CN203248080U - Combined drill - Google Patents

Combined drill Download PDF

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Publication number
CN203248080U
CN203248080U CN 201320092001 CN201320092001U CN203248080U CN 203248080 U CN203248080 U CN 203248080U CN 201320092001 CN201320092001 CN 201320092001 CN 201320092001 U CN201320092001 U CN 201320092001U CN 203248080 U CN203248080 U CN 203248080U
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China
Prior art keywords
tooth
gear wheel
horizontal
bit
rock
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CN 201320092001
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杨迎新
张春亮
陈炼
林敏�
任海涛
包泽军
石擎天
董博
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Southwest Petroleum University
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Southwest Petroleum University
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Abstract

The utility model discloses a combined drill, and belongs to the technical field of drilling equipment of oil and gas, mine engineering, constructing of building foundation engineering, geology, hydrology and the like. The combined drill comprises a drill body, at least one tooth gear and at least one circular slitting knife, wherein the tooth gear and the circular slitting knife are respectively in rotating connection with the drill body through a bearing structure, the deviation angle range of the circular slitting knife is [20 degrees, 90 degrees] or [-90 degrees, -20 degrees], circular slitting knife cutting teeth are arranged on the circular slitting knife, transversely-inlaid teeth are arranged on the tooth gear, and the value range of the tooth crest deflection angle alpha of each transversely-inlaid tooth is 70 degrees <=|alpha|<= 90 degrees. According to the combined drill, a novel tooth gear structure style is put forward, and the novel tooth gear structure style is combined with a large-inclination-angle circular slitting knife cutting structure to form the novel combined-structure drill. The combined drill is higher in rock breaking efficiency, stable in tooth gear working, good in working stability, longer in service life of teeth of the drill and service life of a bearing, and thus longer in service life.

Description

A kind of Mixed drilling bit
Technical field
The utility model belongs to the drilling equipment technical fields such as petroleum gas, mine engineering, building foundation engineering construction, geology, the hydrology, relates to concretely a kind of Mixed drilling bit.
Background technology
Drill bit be in the drilling engineering in order to fractured rock, form the rock crushing tool of pit shaft.At present employed tricone bit comprises steel-tooth bit (claim not only mill tooth bit) and tungsten carbide insert bit (but also claiming tungsten carbide insert bit) in the drilling engineering.Steel-tooth bit is directly to mill out cutting teeth on the gear wheel base substrate, and the intensity of tooth is lower, abrasion resistance is relatively poor, generally is used for soft formation; Tungsten carbide insert bit is inlaid solid carbide alloy tooth (hereinafter to be referred as hard-metal insert or tooth) in the perforation that cone body is reserved, and the hardness of hard-metal insert and abrasion resistance obviously are better than steel-tooth, general being used for than hard formation.Tricone bit is mainly with the broken rock of the form of impacting crushing, and namely tooth cuts fractured rock by scraping to the impact of rock, extruding with a small amount of slippage, and its shortcoming is that capacity usage ratio is not high, efficiency of breaking rock is lower, and in the drill bit course of work, the impact that bearing is subject to is large, and dynamic load factor is large.On form of structure, in order to satisfy the needs of the broken broken rock working method of insert bit punching press, existing drill bit has adopted following three technological means: one, the inlaid solid part in bottom of the tooth on the existing insert bit is column type, top exposure part is shunk transition by lower cylindrical gradually to the tooth axis, mostly be wedge shape or taper, the addendum width of tooth all is significantly less than the diameter of the inlaid solid part in bottom, to form more sharp-pointed impact head.Because the dynamic load that tooth is subjected to is large, and the tooth size less, so integral body or the local fracture of tooth occur easily.Its two, the tooth top zero deflection (being that the tooth top deflection angle is 0 °) of existing most of tri-cone insert bits gear wheel upper teeth also has tooth (cutting teeth) tooth top of the part gear ring of a small amount of drill bit that deflection is arranged, deflection angle is generally in 50 °.The deflection of tooth be for cater to tooth impact the slippage be pressed into behind the rock scrape butt to, the slippage of rock scraped cut effect (amount) to increase tooth.Its three, there is skew in the gear wheel of most tricone bits, its purpose is that skew makes gear wheel when bottom rock rolls broken rock pure rolling can't occur, slippage increases when making the broken rock of tooth on the gear wheel, the tooth slippage on the larger gear wheel of deviant scrape cut more obvious.
