CN116352136A - Multi-angle quick-averaging fiber head water hole drilling device - Google Patents

Abstract

The invention provides a multi-angle quick fiber head-sharing water hole drilling device, which relates to the technical field of processing equipment and comprises a base, a sliding member, a working disc, a rotating member and a three-jaw chuck, wherein the base is used for being attached to and connected with a machine tool workbench; the sliding component can slide at an offset angle relative to the base, and the sliding component can fix the position when sliding at the offset angle with the base; the working disc comprises a working surface at one side close to the sliding component, wherein the working surface is used for respectively installing a double-water hole rebound device, double water Kong Dangzhou connected with the double-water hole rebound device, a single-water hole rebound device and single water Kong Dangzhou connected with the single-water hole rebound device; the rotating member is provided with a first rotating stop lever for contacting with the single water Kong Dangzhou and determining a water hole position and a second rotating stop lever for contacting with the double water Kong Dangzhou and determining a water hole position. After one-time clamping, the water holes with different angles are processed, and the water holes with different numbers are processed.

Description

Multi-angle quick-averaging fiber head water hole drilling device

Technical Field

The invention relates to the technical field of processing equipment, in particular to a multi-angle quick fiber head equally-dividing water hole drilling device.

Background

When the existing drill bit is used for machining water holes, a tool with a specific angle is often arranged on a machine tool workbench, the drill bit is placed on the water hole tool and fixed, a worker aligns the first water hole, then machines the first water hole, aligns the position of the next water hole when the first water hole is machined, repeats until machining is completed, and if water holes with different angles are met, the tool with different angles needs to be replaced and then machined. The mode of drilling the water hole needs to be aligned with angles and positions every time, and only one angle water hole can be machined, so that the earlier preparation time of the machining mode is too long, the clamping time is too long, the water hole tooling needs to be replaced for many times, the machining time is too long, the efficiency is low, and the precision is not easy to guarantee.

In order to improve the machining efficiency and ensure the precision, the water hole tool is required to be optimally designed.

Disclosure of Invention

The invention provides a multi-angle quick fiber head-sharing water hole drilling device, which can improve the machining efficiency of a drill bit at a water hole machining position.

In order to solve the above-mentioned purpose, the technical scheme provided by the invention is as follows:

the utility model provides a fine head water hole drilling device is equallyd divide fast to multi-angle for to the singular water hole and the plural water hole of bore bit process, include: base, slide member, working plate, rotating member and three-jaw chuck.

The base is used for being attached to and connected with a machine tool workbench and comprises a concave sliding surface positioned on the top surface;

the sliding member is arranged above the base, the sliding member is configured to slide at an offset angle relative to the base, the sliding member is further configured to fix the position when the sliding member slides at the offset angle relative to the base, the sliding member comprises a convex sliding surface, the sliding member is configured to be in sliding fit with a concave sliding surface of the base through the convex sliding surface and is used for fixing a hexagon socket locking hole, the concave sliding surface is provided with a groove, and the convex sliding surface is provided with a convex groove;

the working plate is arranged above the sliding member, one side of the working plate, which is far away from the sliding member, comprises a working surface, and the working surface is used for respectively installing a double-water hole rebound device, double water Kong Dangzhou connected with the double-water hole rebound device, a single-water hole rebound device and single water Kong Dangzhou connected with the Shan Shuikong rebound device;

when the Shan Shuikong rebound device is in a stretching state, the single water hole baffle shaft is in a downward state, and when the Shan Shuikong rebound device is in a compression state, the single water Kong Dangzhou is lifted to a height from bottom to top;

when the double-water hole rebound device is in a stretching state, the double-water hole blocking shaft is in a downward state, and when the double-water hole rebound device is in a compression state, the double water Kong Dangzhou rises to a height from bottom to top;

the rotating member is provided with a first rotating stop lever and a second rotating stop lever in a penetrating way, wherein the first rotating stop lever is configured to be contacted with the single water Kong Dangzhou and determine a water hole position under the cooperation of a single water hole rebound device when being used for processing a single water hole, and the second rotating stop lever is configured to be contacted with the double water Kong Dangzhou and determine a water hole position under the cooperation of a double water hole rebound device when being used for processing a double water hole;

the three-jaw chuck is used for locking the drill bit.

