CN201982034U - Hydraulic chuck of nitrogen gas spring type drilling machine - Google Patents
Hydraulic chuck of nitrogen gas spring type drilling machine Download PDFInfo
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- CN201982034U CN201982034U CN 201020643447 CN201020643447U CN201982034U CN 201982034 U CN201982034 U CN 201982034U CN 201020643447 CN201020643447 CN 201020643447 CN 201020643447 U CN201020643447 U CN 201020643447U CN 201982034 U CN201982034 U CN 201982034U
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- chuck
- piston
- slips
- chuck body
- cart
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Abstract
The utility model provides a hydraulic chuck of nitrogen gas spring type drilling machine which belongs to the drilling machine clamping equipment technology field. The utility model aims to provide a hydraulic chuck of nitrogen gas spring type drilling machine. The structure of the chuck comprises a rotating component and a relative non-rotating component; and includes an end cover, a chuck plate, a slips assembly, a slips wear-preventive piece, a slips seat, a pull rod, nitrogen gas springs, a piston pulling bush, a dustproof ring, a thrust ball bearing, a circular nut, a bearing, a baffle plate, a piston and an oil cylinder body; the nitrogen gas springs are distributed circumferentially and uniformly between the chuck plate and the slips seat; the slips assembly moves in the slips seat to transmit torque with a torque transmission block. The advantages and uses of the utility model: the chuck is compacted by the nitrogen gas springs and released by hydraulic pressure; and achieves the advantages of small external diameter dimension, small moment of inertia, large chuck clamping force, stable clamping performance and high work reliability; at the same time, the slips of the chuck can be replaced conveniently and fast, to increase operating efficiency greatly.
Description
One, technical field
The utility model relates to the chuck that is applied in the underground drill rig technical field, promptly a kind of nitrogen spring formula oild chuck.
Two, background technology
Chuck is the important building block of rig, is installed on the unit head to use as rig clamping drilling tool.The effect of chuck mainly is the clamping drilling tool, to drilling tool transmitting torque and axial force, finishes the task of boring.
At present, the common oild chuck of underground drill rig mainly contains oild chuck open in usual and normally closed type oild chuck, and oild chuck wherein open in usual is mainly packing element formula chuck, and the normally closed type chuck is mainly the disk spring type chuck.By hydraulic clamp, spring unclamps during packing element formula chucking work, therefore hydraulic system is had relatively high expectations, and wherein joins the leakage problem of oil jacket and the life problems of packing element and has a strong impact on the chuck performance.The disk spring type chuck mainly is made up of cylinder block, piston, disk spring, slip spider, slips, hollow shaft, clamps by spring force during work, and hydraulic unlock, the chuck performance depends on the disk spring performance.State Intellectual Property Office has announced " a kind of normally closed type oild chuck " patent on the net on May 20th, 2009, patent No. CN200820078360.3, its structure comprises chuck body, is arranged on slips, hydraulic cylinder, the chuck shell that is connected with hydraulic cylinder in the chuck body and is arranged on the chuck shell and the conduit of chuck body inside, the shell of hydraulic cylinder is connected with the chuck shell, the chuck piston of hydraulic cylinder is connected by thrust ball bearing with chuck body, is provided with disk spring in the inner chamber of chuck shell and between the chuck body.Slips and chuck body are equipped with by taper surface; The slips inner ring is provided with turn.The end of conduit has the open slot of placing slips, is provided with two above the slips and is stuck in the semi-ring in the annular groove on the conduit outer wall, is the chuck lid above the semi-ring.Overall structure adopts dish spring chucking, hydraulic unlock.
Because the influence of disk spring self-characteristic, the disk spring type chuck has the following disadvantages:
1. chucking power is subjected to the disk spring deformation effect big, and the chucking power loss of slips wearing and tearing back is big.
2. increase the chuck chucking power, must increase the disk spring size, cause chuck appearance and size big, dynamic moment of inertia is big.
3. slips embeds in the hollow shaft in the chuck, changes the slips trouble, influences production efficiency.
Three, utility model content
In order to solve in the oild chuck hydraulic system is required height, can not satisfy the problem of chuck instructions for use and fitting operation trouble to the flexible member characteristic, the utility model provides a kind of nitrogen spring formula oild chuck, also belongs to a kind of normally closed type nitrogen spring formula oild chuck.