What a kind of wheel-type drill (China Patent No.: ZL 201010229375.7) with the broken rock of cutting way provided that a kind of large deviation angle runner (dise knife) cuts structure scrapes the cut type drill bit, and the cutting teeth during drill bit work on the dise knife is alternately scraped in turn and cut brokenly rock.A kind of combined drill (China Patent No.: ZL 201010229371.9) with the broken rock of cutting way provides a kind of combined drill of scraping cut type, drill bit is composited by large deviation angle dise knife and stationary cutting structure, at the dise knife cutting teeth with fixedly under the acting in conjunction of cutting teeth, drill bit is scraped in the webbed intersection of shaft bottom shape and is cut, and intersects to scrape to cut the efficiency of breaking rock that can improve drill bit.Above-mentioned two kinds of drill bits are to scrape cuts (cutting) type drill bit, and the prerequisite that the broken rock of drill bit creeps into is still effectively wedging formation rock of cutting teeth.When the very hard cutting teeth of rock is difficult to the wedging rock, or cutting teeth has when being difficult to the wedging rock after the wearing and tearing, and the rock efficient that these two kinds of drill bits are broken will reduce.
The utility model content
The purpose of this utility model is: a kind of Mixed drilling bit is provided, and this drill bit proposes a kind of new cone structure form, and combines with the dise knife cutting structure of large deviation angle, forms novel combination construction drill bit.This Mixed drilling bit has higher efficiency of breaking rock; The gear wheel stable working, the drill bit good operating stability also has the life-span of longer drill teeth and bearing, thereby has longer drilling life of bit.
The technical solution of the utility model is as follows:
A kind of Mixed drilling bit, comprise bit body, at least one gear wheel and at least one dise knife, described gear wheel and dise knife form by bearing arrangement and described bit body respectively and are rotationally connected, the scope of the deviation angle of described dise knife is [20 °, 90 °] or [90 ° ,-20 °], be provided with the dise knife cutting teeth on the described dise knife, described gear wheel is provided with horizontal inserted, and the span of horizontal inserted tooth top angle of deflection be 70 °≤| α |≤90 °.
The structure of tooth is one of key factor that affects roller bit cutting efficient.The tooth of insert bit and the perforation on the gear wheel adopt interference fit (or welding-on etc.) mode to be inlaid solid on the gear wheel usually.The bottom of tooth and cutter teeth hole form interference fit (this part is called the inlaid solid part of tooth), and the surface that tooth and perforation form interference fit is generally the face of cylinder; The top of tooth is positioned at outside the surface of cone shell, be used for directly contact, (this part is called the working portion of tooth to fractured rock, be also referred to as bizet or the head of tooth), generally, radially (perpendicular to the tooth axis direction, the diametric(al) of parallel tooth lower cylindrical) size of tooth bizet is less than the body diameter of inlaid solid part.The size of the inlaid solid part of tooth (diameter and height) and the magnitude of interference are the keys that determines permanent tooth intensity, and the shape and size of tooth bizet then are the keys that determines the tooth service behaviour.Usually so-called " flute profile " or " profile of tooth " classification with regard to referring to according to the feature of tooth corona shape and size tooth be done.Common tooth flute profile (or profile of tooth) comprises hemi-spherical ended shape insert, conical tooth, chisel teeth, scoop chisel insert, eccentric scoop chisel insert, wedge crested chisel insert etc.According to the difference of tooth bizet geometrical body principal character, tooth can be divided into rotary type tooth and non-revolved body class tooth two large classes.The bizet surface of rotary type tooth is the surface of revolution coaxial with tooth center line, such as hemi-spherical ended shape insert and conical tooth.If the bizet of tooth surface is non-rotating curved surface, though or be its centre of gyration of surface of revolution and tooth center disalignment, such tooth is non-revolved body class tooth, such as chisel teeth, scoop chisel insert, eccentric scoop chisel insert and wedge crested chisel insert etc.