Preferably, the sliding member further comprises a connection hole and an angle plate;

the sliding component is connected with the working disc through the connecting hole;

the angle dial is arranged on the front side or the rear side of the sliding member, the angle dial is configured to be of an integrated structure with the convex sliding surface, and when the sliding member stops sliding, the stop position corresponds to a real-time offset angle on the angle dial.

Preferably, the working surface is respectively provided with a double water Kong Dangkong for installing the double water hole blocking shaft, a single water Kong Fandan device groove for installing the Shan Shuikong rebound device, a double water Kong Fandan device groove for installing the double water hole rebound device, a single water Kong Dangkong for installing the single water hole blocking shaft, a third connecting hole for installing the rotating member, a double water hole support for installing a double water hole bullet block and a single water hole support for installing a single water hole bullet block;

the single water hole bullet block is configured to be capable of normally stretching when working, and the double water hole bullet block is configured to be capable of normally stretching when working;

the working disc is internally provided with a bearing groove, the bearing groove is used for installing a bearing, and the bearing acts on the rotating member to enable the rotating member to rotate.

Preferably, the bottom of the working disc is provided with a small circular groove and a large circular groove, the small circular groove is used for installing an auxiliary mechanism of the Shan Shuikong rebound device, the large circular groove is used for installing an auxiliary mechanism of the double-water-hole rebound device, the auxiliary mechanism in the small circular groove is correspondingly connected with a single-water Kong Fandan device, and the auxiliary mechanism in the large circular groove is correspondingly connected with a double-water Kong Fandan device;

the auxiliary mechanism is completed by connecting three or four elastic blocks end to end, and a supporting block is arranged in the middle of each elastic block to support the elastic blocks to stretch and retract.

Preferably, the rotating member is configured as a rotating shaft.

Preferably, the inner hexagonal locking hole is formed in the surface of a three-jaw chuck, the three-jaw chuck is provided with a positioning mark, the inner hexagonal locking hole is configured to lock the drill bit by the three-jaw chuck, and the positioning mark is configured to determine an initial position of the drill bit relative to the three-jaw chuck and determine a correct machining position when the drill bit machines a water hole.

Preferably, the Shan Shuikong rebound device is identical in structure to the double water hole rebound device.

The application also provides a water hole drilling mechanism, including foretell fine first water hole drilling device of quick equipartition of multi-angle, fine first water hole drilling device of quick equipartition of multi-angle sets up in mechanical manufacturing equipment.

Adopt the quick fine head of dividing of multi-angle of this application to bore water hole device, set up slide member, single water hole rebound ware and the double water Kong Fandan ware that are used for reading offset angle, can realize the processing to different angle water holes and the processing of different quantity water holes after once the clamping. The design of the device reduces the clamping time, improves the machining efficiency and ensures the machining precision.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall axial structure of the present invention;

FIG. 2 is a schematic view of a base axis measurement structure according to the present invention;

FIG. 3 is a schematic view of an axial structure of a sliding member according to the present invention;

FIG. 4 is a schematic diagram of an axial structure of a working disk according to the present invention;

FIG. 5 is a schematic cross-sectional view of a working disk of the present invention;

FIG. 6 is a schematic view of an axial structure of a rotating member according to the present invention;

fig. 7 is a schematic diagram of the axial structure of the three-jaw chuck of the present invention.

Wherein the reference numerals are as follows:

1. a base; 2. a sliding member; 3. a working plate; 4. a rotating member; 5. a three-jaw chuck; 11. a first connection hole; 12. a groove; 13. a concave sliding surface; 14. a pointer; 15. a connecting plate; 16. a locking part; 21. a sliding block; 22. a second connection hole; 23. a convex groove; 24. a convex sliding surface; 25. an angle scale; 301. a working surface; 302. single water Kong Dangkong; 303. a single water Kong Fandan tank; 304. a double water Kong Dangkong; 305. a double water Kong Fandan tank; 306. a single water hole support; 307. a double water hole support; 308. a third connection hole; 309. a bearing groove; 310. single water Kong Dangzhou; 311. a double water Kong Dangzhou; 312. a large circular groove; 313. a small circular groove; 314. a single water Kong Fandan unit; 41. a first rotation stop lever; 42. a second rotation stop lever; 51. a hexagonal locking hole; 52. positioning mark, 315, double water Kong Fandan device.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Likewise, the terms "a," "an," or "the" and similar terms do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect.