The technical scheme that its technical problem that solves the utility model adopts is: (in order better to understand technology contents, simultaneously referring to accompanying drawing, the component label is placed on expression in the bracket)
Nitrogen spring churn oild chuck, form by rotary components and non-rotating assembly, in the wherein non-rotating assembly, cylinder body (1) oppositely is socketed on the piston (2), it is characterized in that: in rotary components, piston help pull a cart (12) be sleeved on the chuck body (4), piston (2) is sleeved on piston again and helps pull a cart on (12); Pull bar (10) microcephaly passes slip spider (7), chuck body (4) and is connected piston and helps pull a cart on (12); Slip assemblies (8) is fastened on the anti-abrasive disc (9) of slips and goes up and embed in the inclined plane groove (7a) of slip spider (7), can be stuck in chuck body (4) along mobile slip assemblies (8) one ends of inclined plane groove (7a) goes up in the space between the torsion pass piece (4a), the other end is stuck in end cap (6) and goes up in the space between the torsion pass piece (6a), and end cap (6) is fixed by bolts on chuck body (4) end face; The equally distributed nitrogen spring of border annular (5) is installed in slip spider (7) and matches with chuck body (4) in each cylindrical hole of annular spread of formation.
The technical scheme that its technical problem that solves the utility model adopts also comprises:
Described nitrogen spring formula oild chuck is characterized in that: described nitrogen spring (5) is a gas spring.
Described nitrogen spring formula oild chuck is characterized in that: described nitrogen spring (5) is installed in the cylindrical fitting face of chuck body (4) and slip spider (7) formation.
Described nitrogen spring formula oild chuck, it is characterized in that: the anti-abrasive disc (9) of described slip assemblies (8) and slips is coupled as one and embeds on the inclined plane groove (7a) in the slip spider (7), and the dovetail groove inclined-plane that is provided with in the slip spider (7) is exactly inclined plane groove (7a).
Described nitrogen spring formula oild chuck is characterized in that: dust ring (13) is installed in rotatable chuck body (4) end, is positioned between chuck body (4) and the cylinder block (1).
Described nitrogen spring formula oild chuck, it is characterized in that: piston help pull a cart (12) be sleeved on the rotatable chuck body (4), piston (2) is sleeved on rotatable piston again and helps pull a cart on (12), its piston (2) and rotatable piston help pull a cart (12) link to each other by thrust ball bearing (14), bearing baffle (15), round nut (16) between the two.
From the another one angle briefly: a kind of nitrogen spring formula oild chuck, comprise that the anti-abrasive disc of end cap, chuck body, slip assemblies, slips, slip spider, pull bar, nitrogen spring, piston are helped pull a cart, dust ring, thrust ball bearing, round nut, bearing baffle, piston, cylinder block, anti-abrasive disc of slips and slip assemblies fasten as one by screw and pack in the slip spider inner chamfer groove, the drill power head main shaft connects with chuck body, and the torsion pass piece on end cap and the chuck body is from two ends chucking slips transmitting torque.Pull bar is helped pull a cart slip spider, chuck body, piston and is tied, and piston is helped pull a cart and piston, cylinder block, thrust ball bearing, round nut and bearing baffle are formed the hydraulic unlock part, and nitrogen spring is fastened in the chuck body in the counterbore by screw.
Advantage of the present utility model and effect:
1, the utility model adopts nitrogen spring as the chuck flexible member, and good resiliency characteristics curve can be provided, and elastic force covariant deformationization is very little, the chuck chucking power is big, and stable performance replaces Hydraulic Elements with mechanical part, avoid leakage of oil, reduce the hydraulic system requirement.
2, nitrogen spring self appearance and size is little, is installed in slip spider and matches with chuck body in the cylindrical hole that forms, and reduces chuck appearance and size, and dynamic moment of inertia is little.
3, drive slip assemblies in the inclined plane groove in the anti-abrasive disc embedding of the slips slip spider and move radially, can effectively transmit motion and oblique mechanism and can play reinforcement.
4, design has torsion pass piece, slip assemblies two ends to be stuck in the space between the torsion pass piece on end cap and the chuck body, and transmitting torque only need be taken end cap apart with regard to replaceable slips when changing slips, and is convenient and swift.
5, dust ring is installed in the chuck body end, prevents that effectively impurity from entering on the piston between chuck body and the cylinder block, prolongs piston application life.
6, prolonged the application life of hydraulic unit, clamping is reliable, and is convenient, fast during the dismounting drilling tool, improved site work efficient.