The major parameter that characterizes tooth corona shape and size is that the proud exposure h of tooth, the addendum width W of tooth and the addendum thickness T(of tooth see Figure 38).Proud exposure h refers to the height of tooth exposure outside the cone shell surface, is called for short proud exposure or tooth depth; Addendum width is called for short perpendicular to the maximum transverse size in the plane of tooth axis in the tooth top zone that the addendum width W of tooth refers to tooth; The thickness T of tooth refers to tooth tooth top zone in the maximum transverse size perpendicular to the tooth width direction, is called for short addendum thickness.Addendum width and addendum thickness have represented the lateral dimension at tooth top, and lateral dimension is less, more sharp-pointed, the easier intrusion rock of tooth, but also easier generation Strength Failure simultaneously.With regard to regard to the impact of tooth efficiency of breaking rock, the width of tooth has more special meaning, reason is: although rock bit is mainly with the granulitization fractured rock, but the relative sliding motion of drill teeth when contacting with rock can make tooth produce and scrape the effect of cutting brokenly rock, at this moment, the width of tooth is larger, and it is just larger to scrape area inswept when cutting, and it is also just more obvious to scrape the effect of cutting broken rock.The tooth of insert bit is general many according to the tooth top width direction direction parallel with the gear wheel bus inlaid solid (such as the tooth 5 among Figure 39).Also can scrape the direction of cutting motion by first analyses and prediction tooth, then cut the inlaid solid tooth of the perpendicular or subvertical direction of the direction of motion (such as the tooth 6 among Figure 39) according to tooth top width with scraping.
Yet, because the particularity of tooth corona shape, the concept of tooth " tooth top zone " has certain ambiguity, thereby needs in addition concrete agreement, can both be according to unified method tolerance addendum width and the purpose of addendum thickness to the tooth of various shapes to reach.For this reason, the spy does agree as follows: N is a natural number, vertically doing a plane P perpendicular to the tooth axis (seeing Figure 38) apart from the position of tooth bizet peak h/N, is that the N of tooth divides the tooth top zone by this plane to the zone between the tooth bizet peak on the tooth.Within the N of tooth divides the tooth top zone, perpendicular to the maximum transverse size of tooth axis, for the N of tooth divides addendum width (also namely: the N of tooth divides the Breadth Maximum of tooth top zone projection on plane P); Maximum transverse size corresponding direction on the P plane is tooth top facewidth direction; This tooth top zone is perpendicular to the maximum transverse size on the addendum width direction, for the N of tooth divides addendum thickness.In Figure 38,4 minutes tooth top zones (zone between the peak of P plane to tooth top) of chisel teeth, 4 minutes addendum width W, addendum width direction and 4 minutes addendum thickness T have been indicated.Generally, the shape of tooth bizet all is more and more sharp-pointed to the top by root, so the tooth cross-sectional width/thickness on plane P divides addendum width/thickness with regard to the N that equals tooth.By definition as can be known, the difference of addendum width and addendum thickness is only just meaningful to non-revolved body class tooth.
The lateral length of tooth refers to tooth perpendicular to the maximum transverse size of tooth axis, also, and the maximum length of tooth projection on perpendicular to tooth axis plane; The transverse width of tooth refers to perpendicular to the tooth axis and perpendicular to the maximum transverse size of tooth lateral length direction.Shown in Figure 15,18, the maximum length L1 of horizontal inserted projection on the inserted axis plane perpendicular to horizontal stroke is horizontal inserted lateral length, is horizontal inserted transverse width with the maximum transverse size W1 of maximum length L1 perpendicular direction.
The top exposure part of the tooth on the existing insert bit is from the lower teeth post and begins the pointed nose that upwards shrinks gradually, and the addendum width of tooth all is significantly less than the diameter of lower teeth post.
The tooth top deflection angle refers to addendum line (the addendum width direction that is parallel to tooth, center by tooth top peak or highest region territory, and with the perpendicular straightway of tooth axis) with the angle of the wheel cone nut line of the tooth place gear wheel bus of tooth axes intersect (on the wheel conical surface with) (such as Fig. 3, angle α shown in Figure 38), refer generally to addendum line and acute angle or the right angle of taking turns the cone nut line and becoming.Stipulate in this manual: from tooth top along the tooth axis direction to cone body, be positive deflection during the counterclockwise deflection of wheel cone nut line of the relative gear wheel of addendum line, otherwise then turn for negative bias.The tooth top zero deflection (being that the tooth top deflection angle is 0 °) of the cutting teeth on existing most of cone bit cones, or have the tooth tooth top of the part gear ring of a small amount of drill bit that deflection is arranged, deflection angle is generally in 50 °.Tooth in the utility model has larger tooth top deflection angle, and the span of the tooth top angle of deflection of tooth be 70 °≤| α |≤90 °, stipulate in this manual, the tooth of this kind tooth top deflection angle scope is called horizontal inserted.