It should be noted that "upper", "lower", "left", "right", "front", "rear", and the like are used in the present invention only to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed accordingly.

In order to improve the machining efficiency of water hole frock, this application provides fine head water hole drilling device is equallyd divide fast to multi-angle.

The present application is described in further detail below in conjunction with fig. 1-7.

The application discloses quick minute fiber head water hole drilling device of dividing of multi-angle for to the singular water hole and the plural water hole of bore bit process, include: a base 1, a sliding member 2, a working disk 3, a rotating member 4 and a three-jaw chuck 5. Specifically, the base 1 is used for being attached and connected with a machine tool workbench, and the base 1 comprises a concave sliding surface 13 positioned on the top surface; the sliding member 2 is arranged above the base 1, the sliding member 2 is configured to be capable of sliding at an offset angle relative to the base 1, the sliding member 2 is also configured to be capable of fixing a position when sliding at an offset angle relative to the base 1, the sliding member 2 comprises a convex sliding surface 24, and the sliding member 2 is configured to be in sliding fit with the concave sliding surface 13 of the base 1 through the convex sliding surface 24 and is provided with an inner hexagonal locking hole 51 for fixing; the working plate 3 is arranged above the sliding member 2, and one side of the working plate 3 away from the sliding member 2 comprises a working surface 301, wherein the working surface 301 is used for respectively installing a double-water Kong Fandan device 315, a double-water Kong Dangzhou connected with the double-water Kong Fandan device 315, a single-water Kong Fandan device 314 and a single-water Kong Dangzhou 310 connected with the single-water Kong Fandan device 314; when the single water Kong Fandan device 314 is in a stretched state, the single water Kong Dang shaft 310 is in a downward state, and when the single water Kong Fandan device 314 is in a compressed state, the single water Kong Dangzhou is lifted to a height from bottom to top; when the double water Kong Fandan device 315 is in a stretched state, the double water Kong Dang shaft 311 is in a downward state, and when the double water Kong Fandan device 315 is in a compressed state, the double water Kong Dangzhou 311 rises to a height from bottom to top; the rotating member 4 is provided with a first rotating stop lever 41 and a second rotating stop lever 42 in a penetrating way, wherein the first rotating stop lever 41 is contacted with the single water Kong Dangzhou 310 and determines a water hole position under the cooperation of the single water Kong Fandan device 314 when the first rotating stop lever 41 is used for processing the single water hole, and the second rotating stop lever 42 is contacted with the double water Kong Dangzhou 311 and determines the water hole position under the cooperation of the double water Kong Fandan device 315 when the second rotating stop lever 42 is used for processing the double water hole; the three-jaw chuck 5 is used for locking the drill bit.

The dimensions of the base 1, the slide member 2, the working plate 3, the rotating member 4, and the three-jaw chuck 5 are not limited in this application.

Adopt the quick fine head water hole drilling device of dividing of multi-angle of this application, set up slide member 2, single water Kong Fandan ware 314 and the two water Kong Fandan ware 315 that are used for reading offset angle, can realize the processing to different angle water holes and the processing of different quantity water holes after once the clamping. The design of the device reduces the clamping time, improves the machining efficiency and ensures the machining precision.

In an alternative embodiment of the present application, the concave sliding surface 13 is provided with a groove 12 and the convex sliding surface 24 is provided with a convex groove 23.