Four, description of drawings
Fig. 1 is the structural representation of this nitrogen spring formula oild chuck.Fig. 2 is the structural representation of chuck body.Fig. 3 is that the A of Fig. 2 is to view.Fig. 4 is the structural representation of slip spider.Fig. 5 is that the B of Fig. 4 is to view.Fig. 6 is the structural representation of end cap.
Number in the figure explanation: 1. cylinder block, 2. piston, 3. straight coupling, 4. chuck body, 4a. torsion pass piece, 5. nitrogen spring, 6. end cap, 6a. the torsion pass piece, 7. slip spider, 7a. inclined plane groove 8. slip assemblies, 9. the anti-abrasive disc of slips, 10. pull bar, 11. drag link sleeves, 12. piston is helped pull a cart, 13. dust rings, 14. thrust ball bearings, 15. bearing baffle, 16. round nuts, 17. keys.
Five, the specific embodiment
Below in conjunction with accompanying drawing the nitrogen spring formula oild chuck that the utility model provides is further described:
Referring to Fig. 1 to 4, in Fig. 1, nitrogen spring 5 one ends are fastened on chuck body 4 inside (referring to Fig. 2), one end withstands on the slip spider 7 end face seams (referring to Fig. 4), nitrogen spring 5 is in the face of cylinder of chuck body 4 and slip spider 7 formation, promptly being installed in slip spider matches with chuck body in each cylindrical hole of annular spread that forms, referring to Fig. 3, nine bigger cylindrical holes of several from outside to inside second annular rings distributions, 2 apertures at the bottom of this hole are fastened on nitrogen spring 5 one ends in the chuck body 4 with screw exactly, this structural shape reduces chuck body 4 appearance and sizes greatly, and dynamic moment of inertia is little.Rotatable chuck body 4 internal keies 17 are connected with main shaft (hollow shaft) on the rig gear-box, and the main shaft drives on the rig gear-box also drives whole rotary part work by chuck body 4.
Referring to Fig. 1 to Fig. 6, in Fig. 1, slip assemblies 8 is fastened on the anti-abrasive disc 9 of slips and is one, among the inclined plane groove 7a of whole embedding slip spider 7 (referring to Fig. 4 and Fig. 5), the anti-abrasive disc 9 of slips moves in the inclined plane groove 7a of slip spider 7, drives slip assemblies 8 and moves, and effectively transmits motion.Slip assemblies 8 one ends are stuck on the chuck body 4 in the space between the torsion pass piece 4a (referring to Fig. 2 to Fig. 3), and the other end is stuck on the end cap 6 in the space between the torsion pass piece 6a (referring to Fig. 6), transmitting torque.End cap 6 is fixed by bolts on chuck body 4 end faces.When changing slips, only need pull down end cap 6 and go out slip assemblies 8 with regard to desirable, convenient and swift.
Referring to Fig. 1 to Fig. 5, in Fig. 1, pull bar 10 microcephalies pass slip spider 7, chuck body 4 and are connected piston and help pull a cart on 12, be that pull bar 10 1 ends connection piston helps pull a cart 12, one end connects slip spider 7, middle pass chuck body 4 by drag link sleeve 11, with piston help pull a cart 12, slip spider 7, chuck body 4 threes couple together and be one.Pull bar 10 is distributed as annular last nine tie points (referring to Fig. 2 and Fig. 3), and last nine the medium holes of several from outside to inside the 3rd annulars are exactly tie point among Fig. 3, last nine holes of annular tie point just among Fig. 4, Fig. 5.
In Fig. 1, piston is helped pull a cart and 12 is sleeved on the chuck body 4, and piston 2 is sleeved on piston again and helps pull a cart on 12, and its piston 2 and piston are helped pull a cart and 12 linked to each other by thrust ball bearing 14, bearing baffle 15, round nut 16 between the two; Cylinder block 1 oppositely is socketed on piston 2 peripheries cylinder block 1 external straight coupling 3 simultaneously.Dust ring 13 is installed in chuck body 4 ends, between chuck body 4 and cylinder block 1, prevents that effectively impurity from entering on the piston 2 between chuck body 4 and the cylinder block 1.