The skew of gear wheel refers to: the pole axis face of gear wheel (cross the gear wheel axis and be parallel to the plane of drill axis) is the offset distance of center line of bit relatively.As shown in figure 40, for along drill bit drilling direction (along drill axis from the drill bit end of thread to the gear wheel end) when seeing, bit cone is perpendicular to the perspective view on the plane of drill axis, is the drill bit deviant apart from S among the figure between the axis projection of gear wheel and the bit central.There is skew in the gear wheel of most tricone bits, and its purpose is that skew makes gear wheel when bottom rock rolls broken rock pure rolling can't occur, and slippage increases when making the broken rock of tooth on the gear wheel, the tooth slippage on the larger gear wheel of deviant scrape cut more obvious.
Broken rock mode and the common rock bit of the gear wheel on the Mixed drilling bit have obvious difference.Adopt horizontal stroke inserted on the gear wheel of Mixed drilling bit, the span of the tooth top angle of deflection that horizontal stroke is inserted is between 70 °~90 ° or-90 °~-70 °.This technical characterictic reduces the interval, space with inserted of the adjacent horizontal stroke on the gear ring greatly, reduced the discontinuity of gear ring, horizontal inserted formation with large tooth top deflection angle is one by one near the fluted disc of complete circle, greatly strengthened the stationarity that the gear wheel tooth replaces rock break-off process, roll steadily when making gear wheel work, extensional vibration is little.Like this, the time of each horizontal inserted contact bottom rock significantly increases, and shock effect significantly reduces, and realizes horizontal inserted to press stone roller, splitting fractured rock (temporarily this kind gear wheel being called the static pressure type gear wheel) near the mode of static pressure on the gear wheel.
The utility model compared with prior art, its beneficial effect is:
(1) Mixed drilling bit can obviously improve drill bit than the efficiency of breaking rock in the hard formation.At first, the static pressure type gear wheel is conducive to the raising of dise knife efficiency of breaking rock.One of difficult problem that wheeled (dise knife) drill bit runs into when creeping into than hard formation is that the difficulty of cutting teeth (generally being the PDC tooth) wedging rock is high, and particularly when wearing and tearing occured the PDC tooth, the wedging rock was more difficult, thereby the drill bit drilling speed is very low.Mixed drilling bit can address this problem well.Mixed drilling bit is by the static pressure type gear wheel and scrape and cut brokenly the lithotype dise knife and mix.The static pressure type gear wheel is pressed stone roller, the broken rock of splitting in the mode of approximate static pressure, gear ring on it rolls out fragmentation hole, the groove of a circle circle at bottom rock, make the well cementation end scrape tangent plane and become rough and uneven in surface, like this, cutting teeth on the dise knife just needn't rely on the powerful wedging bottom rock of the pressure of the drill fully, but naturally and understandably the wedging rock, scrape and cut brokenly rock.And gear wheel is pressed stones roller, the broken rock of splitting in the mode of approximate static pressure, not only can form brokenly cheat, groove, also can be in the bottom of breaking tank and periphery not fragmented rock roll out damaged crackle and running crack.Established broken hole, groove and the crackle of rolling makes the dise knife cutting teeth on the dise knife be easier to the wedging bottom rock and scrape cut brokenly rock.Secondly, dise knife also is conducive to the raising of gear wheel efficiency of breaking rock.The dise knife cutting structure is scraped in the shaft bottom and is cut out the spiral scratch of a rule, forms the spirality phacolith of projection between scratch and the scratch, and be highly advantageous to the rolling of gear wheel, splitting of the phacolith of projection is broken.As shown in Figure 4, the spiral of dise knife is scraped and is cut brokenly the rolling of rock and gear wheel circular concentric, the broken petrofacies of splitting are combined, two kinds of broken vestiges intersect, and (7 among Fig. 4 is the spiral scratch of dise knife, among Fig. 46 is the rolling of gear wheel, the broken trace of splitting), the be highly advantageous to fragmentation of rock, two kinds of broken rock modes cooperatively interact and mutually promote, and have complementary advantages, both be conducive to the raising of dise knife efficiency of breaking rock, be conducive to again the raising of gear wheel efficiency of breaking rock.Therefore, the combination of two kinds of broken rock modes of Mixed drilling bit can obviously improve the efficiency of breaking rock of drill bit, particularly is conducive to the raising of drill bit drilling efficiency in than hard formation.
