindrical barrel or the cylindrical barrel plug are all completed by utilizing the existing common lathe, the concentricity of the two end plug holes is ensured, the requirements on the machine tool precision and the manual technology are high, the labor cost is high, in addition, the cylindrical barrel is processed in a single end mode, and the machining efficiency is low.

Disclosure of Invention

The double-end hole turning mechanism is novel in structure and ingenious in design, can be used for simultaneously machining the blocking holes at the two ends of the cylindrical barrel, is high in working efficiency, can be used for machining inner holes, inner and outer chamfers and end faces at the two ends of the cylindrical barrel by sequentially clamping the cylindrical barrel, effectively reduces clamping time, improves machining precision, reduces labor cost and operation difficulty, and is convenient and fast to use.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a double-head hole turning mechanism which comprises a rack, a cylindrical barrel taking device, a cylindrical barrel clamping device and a cylindrical barrel machining device, wherein the cylindrical barrel taking device, the cylindrical barrel clamping device and the cylindrical barrel machining device are all arranged on the rack; the cylindrical drum taking device is used for transferring a cylindrical drum to the cylindrical drum clamping device, and the cylindrical drum clamping device is used for clamping the cylindrical drum; the cylindrical barrel machining device comprises two cylindrical barrel turning mechanisms which are arranged side by side and are opposite to each other, the two cylindrical barrel turning mechanisms are respectively positioned on two sides of the cylindrical barrel clamping device, and the cylindrical barrel turning mechanisms are used for turning two ends of a cylindrical barrel.

The cylindrical barrel taking device comprises a taking base, a taking sliding seat, a taking driving piece and a magnetic part arranged at the bottom of the taking sliding seat, wherein the taking base is arranged in the rack, the taking driving piece is arranged at one end of the taking base, the taking sliding seat is arranged on the taking base in a sliding mode, the taking driving piece is used for driving the taking sliding seat to slide left and right along the taking base, and the taking part and the cylindrical barrel clamping device are arranged correspondingly.

The cylindrical barrel turning mechanism comprises a left driving assembly, a right driving assembly, a left sliding table, a right sliding table, an upper driving assembly, a lower driving assembly, an upper sliding table, a lower sliding table and a processing table, wherein the processing table is arranged on the upper sliding table and the lower sliding table;

the left and right driving assembly is arranged on the installation inclined plane, the left and right moving sliding table is arranged on the installation inclined plane in a sliding mode, the left and right driving assembly is used for driving the left and right moving sliding table to reciprocate left and right, the upper and lower driving assembly is arranged on the left and right moving sliding table, the up and down moving sliding table is arranged on the left and right moving sliding table in a sliding mode, and the upper and lower driving assembly is used for driving the up and down moving sliding table to reciprocate up and down.

The left and right driving assembly comprises a first servo motor and a first transmission screw rod in driving connection with the first servo motor, the first transmission screw rod is rotationally connected with the rack, a first sleeve block is arranged at the bottom of the left and right sliding table, and the first sleeve block is sleeved on the periphery of the first transmission screw rod and in threaded connection with the first transmission screw rod;

the upper and lower driving assembly comprises a second servo motor and a second transmission screw rod in driving connection with the second servo motor, the second transmission screw rod is in rotating connection with the left and right moving sliding table, a second sleeve block is arranged at the bottom of the up and down moving sliding table, and the second sleeve block is sleeved on the periphery of the second transmission screw rod and in threaded connection with the periphery of the second transmission screw rod.

The cylindrical barrel clamping device comprises a positioning seat and two clamping assemblies respectively arranged on two sides of the positioning seat, the two clamping assemblies are arranged oppositely, and a through groove for a product to stretch into is formed in the middle of the positioning seat; the centre gripping subassembly including rotate set up in the fluted disc of positioning seat and set up in the three-jaw chuck in the fluted disc outside, the one end of positioning seat is provided with and is used for ordering about fluted disc pivoted centre gripping transmission structure, centre gripping transmission structure include the centre gripping driving piece, drive gear be connected with the drive of centre gripping driving piece and with the driven gear meshing driven gear, driven gear with the fluted disc meshing transmission is connected.