In use: referring to Fig. 1, chuck is in clamped condition (normally closed type) when not working, and nitrogen spring 5 has certain pre compressed magnitude.During work, hydraulic oil is entered in the cylinder block 1 by straight coupling 3, promoting piston 2 is moved to the left vertically, piston 2 drives that thrust ball bearings 14, bearing baffle 15, round nut 16, piston help pull a cart 12, pull bar 10, slip spider 7 these integral body are moved to the left, slip spider 7 compressed nitrogen springs 5, slip assemblies 8 radially outwards moves along the inclined plane groove 7a in the slip spider 7, and chuck opening amount increases, and chuck unclamps; After drilling rod enters chuck, the hydraulic system pressure release, the hydraulic oil oil return, nitrogen spring 5 elongations, promote slip spider 7 and move right vertically, slip spider 7 drives that pull bars 10, piston help pull a cart 12, thrust ball bearing 14, bearing baffle 15, round nut 16, piston 2 these integral body move right, and slip assemblies 8 radially moves inward along the inclined plane groove 7a in the slip spider 7, chuck opening amount reduces, and chuck clamps.During the chuck rotation, except that oil cylinder cylinder body 1, piston 2 and straight coupling 3 did not rotate, remaining part all rotated.
Claims (4)
1. nitrogen spring churn oild chuck, form by rotary components and non-rotating assembly, in the wherein non-rotating assembly, cylinder body (1) oppositely is socketed on the piston (2), it is characterized in that: in rotary components, piston help pull a cart (12) be sleeved on the chuck body (4), piston (2) is sleeved on piston again and helps pull a cart on (12); Pull bar (10) microcephaly passes slip spider (7), chuck body (4) and is connected piston and helps pull a cart on (12); Slip assemblies (8) is fastened on the anti-abrasive disc (9) of slips and goes up and embed in the inclined plane groove (7a) of slip spider (7), can be stuck in chuck body (4) along mobile slip assemblies (8) one ends of inclined plane groove (7a) goes up in the space between the torsion pass piece (4a), the other end is stuck in end cap (6) and goes up in the space between the torsion pass piece (6a), and end cap (6) is fixed by bolts on chuck body (4) end face; The equally distributed nitrogen spring of border annular (5) is installed in slip spider (7) and matches with chuck body (4) in each cylindrical hole of annular spread of formation.
2. according to the described nitrogen spring churn of claim 1 oild chuck, it is characterized in that: described nitrogen spring (5) is a gas spring.
3. according to the described nitrogen spring churn of claim 1 oild chuck, it is characterized in that: dust ring (13) is installed in rotatable chuck body (4) end, is positioned between chuck body (4) and the cylinder block (1).
4. according to the described nitrogen spring churn of claim 1 oild chuck, it is characterized in that: piston help pull a cart (12) be sleeved on the rotatable chuck body (4), piston (2) is sleeved on rotatable piston again and helps pull a cart on (12), its piston (2) and rotatable piston help pull a cart (12) link to each other by thrust ball bearing (14), bearing baffle (15), round nut (16) between the two.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201020643447 CN201982034U (en) | 2010-12-06 | 2010-12-06 | Hydraulic chuck of nitrogen gas spring type drilling machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201020643447 CN201982034U (en) | 2010-12-06 | 2010-12-06 | Hydraulic chuck of nitrogen gas spring type drilling machine |
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CN201982034U true CN201982034U (en) | 2011-09-21 |
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CN 201020643447 Expired - Fee Related CN201982034U (en) | 2010-12-06 | 2010-12-06 | Hydraulic chuck of nitrogen gas spring type drilling machine |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102720449A (en) * | 2012-06-15 | 2012-10-10 | 兰桥昌 | Clamping mechanism of automatic twisting machine of spindle-type drilling machine |
CN103821466A (en) * | 2013-11-15 | 2014-05-28 | 淮南矿业(集团)有限责任公司 | Clamp |
CN103821467A (en) * | 2014-03-07 | 2014-05-28 | 湖南科技大学 | Hydraulic power chuck for automatic drilling machine |
-
2010
- 2010-12-06 CN CN 201020643447 patent/CN201982034U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102720449A (en) * | 2012-06-15 | 2012-10-10 | 兰桥昌 | Clamping mechanism of automatic twisting machine of spindle-type drilling machine |
CN103821466A (en) * | 2013-11-15 | 2014-05-28 | 淮南矿业(集团)有限责任公司 | Clamp |
CN103821466B (en) * | 2013-11-15 | 2016-03-23 | 淮南矿业(集团)有限责任公司 | Clamper |
CN103821467A (en) * | 2014-03-07 | 2014-05-28 | 湖南科技大学 | Hydraulic power chuck for automatic drilling machine |
CN103821467B (en) * | 2014-03-07 | 2015-11-18 | 湖南科技大学 | A kind of automatic drilling machine hydraulic power chuck |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20110921 Termination date: 20111206 |