(2) Mixed drilling bit can prolong the application life of dise knife cutting teeth, gear wheel tooth and bearing, thereby prolongs drilling life of bit.The gear wheel of conventional insert bit is all to impact the broken rock of crushing mode, tooth head on the gear wheel is sharp and narrow, the time of gear wheel course of work Tooth contact bottom rock is very short, gear wheel can produce stronger up-down vibration (extensional vibration) in tooth alternation process, the shock loading that tooth, gear wheel and bearing are suffered and load fluctuation are all very large, and the tooth on the gear wheel ruptures, drops and the damage of gear wheel bearing is the main common form that drill bit lost efficacy.The working life of tooth, bearing has formed obvious restriction to the bulk life time of rock bit.Horizontal inserted tooth top deflection angle on the Mixed drilling bit gear wheel is larger, and the tooth on the gear wheel alternately broken rock is steady, the gear wheel stable working, and extensional vibration is little, can obviously improve the operating mode of gear wheel tooth and bearing, prolongs tooth and bearing application life.Simultaneously, tooth on the utility model gear wheel rolls in the shaft bottom, splitting goes out breaking tank, hole and crackle, cutting teeth on the dise knife is scraped with spiral trajectory and is cut brokenly rock, helical form is scraped and is cut the rolling of track and circular concentric, the broken trace of splitting intersects, the process of cutting of scraping that dise knife cutting teeth on the dise knife is continuous becomes the interrupted rock process of cutting, be conducive to the cooling of dise knife cutting teeth and the temperature rise of minimizing dise knife cutting teeth, the application life of improving the dise knife cutting teeth.Therefore, Mixed drilling bit can prolong the application life of dise knife cutting teeth, gear wheel tooth and bearing, thereby prolongs drilling life of bit.
(3) the horizontal inserted tooth addendum line on the utility model gear wheel perpendicular to or approach perpendicular to the gear wheel bus, thereby can realize rolling, in the splitting fractured rock, significantly reduce tooth with respect to the slippage of bottom rock.The mutual effect mode of the utility model tooth and rock and rock breaking mechanism are compared with conventional rock bit obvious change have been occured, the cloth tooth mode that it is brand-new and broken rock mode, having reduced tooth on the gear wheel scrapes the impact of rock and slippage and cuts, can obviously improve stressing conditions and the wearing and tearing of tooth, improve the life-span of tooth, be particularly suitable for creeping at the strong hard formation of abrasiveness.
As preferably, 4 minutes inserted addendum widths of described horizontal stroke are not less than 80% of horizontal inserted lateral length.
In the such scheme, horizontal inserted addendum width is longer, the continuity of gear ring is better, horizontal 4 minutes inserted addendum widths are not less than 80% of its lateral length, make with adjacent inserted interval, space on the gear ring and greatly reduce, reduced the discontinuity of gear ring, realized the gear ring tooth well with the mode fractured rock of rolling compaction, splitting, above-mentioned beneficial effect is better.
As preferably, the span of the tooth top angle of deflection that described horizontal stroke is inserted be 80 °≤| α |≤90 °.
The span of horizontal inserted tooth top angle of deflection be 80 °≤| α |≤90 °, can make on the gear ring interval, space between adjacent teeth less, reduce the discontinuity of gear ring, the tooth top profile of gear ring is closer to circle, above-mentioned beneficial effect is better.
More preferably, the inserted tooth top angle of deflection of described horizontal stroke=90 °.
Constant at other geometric parameters of drill bit, when tooth size was also constant, tooth top angle of deflection=90 ° can make the between cog space minimum, and the continuity of gear ring is best, and the tooth top profile of gear ring is close to circle, and above-mentioned beneficial effect is best.
As preferably, the cross-sectional outling of the inlaid solid part that described horizontal stroke is inserted is non-circular.
The cross-sectional outling of the inlaid solid part that horizontal stroke is inserted is non-circular, the inlaid solid part in bottom can lengthen along the addendum width direction, to adapt to the increase of addendum width, improve addendum width and increase the stressed of the inlaid solid part of rear lower, can improve the inlaid solid reliability between tooth and the gear wheel perforation, be convenient to the increase of addendum width, be conducive to aforementioned to press the realization of stone roller, the broken rock purpose of splitting near the mode of static pressure.
