CN118162645A - Quick drilling equipment of clutch housing - Google Patents

Abstract

The invention discloses clutch housing rapid drilling equipment, which comprises a clutch housing, a clamping mechanism, a drill bit and a coupling mechanism, wherein the clutch housing is provided with a drill bit; the clamping mechanism comprises a plurality of clamping blocks which are annularly distributed around the clutch housing, and a driving mechanism for simultaneously driving the clamping blocks to be close to or far away from the clutch housing; the drill bit is driven to rotate by a first motor; the coupling mechanism is used for driving the drill bit to reciprocate up and down and driving the drill bit to rotate around the central axis of the clutch housing. According to the invention, the rotating frame is simultaneously meshed with the fourth gears corresponding to the sliding blocks, and the screw rods corresponding to the sliding blocks are simultaneously driven to rotate under the transmission fit of the transmission mechanism, so that the clamping blocks corresponding to the sliding blocks are driven to be close to or far away from the clutch housing, the clutch housing is conveniently clamped or loosened, the clutch is stable in the drilling process, and the operation is convenient.

Description

Quick drilling equipment of clutch housing

Technical Field

The invention relates to the technical field of drilling processing, in particular to clutch housing rapid drilling equipment.

Background

The clutch is positioned in a flywheel shell between the engine and the gearbox, the clutch assembly is fixed on the rear plane of the flywheel by using screws, and the output shaft of the clutch is the input shaft of the gearbox. Clutches are common components in mechanical transmissions that can disengage or engage the transmission system at any time. The drilling equipment is needed in the processing process of the clutch shell, but the clamping mechanism of the existing clutch shell drilling equipment is inconvenient to operate, all sides of the clutch shell are sequentially clamped by the clamping mechanism, and after drilling is finished, all the clamping mechanisms are sequentially and reversely operated, so that the drilling efficiency of the clutch shell is affected. In addition, after the clutch housing is drilled once through the drill bit, the drill bit is controlled to drill again after the clutch housing is manually rotated by a rated angle, on one hand, an operator needs to drill after rotating the clutch housing for multiple times, and the operation is inconvenient; on the other hand, the clutch housing and the clamping mechanism are heavy, and time and labor are wasted in rotating the clutch housing and the clamping mechanism.

Disclosure of Invention

The invention aims to improve and innovate the defects and problems existing in the background art, and provides a clutch housing rapid drilling device.

A clutch housing quick drill apparatus comprising:

A clutch housing;

The clamping mechanism comprises a plurality of clamping blocks which are annularly distributed around the clutch housing, and a driving mechanism for driving the clamping blocks to be close to or far away from the clutch housing;

the drill bit is driven by the first motor to rotate;

The coupling mechanism is used for driving the drill bit to reciprocate up and down and driving the drill bit to rotate around the central axis of the clutch housing.

Further, the clamping mechanism comprises a fixed frame, a sliding block corresponding to the clamping block is arranged on the fixed frame in a sliding mode, the sliding block is fixedly connected with the clamping block, the bottom end of the sliding block penetrates through the top wall of the fixed frame and then is connected with the middle of a screw rod in a threaded mode, the screw rod and a worm are integrally formed, and the worm is driven to rotate by the driving mechanism.

Further scheme is, actuating mechanism includes rotatory frame, rotatory frame passes through ball holder rotation to be connected on the inner wall of fixed frame, be provided with the teeth of a cogwheel on the rotatory frame inner wall, at rotatory frame pivoted in-process, rotate on the fixed frame roof be connected with the fourth gear of worm one-to-one, the teeth of a cogwheel on the rotatory frame inner wall is connected with fourth gear meshing, the fourth gear passes through drive mechanism and drives the worm is rotatory, the teeth of a cogwheel of rotatory frame still meshing is connected with a third gear, the third gear is rotated by the second motor drive.