Specifically, the base 1 is provided with a first connecting hole 11, a groove 12, a concave sliding surface 13, a pointer 14, a connecting plate 15 and a locking part 16, wherein a plurality of first connecting holes 11 can be arranged, the locking part 16 can be constructed into a locking hole structure, the connecting plate 15 on the base 1 can be well attached to a working surface on a machine tool, and the two can be connected and fixed through the first connecting holes 11; the groove 12 is used for being matched with the convex groove 23 to play a role of fixing and sliding; the concave sliding surface 13 is contacted with the convex sliding surface 24, the convex sliding surface 24 slides on the concave sliding surface 13 at any angle through the matching of the groove 12 and the convex groove 23, and the sliding position is fixed by the locking part 16 after sliding; on one side of the concave sliding surface 13 a pointer 14 is mounted, which pointer 14 is stationary and is mainly used for determining the offset angle when the convex sliding surface 24 slides angularly.

In an alternative embodiment of the present application, the sliding member 2 further comprises a connection hole and an angle dial 25; the sliding component 2 is connected with the working disc 3 through a connecting hole; the angle dial 25 is provided on the front side or the rear side of the slide member 2, and the angle dial 25 is configured to be integral with the convex sliding surface 24, and when the slide member 2 stops sliding, the stop position corresponds to the real-time offset angle on the angle dial 25.

Specifically, the sliding member 2 may be configured as a sliding block 21, and the sliding member 2 is provided with an angle plate 25, a second connection hole 22, a convex groove 23 and a convex sliding surface 24; the sliding member 2 is mainly matched with the groove 12 and the concave sliding surface 13 on the base 1, the groove 12 is matched with the convex groove 23 to enable the concave sliding surface 13 to be contacted with the convex sliding surface 24, the convex sliding surface 24 can slide in the concave sliding surface 13 at any angle, and sliding at any angle or a certain angle can be realized; the second connecting hole 22 mainly connects the sliding member 2 and the working plate 3, fixes the working plate 3 on the sliding member 2, and is provided with a convex groove 23 on the back of the sliding member 2, so that the sliding member 2 and the base 1 are connected and fixed together; an angle dial 25 is provided on one side of the sliding member 2, the angle dial 25 is integrated with the convex sliding surface 24, and when the sliding member 2 is stopped in sliding, the angle dial 25 is also offset by a certain angle, and at this time, the position of the pointer 14 corresponds to a unique position on the angle dial 25, and at this time, the angle of the position is the offset angle of the sliding block 21.

In an alternative specific embodiment of the present application, the working surface 301 is provided with a double water Kong Dangkong for installing a double water Kong Dangzhou 311, a single water Kong Fandan device groove 303 for installing a single water Kong Fandan device 314, a double water Kong Fandan device groove 305 for installing a double water Kong Fandan device 315, a third connecting hole 308 for installing a rotating member 4, a double water hole support 307 for installing a double water hole bullet, and a single water hole support 306 for installing a single water hole bullet, respectively; the single water hole elastic block is configured to be capable of normally stretching when working, and the double water hole elastic block is configured to be capable of normally stretching when working; a bearing groove 309 is provided in the working disk 3, and the bearing groove 309 is used for mounting a bearing that acts on the rotating member 4 to rotate the rotating member 4.

In an alternative specific embodiment of the present application, a small circular groove 313 and a large circular groove 312 are provided at the bottom of the working disc 3, the small circular groove 313 is used for installing an auxiliary mechanism of the single water Kong Fandan device 314, the large circular groove 312 is used for installing an auxiliary mechanism of the double water Kong Fandan device 315, the auxiliary mechanism in the small circular groove 313 is correspondingly connected with the single water Kong Fandan device 314, and the auxiliary mechanism in the large circular groove 312 is correspondingly connected with the double water Kong Fandan device 315.