The other end of the positioning seat is rotatably provided with a positioning gear, and the positioning gear is in meshing transmission connection with the fluted disc;

the other end of positioning seat is provided with clutch assembly, clutch assembly includes the front and back movable plate, sets up in the first block ring gear of front and back movable plate and is used for ordering about front and back movable plate front and back reciprocating motion's separation and reunion drives actuating cylinder, positioning gear's the back be provided with the second block ring gear of first block ring gear cooperation joint.

One end of the three-jaw chuck is provided with a positioning block, and the positioning block is provided with a positioning groove; the positioning seat is provided with a positioning assembly, the positioning assembly comprises a positioning driving cylinder and a positioning shaft which is connected with the positioning driving cylinder in a driving mode, and the positioning shaft corresponds to the positioning groove.

The utility model has the beneficial effects that:

the cylindrical barrel processing device is novel in structure and ingenious in design, when the cylindrical barrel processing device works, an external worker or a mechanical hand sends a cylindrical barrel into the rack, the cylindrical barrel taking device takes materials for the cylindrical barrel and moves the cylindrical barrel into the cylindrical barrel clamping device to clamp the cylindrical barrel, after clamping is carried out, the cylindrical barrel is processed by the cylindrical barrel turning mechanism of the cylindrical barrel processing device, under the arrangement, the blocking holes at two ends of the cylindrical barrel can be simultaneously processed, the working efficiency is high, the inner holes at two ends of the cylindrical barrel and the inner and outer chamfers and end faces can be processed by sequentially clamping the cylindrical barrel, the clamping time is effectively reduced, the processing precision is improved, the labor cost and the operation difficulty are reduced, and the cylindrical barrel processing device is convenient and fast to use.

Drawings

Fig. 1 is a schematic structural diagram of a double-headed hole-turning mechanism of the present invention.

Fig. 2 is a schematic structural view of a drum extracting apparatus of the present invention.

Fig. 3 is a schematic structural diagram of the cylindrical drum turning mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the cylinder clamping device of the present invention.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Fig. 6 is a schematic structural diagram of the clutch assembly of the present invention.

The reference numerals in fig. 1 to 6 include:

2. a frame; 3. a cylindrical drum taking device; 4. a cylindrical barrel clamping device; 5. a cylindrical barrel processing device; 7. a cylindrical drum turning mechanism;

19. a material taking base; 20. a material taking sliding seat; 21. a material taking driving member; 22. a magnetic attraction component; 23. installing an inclined plane; 24. moving the sliding table left and right; 25. moving the sliding table up and down; 26. a processing table; 27. turning a cutter; 28. a first slide rail; 29. a first servo motor; 30. a first drive screw;

32. a second servo motor; 33. a second drive screw;

35. positioning seats; 36. penetrating a groove; 37. a fluted disc; 38. a three-jaw chuck; 39. clamping the driving member; 40. a drive gear;

41. a driven gear; 42. positioning a gear; 43. a clutch assembly; 44. moving the board forward and backward; 45. a first engaging gear ring; 46. a clutch driving cylinder; 47. a second snap ring gear; 48. positioning blocks; 49. positioning a groove; 50. positioning a driving cylinder; 51. and (5) positioning the shaft.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention is described in detail below with reference to the attached drawings.

A double-head hole turning mechanism is shown in figures 1 to 6 and comprises a frame 2, and a cylindrical barrel taking device 3, a cylindrical barrel clamping device 4 and a cylindrical barrel processing device 5 which are all arranged on the frame 2; the cylindrical drum taking device 3 is used for transferring a cylindrical drum to the cylindrical drum clamping device 4, and the cylindrical drum clamping device 4 is used for clamping the cylindrical drum; the cylindrical barrel machining device 5 comprises two cylindrical barrel turning mechanisms 7 which are arranged side by side and are opposite to each other, the two cylindrical barrel turning mechanisms 7 are respectively located on two sides of the cylindrical barrel clamping device 4, and the cylindrical barrel turning mechanisms 7 are used for turning two ends of a cylindrical barrel.