The transmission mechanism comprises a fifth gear, a sixth gear, a seventh gear and a worm gear, wherein the fifth gear is in meshed connection with the fourth gear, the sixth gear is arranged on a gear shaft of the fifth gear, the seventh gear is in meshed connection with the sixth gear, the worm gear is arranged on a gear shaft of the seventh gear, and the worm gear is in meshed connection with the worm.

Further, a rubber pad is arranged on the surface of the clamping block.

Further scheme is, coupling mechanism includes rotary platform, rotary platform installs the second gear on the surface, first motor is installed on rotary platform's lower surface edge, be provided with the lifter plate directly over the rotary platform, rotary platform passes through the axis of rotation and rotates to be connected on the lifter plate, lifter plate both ends fixedly connected with fixed cover, fixed cover and guide bar sliding fit, coupling mechanism is used for driving in proper order the lifter plate up-and-down motion with rotary platform is rotatory.

The coupling mechanism further comprises a second supporting plate fixedly connected to the guide rod, a threaded sleeve is rotatably connected to the second supporting plate through a second bearing, a threaded rod is connected to the threaded sleeve in an internal threaded mode, the top end of the threaded rod is installed on the lifting plate, a third conical gear and a fourth conical gear are installed on the outer surface of the threaded sleeve, a residual conical gear is arranged on one side of the third conical gear and one side of the fourth conical gear and is used for being sequentially meshed with the third conical gear and the fourth conical gear, a second conical gear is further installed on a gear shaft of the residual conical gear, a first conical gear is connected to the second conical gear in a meshed mode, a first gear is further installed on the gear shaft of the first conical gear, a residual gear is arranged between the first gear and the second gear, and the residual gear is driven to rotate by a first motor so that gear teeth of the residual gear are sequentially meshed with the first gear and the second gear.

The further scheme is that a limiting rod is arranged on the second supporting plate below the rotary platform, a plurality of limiting holes are annularly distributed on the second gear, the limiting rod is matched with the limiting holes, when the drill bit contacts with the surface of the clutch shell, the upper end of the limiting rod is inserted into the limiting holes, and when the gear teeth of the residual gear are meshed with the second gear, the limiting holes are separated from the limiting holes.

Further, the number of the second supporting plates is two.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the clutch shell drilling device, the rotating frames are simultaneously meshed with the fourth gears corresponding to the sliding blocks, and under the transmission fit of the transmission mechanism, the screw rods corresponding to the sliding blocks are simultaneously driven to rotate, so that the sliding blocks are driven to move along the central axis of the screw rods, and the clamping blocks corresponding to the sliding blocks are driven to be close to or far away from the clutch shell, so that the clutch shell is conveniently clamped, the clutch shell is fixed, the clutch is kept stable in the drilling process, and the clutch shell is conveniently drilled; after the drilling on the clutch shell is finished, the rotary frame is driven to rotate in the opposite direction, so that the clamping block can be loosened, and the operation is convenient;

(2) According to the invention, the first motor drives the residual gear to rotate, so that gear teeth on the residual gear are sequentially meshed with the first gear and the second gear on two sides of the residual gear; when the gear teeth on the stub gear are in meshed connection with the first gear, the stub bevel gear is driven to rotate, the rotated stub bevel gear is sequentially in meshed connection with the third bevel gear and the fourth bevel gear, the threaded sleeve is driven to rotate clockwise and anticlockwise, and then the threaded rod is driven to reciprocate up and down, so that automatic drilling of the drill bit is realized, and the drill bit returns to the initial position; when the gear teeth on the stub gear are meshed with the second gear, the position of the drill bit is driven to change, so that the drill bit is conveniently controlled to drill holes again after the clutch housing is not required to rotate by a rated angle; the gear teeth on the stub gear are sequentially meshed with the first gear and the second gear on two sides of the stub gear, so that the two movement modes of up-and-down movement and rotation movement of the drill bit are sequentially carried out, namely the up-and-down movement and rotation movement of the drill bit cannot interfere with each other, and the structural design is ingenious;

(3) When the drill bit is in contact with the surface of the clutch shell, the upper end of the limiting rod is inserted into the limiting hole, so that the position of the second gear is not changed under the reaction force of the clutch shell in the drilling process, the position of the drill bit is not changed, the stability in the drilling process is improved, and the next accurate drilling of the drill bit is facilitated; and when the gear teeth of the residual gear are meshed with the second gear, the limiting hole is separated from the limiting hole, and the position of the adjusting drill bit is not influenced.