Specifically, the working disk 3 is provided with a working surface 301, a double water Kong Dangkong, a double water Kong Fandan device groove 305, a third connecting hole 308, a single water Kong Dangkong 302, a single water Kong Fandan device groove 303, a connecting shaft, a bearing groove 309, a double water hole support 307 and a single water hole support 306; wherein, the double water Kong Dangkong and the single water Kong Dangkong are respectively provided in plurality and in plurality, and the connecting shaft is connected with the second connecting hole 22 and is fixed; the working surface 301 is a circle, holes are uniformly distributed on the surface of the working surface, and a hole and groove structure is arranged in the working surface; the double water Kong Dangkong is used for placing the double water Kong Dangzhou 311; the double water Kong Fandan tank 305 is mainly used for installing the single water Kong Fandan tank 314; the single water Kong Dangkong is used for placing the single water Kong Dangzhou 310; a single water Kong Fandan tank 303 for mounting the single water Kong Fandan tank 314; the third connection hole 308 is mainly used for mounting a rotation shaft (rotation member 4); the working disc 3 is internally provided with a bearing groove 309, and the bearing groove 309 is arranged in the working disc 3 and acts on the rotating shaft to drive the rotating shaft to rotate; the double-water hole support 307 is used for placing the double-water hole bullet block, so that the double-water hole bullet block can normally move up and down when in operation, and the single-water hole support 306 is used for placing the single-water Kong Dan block, so that the single-water hole bullet block can normally move up and down when in operation; two empty slots with different sizes are arranged in the working disc 3, a small circular slot 313 at the bottom of the working disc 3 is mainly used for accommodating an auxiliary mechanism of a single water Kong Fandan device 314, a large circular slot is arranged above the small circular slot 313 and is mainly used for accommodating an auxiliary mechanism of a double water Kong Fandan device 315, the auxiliary mechanism is formed by connecting three/four elastic blocks end to end, and a supporting block is arranged in the middle of each elastic block to support the elastic block, so that the elastic block can stretch out and draw back; the auxiliary mechanism is connected with the single water Kong Fandan unit 314. When the single water Kong Fandan device 314 is in a stretched state, the two single water Kong Dang shafts 310 connected with the single water Kong Fandan device are in a downward state, and conversely, are in an upward state; when the double water Kong Fandan device 315 is in a stretching state, two double water Kong Dang shafts 311 connected with the double water Kong Fandan device are in a downward state, otherwise, one double water Kong Dangzhou 311 opposite to the double water Kong Fandan device 315 is in a completely unchanged height state, and does not react with the movement of the double water Kong Fandan device 315; the single water Kong Fandan device 314 and the double water Kong Fandan device 315 realize the expansion and contraction of the single water hole bullet block and the double water hole bullet block through two auxiliary mechanisms.

The rotating member 4 may be configured as a rotating shaft on which the first and second rotation bars 41 and 42 are provided, for example; when the first rotation stop lever 41 is mainly used for processing a single water hole, the rotation shaft enables the first rotation stop lever 41 to be in contact with the single water Kong Dangzhou 310 so as to determine the position of the water hole; when the second rotation bar 42 is mainly used for processing double water holes, the rotation shaft is rotated to enable the second rotation bar 42 to be in contact with the double water Kong Dangzhou 311 so as to determine the positions of the water holes.

In an alternative specific embodiment of the present application, the inner hexagonal locking hole 51 is formed on the surface of the three-jaw chuck 5, the three-jaw chuck 5 is provided with the positioning mark 52, the inner hexagonal locking hole 51 is configured to lock the drill bit on the three-jaw chuck 5, and the positioning mark 52 is configured to determine the initial position of the drill bit relative to the three-jaw chuck 5 and determine the correct machining position when the drill bit machines the water hole.

In alternative embodiments of the present application, the single water Kong Fandan applicator 314 is identical in construction to the dual water Kong Fandan applicator 315.