As preferably, be provided with the dentation straight burr bar (being called for short the bar tooth) that is parallel to the tooth axis on the cylinder of the inlaid solid part that described horizontal stroke is inserted, and horizontal inserted mode by the embedding of the bar tooth on inlaid solid part cylinder cutter teeth hole wall, or the interference fit of bar tooth and cutter teeth hole formation Multi-point contact type is inlaid solid in the perforation of gear wheel.
Such as Figure 26, be provided with a plurality of bar teeth that are parallel to the tooth axis on the cylinder of the inlaid solid part in bottom that horizontal stroke is inserted, be distributed in the bar tooth indentation on the inlaid solid part cylinder, similar to the gear teeth of spur gear.When being provided with the bar tooth on the cylinder of the inlaid solid part of tooth, the cross-sectional outling of inlaid solid part refers to the profile by the formed envelope in summit of each bar tooth.The shape of the cross-sectional outling of the inlaid solid part of tooth is similar to the cutter teeth hole shape, but radial dimension is greater than the radial dimension of gear wheel perforation.When the deviation of both radial dimensions is larger (particularly when bar tooth top section is more sharp-pointed), be pressed in the process of gear wheel perforation at tooth, the bar tooth can embed or invade the hole wall of perforation, thereby realizes the inlaid solid of tooth; When the deviation of both radial dimensions hour (particularly when bar tooth top section is more blunt), be pressed in the process of gear wheel perforation at tooth, the interference fit of the top of each bar tooth and the hole wall of perforation formation Multi-point contact type so also can realize the inlaid solid of tooth.The inlaid solid part in tooth bottom on the existing insert bit gear wheel is cylindrical, tooth is inlaid solid on gear wheel by face contact interference fit, value of interference fit between tooth and gear wheel perforation requires very high, and the magnitude of interference determines inlaid solid intensity and the reliability of tooth.The magnitude of interference too senior general causes that the cutter teeth bore deformation is excessive, easily causes gear wheel perforation cracking, affects permanent tooth intensity, permanent tooth reliability and cone shell intensity; The magnitude of interference is too little, the permanent tooth insufficient strength, and tooth is inlaid solid not firm, and reliability is low.Therefore, this inlaid solid mode is all higher to the crudies such as dimensional accuracy, tolerance and the surface roughness requirement of perforation and tooth cylinder, and for ease of processing and guarantee inlaid solid quality, general interference fit all adopts cylindrical, and tooth all need carry out fine grinding.For ease of increasing addendum width, the cross-sectional outling of the inlaid solid part in bottom that horizontal stroke of the present utility model is inserted is non-circular, for guaranteeing to inlay reliability and inlay quality, the cylinder of the inlaid solid part of tooth is provided with the bar tooth, adopts the mode of embedding or Multi-contact interference fit inlaid solid in the perforation of gear wheel.Adopt this mode permanent tooth, the tolerance of the radial dimension to tooth and perforation poor (magnitude of interference), the accuracy of form and position and surface quality obviously increases, can greatly reduce the crudy requirement such as processing dimension (precision, tolerance) requirement, surface roughness of tooth and perforation, be easy to realize the non-circular column manufacturing of tooth moulding, also can guarantee inlaying reliability and inlaying quality of tooth simultaneously.
As preferably, 4 minutes inserted addendum widths of described horizontal stroke equal horizontal inserted lateral length.