Drawings

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

FIG. 1 is a schematic diagram of an apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of a partial enlarged structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic top view of a clamping mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic bottom view of a clamping mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of a clamping mechanism according to an embodiment of the present invention;

fig. 6 is a schematic top view of a rotary platform according to an embodiment of the present invention.

Reference numerals: the coupling mechanism 1, the first motor 101, the stub gear 102, the first gear 103, the first bevel gear 104, the second bevel gear 105, the first bearing 106, the first support plate 107, the stub bevel gear 108, the third bevel gear 109, the fourth bevel gear 110, the threaded sleeve 111, the second bearing 112, the threaded rod 113, the second support plate 114, the stopper rod 115, the stopper hole 116, the rotating platform 117, the second gear 118, the rotating shaft 119, the lifting plate 120, the fixed sleeve 121, the guide rod 122, the clamping mechanism 2, the second motor 201, the third gear 202, the rotating frame 203, the ball cage 204, the fixed frame 205, the fourth gear 206, the fifth gear 207, the sixth gear 208, the seventh gear 209, the worm gear 210, the worm 211, the lead screw 212, the slider 213, the slide rod 214, the clamp block 215, the connecting rod 216, the through groove 217, the clutch housing 3, the first motor 4, and the drill bit 5.

Detailed Description

In order that the objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-6, the present invention provides a clutch housing quick drilling apparatus, comprising:

A clutch housing 3;

The clamping mechanism 2 comprises a plurality of clamping blocks 215, the clamping blocks 215 are annularly distributed around the clutch housing 3, and the clamping mechanism 2 further comprises a driving mechanism for simultaneously driving the clamping blocks 215 to be close to or far from the clutch housing 3;

a drill bit 5, wherein the drill bit 5 is driven to rotate by a first motor 4;

The coupling mechanism 1 is used for driving the drill bit 5 to reciprocate up and down and driving the drill bit 5 to rotate around the central axis of the clutch housing 3.

The clamping mechanism 2 comprises a fixed frame 205, wherein the middle part of the fixed frame 205 is hollow, and the upper end of the fixed frame is closed. The driving mechanism includes a rotating frame 203 and a third gear 202, and the rotating frame 203 is rotatably connected to an inner wall of the fixed frame 205 through a ball holder 204 such that the rotating frame 203 can rotate around a central axis of the fixed frame 205. The inner wall of the rotating frame 203 is provided with gear teeth, the gear teeth on the rotating frame 203 are in meshed connection with a third gear 202, the third gear 202 is driven to rotate by a second motor 201, and the second motor 201 is mounted on the top wall of the fixed frame 205. When the second motor 201 drives the third gear 202 to rotate, the rotating frame 203 is driven to rotate. The gear teeth on the inner wall of the rotating frame 203 are also simultaneously meshed with a plurality of fourth gears 206. And the fourth gear 206 drives the worm 211 to rotate through a transmission mechanism, the worm 211 and the screw rod 212 are integrally formed and are rotatably connected to the lower surface of the top wall of the fixed frame 205. The top wall of the fixed frame 205 is slidably provided with a sliding block 213 corresponding to the clamping block 215, the sliding block 213 is fixedly connected with the clamping block 215 through a connecting rod 216, and the bottom end of the sliding block 213 penetrates through the top wall of the fixed frame 205 and is in threaded connection with the middle part of the screw rod 212. The rotating frame 203 of the invention is simultaneously meshed with the fourth gears 206 corresponding to the sliding blocks 213, and drives the screw rods 212 corresponding to the sliding blocks 213 to rotate under the transmission fit of the transmission mechanism, so that the sliding blocks 213 are driven to move along the central axis of the screw rods 212, and the clamping blocks 215 corresponding to the sliding blocks 213 are driven to be close to or far away from the clutch housing 3, thereby facilitating the clamping of the clutch housing 3, fixing the clutch housing 3, keeping the clutch housing 3 stable in the drilling process, and facilitating the drilling of the clutch housing 3; after the drilling of the clutch housing 3 is completed, the rotary frame 203 is driven to rotate in the opposite direction, so that the clamping blocks 215 can be loosened, and the operation is convenient.