In summary, the multi-angle quick-splitting fiber head water hole drilling device is mainly used for machining single-number (exemplary, three water holes) water holes and double-number (exemplary, two or four water holes) water holes on a drill bit. Connecting a connecting plate 15 on a base 1 with a machine tool, connecting and fixing the connecting plate with bolts through a first connecting hole 11, matching a convex groove 23 on a sliding block 21 with a groove 12 on the base 1, enabling a concave sliding surface 13 to be in contact with a convex sliding surface 24, sliding the connecting plate in the concave sliding surface 13 at any angle, and fixing the sliding angle by a locking part 16; the connecting shaft is fixed in the second connecting hole 22, the rotating shaft is arranged in the third connecting hole 308, two plane bearings are arranged on the rotating shaft, one of the plane bearings is arranged in the working disc 3, and the rotating shaft is driven to rotate; the other is arranged below the three-jaw chuck 5 and drives the three-jaw chuck 5 to rotate, and the rotation shaft and the three-jaw chuck 5 rotate in the same motion; the three-jaw chuck 5 is arranged on a plane bearing above the rotating member 4, and the three-jaw chuck 5 is driven to rotate by utilizing the rotation of the bearing; the single water Kong Fandan device 314 is arranged on the working disc 3 at a position close to the rotating shaft, then the single water Kong Dangzhou device 310 is arranged in the single water Kong Dangkong device 302, the highest position of the single water Kong Dangzhou device is positioned at a certain position from the working surface 301 during placement, meanwhile, the single water Kong Fandan device 314 is arranged in the single water Kong Fandan device groove 303, and the single water Kong Fandan device 314 controls the up-and-down movement of the single water hole spring block; the double water Kong Fandan device 315 is arranged at the position of the double water Kong Fandan device groove 305 which is far away from the rotating shaft on the working disc 3, the double water Kong Dangzhou 311 is arranged in the double water Kong Dangkong, the highest position of the single water Kong Dangzhou 310 is at a certain position from the working surface 301 and is higher than the height of the single water Kong Dangzhou 310 during placement, meanwhile, the double water Kong Fandan device 315 is arranged in the double water Kong Fandan device groove 305, and the double water Kong Fandan device 315 controls the up-and-down movement of the double water hole bullet; two rotation bars with different lengths are arranged on the rotation shaft and are used for determining the rotation angle of the single water Kong Dangzhou 310 and the double water Kong Dangzhou 311.

The device is a single water hole and double water holes integrated and independent multi-angle quick uniform fiber head water hole drilling device. When single water hole drilling is carried out, the double water hole drilling mechanism is in a static state. Firstly, a drill bit to be processed is mounted on a three-jaw chuck 5, a certain position of the drill bit is aligned through a positioning mark 52 on the three-jaw chuck 5, the drill bit is locked through an inner hexagonal locking hole 51 on the three-jaw chuck 5, a sliding block 21 is slid and inclined to a required angle according to the angle of a water hole required by a drawing, and the inclined angle is determined by the positions of the sliding block 21 and an angle disc 25 appointed by a pointer 14 and is fixed by a locking part 16. After the clamping is finished, before the clamping begins, the first rotary stop lever 41 on the rotary shaft is positioned between the water-only Kong Fandan device 314 and the water-only Kong Dang shaft 310, the water-only Kong Fandan device 314 is in a stretching state, and the other two water-only Kong Dang shafts 310 are in a downward state; the rotating shaft is manually rotated to enable a first rotating stop lever 41 on the rotating shaft to lean against a single water Kong Fandan device 314, then the first water hole is drilled, after the first water hole is drilled, a second water hole to be drilled is aligned, at the moment, the single water Kong Fandan device 314 is only needed to be pressed once, the single water Kong Fandan device 314 is changed into an extending state from a compressed state, then the single water Kong Dangzhou 310 is rotated from bottom to top to a height, the rotating shaft is rotated to enable the first rotating stop lever 41 on the rotating shaft to rotate to one single water Kong Dang shaft 310, and at the moment, the single water Kong Dangzhou stops the first rotating stop lever 41 from rotating, and then the second water hole is formed; when the second water hole is drilled, the single water Kong Fandan device 314 is not required to be operated, and the rotating shaft is only required to be rotated in the opposite direction, so that the first rotating stop lever 41 is rotated to the position of the last single water Kong Dang shaft 310, and the position of the third water hole is the third water hole. All water holes can be processed by only pressing the single water Kong Fandan device 314 once in the process.