Specifically, the utility model has novel structure and ingenious design, when in use, the cylindrical barrel 100 is conveyed into the rack by an external manual or mechanical hand, the cylindrical barrel taking device 3 takes materials for the cylindrical barrel and moves the cylindrical barrel into the cylindrical barrel clamping device 4 to clamp the cylindrical barrel, after clamping, the cylindrical barrel 100 is machined by using the cylindrical barrel turning mechanism 7 of the cylindrical barrel machining device 5, under the arrangement, the hole plugging at two ends of the cylindrical barrel 100 can be simultaneously machined, the working efficiency is high, the inner holes, the inner chamfer angles, the outer chamfer angles and the end faces at two ends of the cylindrical barrel 100 can be machined by sequentially clamping the cylindrical barrel 100, the clamping time is effectively reduced, the machining precision is improved, the labor cost and the operation difficulty are reduced, and the use is convenient.

In this embodiment, the cylinder drum taking device 3 includes a taking base 19, a taking sliding seat 20, a taking driving member 21, and a magnetic attraction member 22 disposed at the bottom of the taking sliding seat 20, the taking base 19 is mounted in the rack 2, the taking driving member 21 is mounted at one end of the taking base 19, the taking sliding seat 20 is slidably disposed on the taking base 19, the taking driving member 21 is used for driving the taking sliding seat 20 to slide left and right along the taking base 19, and the taking member is disposed corresponding to the cylinder drum clamping device 4. Specifically, get material driving piece 21 and can be servo motor and the cooperation of transmission lead screw to the drive is got material sliding seat 20 and is removed about, and then drives magnetism and inhale the part 22 and remove, realizes getting the material to the cylinder section of thick bamboo of metal material, wherein, magnetism is inhaled part 22 and can be the electro-magnet, makes things convenient for its break-make electricity in order to realize its magnetism and inhales the function.

In this embodiment, an installation inclined plane 23 is arranged in the frame 2, the two cylinder turning mechanisms 7 are both installed on the installation inclined plane 23, each cylinder turning mechanism 7 comprises a left-right driving assembly, a left-right moving sliding table 24, an up-down driving assembly, an up-down moving sliding table 25 and a processing table 26 installed on the up-down moving sliding table 25, a turning tool 27 is detachably connected to the processing table 26, and the turning tool 27 faces the cylinder clamping device 4;

drive assembly installs about in installation inclined plane 23, remove about, slip table 24 slide set up in installation inclined plane 23, drive assembly is used for ordering about, remove about, slip table 24 reciprocating motion about, drive assembly installs about, on removing slip table 24, it slides set up in to remove slip table 25 from top to bottom remove on slip table 24, drive assembly is used for ordering about, reciprocating motion about removing slip table 25.

Specifically, under the design of installation inclined plane 23, cylinder section of thick bamboo turning mechanism 7 all installs above that, can be to the slope installation of cylinder section of thick bamboo turning mechanism 7 on the one hand to do not influence the processing to the cylinder section of thick bamboo, the structure is reliable, and on the other hand, the piece after conveniently processing drops, reduces the piece and is detained on cylinder section of thick bamboo turning mechanism 7, and installation inclined plane 23 is also convenient for with the piece in its self gravity down leading-in automatic chip removal device 6, makes things convenient for the chip removal, guarantees the normal work of cylinder turning mechanism, the structure is reliable.

In this embodiment, the installation inclined plane 23 is provided with a first slide rail 28, the left and right driving assembly includes a first servo motor 29 and a first transmission screw rod 30 in driving connection with the first servo motor 29, the first transmission screw rod 30 is rotatably connected with the frame 2, the bottom of the left and right sliding table 24 is provided with a first sleeve block, and the first sleeve block is sleeved on the periphery of the first transmission screw rod 30 and is in threaded connection with the first transmission screw rod;

the upper and lower drive assembly comprises a second servo motor 32 and a second transmission screw rod 33 in driving connection with the second servo motor 32, the second transmission screw rod 33 is connected with the left and right movable sliding table 24 in a rotating mode, a second sleeve block is arranged at the bottom of the up and down movable sliding table 25, and the second sleeve block is sleeved on the periphery of the second transmission screw rod 33 and is in threaded connection with the periphery of the second transmission screw rod 33.

Specifically, under the above arrangement, servo transmission is realized to drive the processing table 26 to move up and down and move left and right, the servo transmission has high precision, the precision of processing the cylindrical barrel is effectively improved, and the structure is reliable.