The fixing frame 205 is provided with a through slot 217, and the through slot 217 is used for extending the sliding block 213 on the top wall of the fixing frame 205 to the inside of the fixing frame 205 through the top wall of the fixing frame 205.

It should be noted that, each clamping block 215 corresponds to two sliding blocks 213, one sliding block 213 is in threaded connection with the screw rod 212, the other sliding block 213 is in sliding fit with the sliding rod 214, the sliding rod 214 is mounted on the lower surface of the top wall of the fixed frame 205, and each clamping block 215 is connected with the two sliding blocks 213 through two connecting rods 216, so that the movement of the clamping block 215 is more stable, and meanwhile, the clamping stress is more balanced.

Wherein, the one side that grip block 215 is close to clutch housing 3 is provided with the one deck rubber pad, and the rubber pad plays the cushioning effect, avoids grip block 215 to press from both sides the surface of clutch housing 3 to damage when tight clutch housing 3.

Specifically, the transmission mechanism includes a fifth gear 207, a sixth gear 208, a seventh gear 209 and a worm gear 210, where the fifth gear 207 is in meshed connection with the fourth gear 206, the sixth gear 208 is installed on a gear shaft of the fifth gear 207, the sixth gear 208 is in meshed connection with the seventh gear 209, the worm gear 210 is disposed on a gear shaft of the seventh gear 209, and the worm gear 210 is in meshed connection with the worm 211. After the teeth of the rotating frame 203 drive the fourth gear 206 to rotate, the fifth gear 207 and the sixth gear 208 are simultaneously driven to rotate, and the sixth gear 208 is meshed with the seventh gear 209, so that the seventh gear 209 and the worm gear 210 are simultaneously driven to rotate, and finally the worm 211 is rotated.

The coupling mechanism 1 comprises a rotary platform 117, a second gear 118 is mounted on the outer surface of the rotary platform 117, and the first motor 4 is mounted on the edge of the lower surface of the rotary platform 117. The lifting plate 120 is arranged right above the rotating platform 117, the rotating platform 117 is rotatably connected to the lifting plate 120 through the rotating shaft 119, two ends of the lifting plate 120 are fixedly connected with the fixing sleeves 121, and the fixing sleeves 121 are in sliding fit with the guide rods 122. The coupling mechanism 1 is used for sequentially driving the lifting plate 120 to move up and down and the rotary platform 117 to rotate, so that automatic drilling of the drill bit 5 and return to an initial position are conveniently realized; and facilitates control of the drill bit 5 to drill holes in different positions of the clutch housing 3.