When drilling a double water hole (illustratively, four water holes), the single water hole drilling mechanism is in a stationary state. Firstly, a drill bit to be processed is mounted on a three-jaw chuck 5, a certain position of the drill bit is aligned through a positioning mark 52 on the three-jaw chuck 5, the drill bit is locked through an inner hexagonal locking hole 51 on the three-jaw chuck 5, a sliding block 21 is slid and inclined to a required angle according to the angle of a water hole required by a drawing, and the inclined angle is determined by the positions of the sliding block 21 and an angle disc 25 appointed by a pointer 14 and is fixed by a locking part 16. After the clamping is finished, before the clamping begins, the position of the second rotary stop lever 42 on the rotary shaft is positioned between the double-water Kong Fandan device 315 and the double-water Kong Dang shaft 311, the double-water Kong Fandan device 315 is in a stretching state, two double-water Kong Dang shafts 311 are in a downward state, and one double-water Kong Dang shaft 311 opposite to the double-water Kong Fandan device 315 is in a state with unchanged height; manually rotating the rotating shaft to enable the second rotating stop lever 42 on the rotating shaft to lean against the double-water Kong Fandan device 315, namely, the position of a first water hole is the position of a first water hole, after the first water hole is drilled, the second water hole to be drilled is aligned, the double-water Kong Fandan device 315 is pressed once, so that the double-water Kong Fandan device 315 is changed into an extending state from a compressed state, and simultaneously, two double-water Kong Dangzhou 311 connected with the double-water Kong Fandan device 315 are at a certain height from bottom to top, and rotating the rotating shaft to enable the second rotating stop lever 42 on the rotating shaft to contact any stop lever, namely, the position of the second water hole; after the second water hole is machined, the rotating shaft is rotated in the opposite direction without any operation on the double water Kong Fandan device 315, so that the second rotating stop lever 42 on the rotating shaft is contacted with the other double water Kong Dangzhou 311, namely the third water hole position; after the third water hole is machined, the double water Kong Fandan device 315 is returned to the compressed state from the extended state by pressing the double water Kong Fandan device 315 once, the stop lever is rotated from top to bottom to a certain position, and the second rotary stop lever 42 on the rotation shaft is contacted with the double water Kong Dangzhou 311 opposite to the double water Kong Fandan device 315, here the fourth water hole position. All water holes can be processed by the double water Kong Fandan device 315 only twice in the process.

When drilling a double water hole (two water holes, for example), the single water hole drilling mechanism is in a stationary state. Firstly, a drill bit to be processed is mounted on a three-jaw chuck 5, a certain position of the drill bit is aligned through a positioning mark 52 on the three-jaw chuck 5, the drill bit is locked through an inner hexagonal locking hole 51 on the three-jaw chuck 5, a sliding block 21 is slid and inclined to a required angle according to the angle of a water hole required by a drawing, and the inclined angle is determined by the positions of the sliding block 21 and an angle disc 25 appointed by a pointer 14 and is fixed by a locking part 16. After the clamping is finished, before the clamping begins, the position of the second rotary stop lever 42 on the rotary shaft is positioned between the double-water Kong Fandan device 315 and the double-water Kong Dang shaft 311, the double-water Kong Fandan device 315 is in a stretching state, two double-water Kong Dang shafts 311 are in a downward state, and one double-water Kong Dang shaft 311 opposite to the double-water Kong Fandan device 315 is in a state with unchanged height; manually rotating the rotating shaft to enable the second rotating stop lever 42 on the rotating shaft to lean against the double-water Kong Fandan device 315, and then the position of the first water hole is the position of the first water hole; after the first water hole is drilled, the rotating shaft is not required to be rotated in any direction according to the double water Kong Fandan device 315, so that the second rotating stop lever 42 on the rotating shaft contacts the double water Kong Dang shaft 311 opposite to the double water Kong Fandan device 315, and the second water hole is positioned; all water holes can be processed without pressing the double water Kong Fandan device 315.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the element defined by the phrase "comprising one … …" does not exclude the presence of a process, method, article, or apparatus that comprises an element, but does not limit it; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: it may still have additional identical elements in the technician devices described in the foregoing embodiments.

The above embodiments are merely used to illustrate the modification of the present solution or to make equivalent substitutions for some of its technical features; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

The present invention is not limited to the above embodiments, but the scope of the invention is defined by the claims.