In this embodiment, the cylindrical barrel clamping device 4 includes a positioning seat 35 and two clamping assemblies respectively disposed on two sides of the positioning seat 35, the two clamping assemblies are disposed opposite to each other, a through groove 36 for a product to extend into is disposed in the middle of the positioning seat 35, and the through groove 36 is disposed to facilitate insertion of the cylindrical barrel 100;

centre gripping subassembly including rotate set up in the fluted disc 37 of positioning seat 35 with set up in the three-jaw chuck 38 in the fluted disc 37 outside, the one end of positioning seat 35 is provided with and is used for ordering about fluted disc 37 pivoted centre gripping transmission structure, centre gripping transmission structure include centre gripping driving piece 39, drive gear 40 with centre gripping driving piece 39 drive connection and with drive gear 40 meshing driven gear 41, driven gear 41 with fluted disc 37 meshing transmission is connected.

Specifically, when the cylinder clamping device 4 works, the cylinder taking device 3 takes a cylinder and transfers the cylinder into the through groove 36 of the cylinder clamping device 4, the cylindrical barrel clamping device 4 is respectively provided with clamping components at two sides of the positioning seat 35, the cylindrical barrel is clamped by a three-jaw chuck 38 of the clamping components, under the action of the three-jaw chuck 38, the cylindrical barrel can be kept clamped at the center of the through groove 36, the three-jaw chuck 38 is disposed on the toothed plate 37 and the center of the three-jaw chuck 38 coincides with the center of the toothed plate 37, the fluted disc 37 is a circular fluted disc 37, and when the three-jaw chuck 38 fixes the cylindrical drum, the cylindrical drum is arranged at the center of the fluted disc 37, so that the cylindrical drum turning mechanism 7 can conveniently process the cylindrical drum 100, the cylindrical drum is positioned at the central position of the fluted disc 37, so that the position positioning is accurate, and the processing accuracy is improved;

further, during operation, after the three-jaw chuck 38 clamps and positions the cylindrical drum 100, the cylindrical drum turning mechanism 7 moves to abut against two ends of the cylindrical drum 100 for subsequent processing, the clamping driving member 39 drives the driving gear 40 to rotate, drives the driven gear to rotate, drives the toothed disc 37 to rotate, drives the cylindrical drum 100 to rotate, and realizes polishing processing in cooperation with the turning tool 27.

In this embodiment, a positioning gear 42 is rotatably disposed at the other end of the positioning seat 35, and the positioning gear 42 is in meshing transmission connection with the fluted disc 37;

the other end of the positioning seat 35 is provided with a clutch assembly 43, the clutch assembly 43 includes a front and rear moving plate 44, a first engaging gear ring 45 disposed on the front and rear moving plate 44, and a clutch driving cylinder 46 for driving the front and rear moving plate 44 to reciprocate front and rear, and a second engaging gear ring 47 engaged with the first engaging gear ring 45 is disposed on the back of the positioning gear 42.

Specifically, when the braking and stopping toothed disc 37 needs to rotate, the clutch assembly 43 works, the clutch driving cylinder 46 drives the front and rear moving plate 44 to move back and forth, so that the first engaging gear ring 45 is close to or the second engaging gear ring 47 is used for fixing the positioning gear 42, and the positioning gear 42 is fixed for rotating the braking and stopping toothed disc 37, so that the structure is reliable and the operation is convenient.

Wherein, clutch module 43 and centre gripping driving piece 39, drive gear 40, driven gear 41 are all assembled and are installed on a installing support, effective saving equipment's occupation volume, and compact is convenient for transport, production and use, effective reduce cost.

In this embodiment, a positioning block 48 is disposed at one end of the three-jaw chuck 38, and the positioning block 48 is provided with a positioning slot 49; be provided with locating component on the positioning seat 35, locating component drives actuating cylinder 50 and drives actuating cylinder 50 drive connection's location axle 51 with the location, location axle 51 with positioning groove 49 corresponds the setting. Specifically, the toothed plate 37 can be positioned to prevent the toothed plate 37 from rotating, and the toothed plate 37 can be stopped.