According to aforesaid definition, the lateral length of tooth refers to that tooth is perpendicular to the maximum transverse size of tooth axis.Horizontal 4 minutes inserted addendum width W equal horizontal inserted lateral length L1, and namely horizontal 4 minutes inserted addendum width W just are horizontal inserted maximum transverse size L1.This in two kinds of situation, the one, addendum width W equated with the horizontal maximum size of 4 minutes following parts in tooth top zone in horizontal inserted 4 minutes, the 2nd, the inserted 4 minutes addendum width W of horizontal stroke are greater than partly horizontal maximum size below 4 minutes tooth top zones.When addendum width W equals lateral length L1, be convenient to the fine finishining of exterior of teeth, be easy to the control to the magnitude of interference between tooth and the gear wheel perforation during manufacturing; Be convenient to control the processing dimension of tooth and the inlaid solid quality of tooth.As the inserted addendum width W of horizontal stroke during greater than the horizontal maximum size of part below 4 minutes tooth top zones, further break through the inertial thinking of the sharp-pointed form of prior art tooth, form a up big and down small similar mushroom.Larger addendum width can obviously reduce the interval, space of gear ring adjacent teeth and the discontinuity of gear ring, the tooth top profile of gear ring is closer to circle, the tooth of being more convenient on the gear wheel acts on rock with rolling compaction, splitting mode, is easy to reach the effect of pressing stone roller, the broken rock of splitting in the static pressure mode.The horizontal inserted of this structure can not increase inlaid solid portion size, cutter teeth hole dimension, reach the prerequisite that does not reduce the spacing between the gear wheel perforation and be issued to the purpose that increases addendum width, it has also guaranteed the intensity of cone shell when having guaranteed the inlaid solid reliability of tooth.This structure horizontal inserted has numerous form of structure, and better structure is wherein arranged: this structure of the utility model is horizontal inserted a kind of, and the horizontal inserted inlaid solid part in bottom and top exposure part are through step transition.The inlaid solid part in this bottom and top exposure part is horizontal inserted through the step transition transition, its step surface can be sat on the aperture face that is pressed in the gear wheel perforation, axial compression when making tooth work is born by perforation aperture face, is no longer born by the low cone shell of perforation.Like this, the load that acts on cone shell during tooth work will be improved greatly, can obviously improve the load distribution consistency degree of cone body and the reliability and safety of housing; Or, can reduce at the bottom of the gear wheel perforation hole and the thickness between the gear wheel inner bearing hole, thereby increase the size in gear wheel inner bearing hole, namely increase the size of gear wheel inner bearing, improve intensity and the application life of gear wheel bearing, and then prolong drilling life of bit.
As preferably, 4 minutes inserted addendum thicknesses of described horizontal stroke are not more than 25% of horizontal inserted transverse width.
Horizontal 4 minutes inserted addendum thicknesses are not more than 25% of the inserted transverse width W1 of horizontal stroke, namely horizontal inserted addendum thickness is less, under this threshold, when more being conducive to the tooth rolling compaction to the extruding slabbing action of rock, improve the efficiency of breaking rock of bit cone, particularly to the high rigidity bad ground, rock breaking efficiency is better, thereby improves the efficiency of breaking rock of Mixed drilling bit.
As preferably, the deviant of each gear wheel on the described drill bit is not more than 1.5% of bit diameter.
The deviant of gear wheel is larger, the more difficult generation pure rolling of gear wheel, and slippage is scraped and is cut more obviously during the broken rock of the tooth on the gear wheel, and tooth wear is larger.The deviant of gear wheel is not more than 1.5% of bit diameter, and the deviant of the gear wheel under this threshold makes gear ring and gear wheel with pure rolling or more near the form rolling work of pure rolling, more is conducive to gear ring and gear wheel with the mode fractured rock of rolling compaction, splitting; Simultaneously, the slippage that can also reduce the gear wheel upper teeth is scraped and is cut, and reduces the wearing and tearing of tooth, prolongs tooth application life.
Horizontal inserted addendum line on the gear wheel perpendicular to or approach perpendicular to the gear wheel bus, the deviant of gear wheel is very little simultaneously, is realizing rolling, in the splitting fractured rock, can also significantly reduce tooth with respect to the slippage of bottom rock.
As further preferred, the span of the tooth top angle of deflection that described horizontal stroke is inserted be 85 °≤| α |≤90 °, and the deviant of gear wheel is not more than 0.5% of bit diameter on the drill bit.
In theory, the inserted tooth top deflection angle of bit cone top rail is more less near 90 °, the deviant of gear wheel, and the continuity of gear ring is better, the tooth top profile of gear ring is more close to circle.On the combination threshold of each parameter of this scheme, be conducive to the smooth working of gear wheel most, reduce the shock loading of tooth, the load fluctuation when reducing gear wheel work; Be conducive to most simultaneously the gear wheel gear ring and press stone roller, the broken rock of splitting in the static pressure mode, efficiency of breaking rock is the highest, and significantly improves the life-span of bearing and tooth, and the Mixed drilling bit efficiency of breaking rock is high.
More preferably, the inserted tooth top angle of deflection of described horizontal stroke=90 °, and gear wheel is not offset (deviant is 0) on the drill bit.
Tooth top angle of deflection=90 °, gear wheel are not offset, be realize gear ring and gear wheel with pure rolling (or near pure rolling) roll, the extremely excellent parameter of splitting fractured rock, the drill bit efficiency of breaking rock is high.
As preferably, be provided with on the described bit body and comprise the fixedly stationary cutting structure of cutting teeth.