Claims (7)

1. The utility model provides a fine head water hole drilling device is equallyd divide fast to multi-angle for a single water hole and a plurality of water hole to the bore bit process, its characterized in that, the device includes:

the base is used for being attached to and connected with a machine tool workbench and comprises a concave sliding surface positioned on the top surface;

the sliding member is arranged above the base, the sliding member is configured to slide at an offset angle relative to the base, the sliding member is further configured to fix the position when the sliding member slides at the offset angle relative to the base, the sliding member comprises a convex sliding surface, the sliding member is configured to be in sliding fit with a concave sliding surface of the base through the convex sliding surface and is used for fixing a hexagon socket locking hole, the concave sliding surface is provided with a groove, and the convex sliding surface is provided with a convex groove;

the working plate is arranged above the sliding member, one side of the working plate, which is far away from the sliding member, comprises a working surface, and the working surface is used for respectively installing a double-water hole rebound device, double water Kong Dangzhou connected with the double-water hole rebound device, a single-water hole rebound device and single water Kong Dangzhou connected with the Shan Shuikong rebound device;

when the Shan Shuikong rebound device is in a stretching state, the single water hole baffle shaft is in a downward state, and when the Shan Shuikong rebound device is in a compression state, the single water Kong Dangzhou is lifted to a height from bottom to top;

when the double-water hole rebound device is in a stretching state, the double-water hole blocking shaft is in a downward state, and when the double-water hole rebound device is in a compression state, the double water Kong Dangzhou rises to a height from bottom to top;

a rotating member through which a first rotating bar configured to contact the single water Kong Dangzhou with the cooperation of the single water hole rebound device and determine a water hole position and a second rotating bar configured to contact the double water Kong Dangzhou with the cooperation of the double water hole rebound device and determine a water hole position are provided;

the three-jaw chuck is used for locking the drill bit.

2. The multi-angle rapid splitting head water drilling device according to claim 1, wherein: the base also comprises a first connecting hole, and the base is connected with the machine tool workbench through the first connecting hole; the sliding member further comprises a second connecting hole and an angle dial; the sliding member is connected with the working disc through the second connecting hole; the angle dial is arranged on the front side or the rear side of the sliding member, the angle dial is configured to be of an integrated structure with the convex sliding surface, and when the sliding member stops sliding, the stop position corresponds to a real-time offset angle on the angle dial.

3. The multi-angle rapid splitting head water drilling device according to claim 1, wherein: the working surface is respectively provided with a double water Kong Dangkong for installing the double water hole baffle shaft, a single water Kong Fandan device groove for installing the Shan Shuikong rebound device, a single water Kong Dangkong for installing the single water hole baffle shaft, a double water Kong Fandan device groove for installing the double water hole rebound device, a third connecting hole for installing the rotating member, a double water hole support for installing a double water hole spring block and a single water hole support for installing the single water hole spring block;

the single water hole bullet block is configured to be capable of normally stretching when working, and the double water hole bullet block is configured to be capable of normally stretching when working;

the working disc is internally provided with a bearing groove, the bearing groove is used for installing a bearing, and the bearing acts on the rotating member to enable the rotating member to rotate.

4. The multi-angle rapid splitting head water drilling device according to claim 1, wherein: the bottom of the working disc is provided with a small circular groove and a large circular groove, the small circular groove is used for installing an auxiliary mechanism of the Shan Shuikong rebound device, the large circular groove is used for installing an auxiliary mechanism of the double-water hole rebound device, the auxiliary mechanism in the small circular groove is correspondingly connected with a single-water Kong Fandan device, and the auxiliary mechanism in the large circular groove is correspondingly connected with a double-water Kong Fandan device;

the auxiliary mechanism is completed by connecting three or four elastic blocks end to end, and a supporting block is arranged in the middle of each elastic block to support the elastic blocks to stretch and retract.

5. The multi-angle rapid splitting head water drilling device according to claim 1, wherein: the rotating member is configured as a rotating shaft.

6. The multi-angle rapid splitting head water drilling device according to claim 1, wherein: the inner hexagonal locking hole is formed in the surface of the three-jaw chuck, the three-jaw chuck is provided with an inner positioning mark, the inner hexagonal locking hole is configured to lock the drill bit by the three-jaw chuck, and the positioning mark is configured to determine the initial position of the drill bit relative to the three-jaw chuck and determine the correct machining position of the drill bit when the water hole is machined.

7. The multi-angle rapid splitting head water drilling device according to claim 1, wherein: the Shan Shuikong rebound device has the same structure as the double-water hole rebound device.

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