Specifically, the coupling mechanism 1 includes two second support plates 114 fixedly connected to one of the guide rods 122, and the two second support plates 114 are horizontally disposed. The second support plate 114 is rotatably connected with a threaded sleeve 111 by arranging a second bearing 112, a threaded rod 113 is in threaded connection with the interior of the threaded sleeve 111, and the top end of the threaded rod 113 is mounted on the lower surface of the lifting plate 120. The outer surface of the thread sleeve 111 is provided with a third conical gear 109 and a fourth conical gear 110, one side of the third conical gear 109 and one side of the fourth conical gear 110 are provided with a residual conical gear 108, and gear teeth on the residual conical gear 108 are used for sequentially meshed connection with the third conical gear 109 and the fourth conical gear 110. The gear shaft of the residual bevel gear 108 is also provided with a second bevel gear 105, the second bevel gear 105 is connected with a first bevel gear 104 in a meshed manner, the gear shaft of the first bevel gear 104 is also provided with a first gear 103, and a residual gear 102 is arranged between the first gear 103 and a second gear 118. The stub gear 102 is driven to rotate by the first motor 101 so that the teeth of the stub gear 102 are sequentially engaged with the first gear 103 and the second gear 118. The first motor 101 drives the residual gear 102 to rotate, so that gear teeth on the residual gear 102 are sequentially meshed with the first gear 103 and the second gear 118 on two sides of the residual gear; when the gear teeth on the stub gear 102 are in meshed connection with the first gear 103, the stub bevel gear 108 is driven to rotate, the rotated stub bevel gear 108 is sequentially in meshed connection with the third bevel gear 109 and the fourth bevel gear 110, the threaded sleeve 111 is driven to rotate clockwise and anticlockwise, and the threaded rod 113 is driven to reciprocate up and down, so that automatic drilling of the drill bit 5 is realized and the drill bit returns to the initial position; when the gear teeth on the stub gear 102 are engaged with the second gear 118, the position of the drill bit 5 is changed, so that the drill bit 5 is conveniently controlled to drill holes again without rotating the clutch housing 3 by a rated angle.

It should be noted that, because the gear teeth on the stub gear 102 are sequentially meshed with the first gear 103 and the second gear 118 on two sides of the stub gear, the up-down movement and the rotation movement of the drill bit 5 are sequentially performed, that is, the up-down movement and the rotation movement of the drill bit 5 do not interfere with each other, and the structural design is ingenious.

It should be noted that, the gear shaft of the stub bevel gear 108 is rotatably connected to the first support plate 107 through the first bearing 106, and the number of the first support plates 107 is two, so that the stub bevel gear 108 rotates smoothly.

Since the rotary platform 117 is rotatably connected to the lifting plate 120 via the rotation shaft 119, the rotary platform 117 can freely rotate, so as to avoid rotation of the rotary platform 117 relative to the lifting plate 120 during drilling, and thus change the position of the drill bit 5. Therefore, in this embodiment, a limiting rod 115 is mounted on one of the second support plates 114 below the rotating platform 117, and a plurality of limiting holes 116 are annularly distributed on the second gear 118, and the limiting rod 115 is adapted to the limiting holes 116. When the drill bit 5 contacts with the surface of the clutch housing 3, the upper end of the limit rod 115 is inserted into the limit hole 116, so that the position of the second gear 118 is not changed under the reaction force of the clutch housing 3 in the drilling process, and the position of the drill bit 5 is not changed, thereby being beneficial to improving the stability in the drilling process. When the teeth of the spur gear 102 are engaged with the second gear 118, the limiting hole 115 is separated from the limiting hole 116, so that the position of the adjustment drill 5 is not affected.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the invention.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.

It will be apparent that the described embodiments are only some, but not all, embodiments of the application. Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the application for the embodiment. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly understand that the embodiments described herein may be combined with other embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. A clutch housing quick drilling apparatus, comprising:

A clutch housing (3);

the clamping mechanism (2), the clamping mechanism (2) comprises a plurality of clamping blocks (215), the clamping blocks (215) are annularly distributed around the clutch housing (3), and the clamping mechanism (2) further comprises a driving mechanism for simultaneously driving the clamping blocks (215) to be close to or far away from the clutch housing (3);

a drill bit (5), the drill bit (5) being driven to rotate by a first motor (4);

The coupling mechanism (1) is used for driving the drill bit (5) to reciprocate up and down and driving the drill bit (5) to rotate around the central axis of the clutch housing (3).

2. A clutch housing quick drill device according to claim 1, characterized in that: the clamping mechanism (2) comprises a fixed frame (205), a sliding block (213) corresponding to the clamping block (215) is arranged on the fixed frame (205) in a sliding mode, the sliding block (213) is fixedly connected with the clamping block (215), the bottom end of the sliding block (213) penetrates through the top wall of the fixed frame (205) and then is in threaded connection with the middle of a screw rod (212), the screw rod (212) and a worm (211) are integrally formed, and the worm (211) is driven to rotate by the driving mechanism.