Although the present invention has been described with reference to the above preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (7)

1. The utility model provides a double-end car hole mechanism which characterized in that: the device comprises a rack, and a cylindrical barrel taking device, a cylindrical barrel clamping device and a cylindrical barrel processing device which are all arranged on the rack; the cylindrical drum taking device is used for transferring a cylindrical drum to the cylindrical drum clamping device, and the cylindrical drum clamping device is used for clamping the cylindrical drum; the cylindrical barrel machining device comprises two cylindrical barrel turning mechanisms which are arranged side by side and are opposite to each other, the two cylindrical barrel turning mechanisms are respectively positioned on two sides of the cylindrical barrel clamping device, and the cylindrical barrel turning mechanisms are used for turning two ends of a cylindrical barrel.

2. The double-ended hole turning mechanism according to claim 1, wherein: the cylindrical barrel taking device comprises a taking base, a taking sliding seat, a taking driving piece and a magnetic part arranged at the bottom of the taking sliding seat, wherein the taking base is arranged in the rack, the taking driving piece is arranged at one end of the taking base, the taking sliding seat is arranged on the taking base in a sliding mode, the taking driving piece is used for driving the taking sliding seat to slide left and right along the taking base, and the taking part and the cylindrical barrel clamping device are arranged correspondingly.

3. The double-ended hole turning mechanism according to claim 1, wherein: the cylindrical barrel turning mechanism comprises a left driving assembly, a right driving assembly, a left sliding table, a right sliding table, an upper driving assembly, a lower driving assembly, an upper sliding table, a lower sliding table and a processing table, wherein the processing table is arranged on the upper sliding table, a turning cutter is detachably connected to the processing table, and the turning cutter faces the cylindrical barrel clamping device;

the left and right driving assembly is arranged on the installation inclined plane, the left and right moving sliding table is arranged on the installation inclined plane in a sliding mode, the left and right driving assembly is used for driving the left and right moving sliding table to reciprocate left and right, the upper and lower driving assembly is arranged on the left and right moving sliding table, the up and down moving sliding table is arranged on the left and right moving sliding table in a sliding mode, and the upper and lower driving assembly is used for driving the up and down moving sliding table to reciprocate up and down.

4. The double-ended hole turning mechanism according to claim 3, wherein: the left and right driving assembly comprises a first servo motor and a first transmission screw rod in driving connection with the first servo motor, the first transmission screw rod is rotatably connected with the rack, the bottom of the left and right sliding table is provided with a first sleeve block, and the first sleeve block is sleeved on the periphery of the first transmission screw rod and is in threaded connection with the first transmission screw rod; the upper and lower driving assembly comprises a second servo motor and a second transmission screw rod in driving connection with the second servo motor, the second transmission screw rod is in rotating connection with the left and right moving sliding table, a second sleeve block is arranged at the bottom of the up and down moving sliding table, and the second sleeve block is sleeved on the periphery of the second transmission screw rod and in threaded connection with the periphery of the second transmission screw rod.

5. The double-ended hole turning mechanism according to claim 1, wherein: the cylindrical barrel clamping device comprises a positioning seat and two clamping assemblies respectively arranged on two sides of the positioning seat, the two clamping assemblies are arranged oppositely, and a through groove for a product to stretch into is formed in the middle of the positioning seat;

the centre gripping subassembly including rotate set up in the fluted disc of positioning seat and set up in the three-jaw chuck in the fluted disc outside, the one end of positioning seat is provided with and is used for ordering about fluted disc pivoted centre gripping transmission structure, centre gripping transmission structure include the centre gripping driving piece, drive gear be connected with the drive of centre gripping driving piece and with the driven gear meshing driven gear, driven gear with the fluted disc meshing transmission is connected.

6. The double-ended hole turning mechanism of claim 5, wherein: the other end of the positioning seat is provided with a positioning gear in a rotating mode, and the positioning gear is in meshed transmission connection with the fluted disc;

the other end of positioning seat is provided with clutch assembly, clutch assembly includes the front and back movable plate, sets up in the first block ring gear of front and back movable plate and is used for ordering about front and back movable plate front and back reciprocating motion's separation and reunion drives actuating cylinder, positioning gear's the back be provided with the second block ring gear of first block ring gear cooperation joint.

7. The double-ended hole turning mechanism of claim 5, wherein: one end of the three-jaw chuck is provided with a positioning block, and the positioning block is provided with a positioning groove; the positioning seat is provided with a positioning assembly, the positioning assembly comprises a positioning driving cylinder and a positioning shaft which is connected with the positioning driving cylinder in a driving mode, and the positioning shaft corresponds to the positioning groove.

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