3. A clutch housing quick drill device according to claim 2, characterized in that: the driving mechanism comprises a rotating frame (203), the rotating frame (203) is rotationally connected to the inner wall of a fixed frame (205) through a ball retainer (204), gear teeth are arranged on the inner wall of the rotating frame (203), a fourth gear (206) in one-to-one correspondence with the worm (211) is rotationally connected to the top wall of the fixed frame (205), the gear teeth on the inner wall of the rotating frame (203) are in meshed connection with the fourth gear (206), the fourth gear (206) drives the worm (211) to rotate through a transmission mechanism, a third gear (202) is further in meshed connection with the gear teeth of the rotating frame (203), and the third gear (202) is driven to rotate by a second motor (201).

4. A clutch housing quick drill device according to claim 3, characterized in that: the transmission mechanism comprises a fifth gear (207), a sixth gear (208), a seventh gear (209) and a worm wheel (210), wherein the fifth gear (207) is connected with a fourth gear (206) in a meshed mode, the sixth gear (208) is installed on a gear shaft of the fifth gear (207), the seventh gear (209) is connected with the sixth gear (208) in a meshed mode, the worm wheel (210) is arranged on the gear shaft of the seventh gear (209), and the worm wheel (210) is connected with a worm (211) in a meshed mode.

5. A clutch housing quick drill device according to claim 1, characterized in that: a rubber pad is arranged on the surface of the clamping block (215).

6. A clutch housing quick drill device according to claim 1, characterized in that: coupling mechanism (1) is including rotary platform (117), rotary platform (117) surface mounting has second gear (118), first motor (4) are installed on rotary platform (117) lower surface edge, be provided with lifter plate (120) directly over rotary platform (117), rotary platform (117) are rotated through axis of rotation (119) and are connected on lifter plate (120), fixed cover (121) are connected with in lifter plate (120) both ends fixedly, fixed cover (121) and guide bar (122) sliding fit, coupling mechanism (1) are used for driving in proper order lifter plate (120) up-and-down motion with rotary platform (117) are rotatory.

7. A clutch housing quick drill device as claimed in claim 6, wherein: the coupling mechanism (1) further comprises a second supporting plate (114) fixedly connected to the guide rod (122), a threaded sleeve (111) is rotatably connected to the second supporting plate (114) through a second bearing (112), a threaded rod (113) is connected to the inside of the threaded sleeve (111) in a threaded mode, the top end of the threaded rod (113) is mounted on the lifting plate (120), a third conical gear (109) and a fourth conical gear (110) are mounted on the outer surface of the threaded sleeve (111), a residual conical gear (108) is arranged on one side of the third conical gear (109) and one side of the fourth conical gear (110), the residual conical gear (108) is used for being sequentially meshed with the third conical gear (109) and the fourth conical gear (110), a second conical gear (105) is further mounted on a gear shaft of the residual conical gear (108), a first conical gear (104) is further mounted on a gear shaft of the first conical gear (104), a first gear (103) is further mounted on the gear shaft of the first conical gear (105), a residual motor (102) is rotatably connected with the second conical gear (110), so that the teeth of the stub gear (102) are sequentially engaged with the first gear (103) and the second gear (118).

8. A clutch housing quick drill device as claimed in claim 7, wherein: be located install gag lever post (115) on second backup pad (114) of rotary platform (117) below, annular distribution has a plurality of spacing holes (116) on second gear (118), gag lever post (115) and spacing hole (116) looks adaptation, works as drill bit (5) and clutch housing (3) surface contact, the upper end of gag lever post (115) inserts in spacing hole (116), works as the teeth of a cogwheel (102) are connected with second gear (118) meshing, spacing hole (115) with spacing hole (116) phase separation.

9. A clutch housing quick drill device as claimed in claim 8, wherein: the number of the second support plates (114) is two.