In the such scheme, Mixed drilling bit is composited by studding with horizontal inserted static pressure type gear wheel, the dise knife that is provided with the dise knife cutting teeth and stationary cutting structure.The stationary cutting structure of setting up forms annular and scrapes the cut channel mark to scrape the broken rock of the form of cutting in the shaft bottom, it cooperates the spiral scratch of dise knife and the annular breaking tank of static pressure type gear wheel, and three kinds of broken rock tracks intersect the raising that promotes more to be of value to the drill bit efficiency of breaking rock mutually.In addition, cloth number of teeth amount and the density that can also obviously improve Cutter of the stationary cutting structure of increase, thus lasting drilling ability and the antiwear property of enhancing drill bit are particularly conducive to drill bit in the application of hard formation and abrasiveness hard formation.
As preferably, the profile of the cross section of the inlaid solid part in bottom that described horizontal stroke is inserted is formed by both sides circular arc middle straight segment link, is key shape.
As preferably, the profile of the cross section of the inlaid solid part in bottom that described horizontal stroke is inserted is to be formed by connecting by arc section in the middle of the circular arc of two ends.
In above-mentioned two schemes, the cylinder of these two kinds of profiles is low than the cylinder difficulty of processing of other non-circular profiles, adds easy operating and realization in man-hour, good manufacturability.Their corresponding perforations also are easy to Milling Process, and processing technology is good.
As preferably, the arc that the inserted tooth top of described horizontal stroke raises up for the axis direction along tooth.
When horizontal inserted tooth top adopts arc, the more approaching circle of gear ring (profile) that horizontal inserted tooth top on the same gear ring forms, be conducive to the steady rolling of gear wheel, reduce the shock loading of tooth, load fluctuation when reducing gear wheel work, be conducive to the gear wheel gear ring and press stone roller, the broken rock of splitting, the life-span that is conducive to improve bearing and the flank of tooth in the static pressure mode.
As preferably, the horizontal inserted all or part of interlaced arrangement of different gear rings on the described gear wheel.
Gear wheel is the rotating cone body, when gear wheel rolls broken rock in the shaft bottom, cutting teeth on each gear ring is changed to another from a scroll wheel, the horizontal inserted interlaced arrangement of adjacent gear ring, the tooth on the adjacent gear ring can remedy the gear ring out-of-roundness of gear ring because causing with space, inserted interval of gear ring mutually, and it is more steady that gear wheel is rolled, reduce the shock loading of tooth, load fluctuation when reducing gear wheel work is conducive to the gear wheel gear ring and presses stone roller, the broken rock of splitting, the life-span that is conducive to improve bearing and the flank of tooth in the static pressure mode.
As preferably, the inserted tooth top of described horizontal stroke is along the outline line of the addendum line direction circular arc that is projected as along the axis direction of tooth.
Since the tooth axis on the gear wheel gear ring often with gear wheel axis out of plumb, particularly axis and the gear wheel axis angle near the gear ring tooth of gear wheel tip is less, when the gear ring girth is less, when the number of teeth was less on the gear ring, gear ring circularity was relatively poor.The tooth top that horizontal stroke is inserted is circular arc along the outline line of addendum line direction along the Projection Design of the axis direction of tooth, can improve the circularity of gear ring, make gear ring (profile) closer to circle, be conducive to the steady rolling of gear wheel, reduce the shock loading of tooth, load fluctuation when reducing gear wheel work is conducive to the gear wheel gear ring and presses stone roller, the broken rock of splitting, the life-span that is conducive to improve bearing and the flank of tooth in the static pressure mode.
As preferably, shown in horizontal inserted tooth top two ends (along the two ends of tooth top width) be provided with rounding or chamfering.
In the such scheme, horizontal inserted tooth top two ends are not as establishing rounding or chamfering transition transition, and the tooth top two ends will be wedge angle, and during the broken rock of tooth and rock effect, sharp corner easily forms stress and concentrates, and easily makes the fatigue damage of tooth top end or local fracture.Rounding or chamfering are established in the tooth top two ends, and the stress distribution that can effectively improve the tooth top end reduces stress to be concentrated, and prolong tooth application life.
As preferably, described horizontal stroke is inserted to be inner sunken face along two sides on the thick direction of tooth top.
The gear wheel tooth is inner sunken face along two sides on the thick direction of tooth top, less at vertical (along the tooth axis direction) upper teeth addendum thickness, down the increase of transverse tooth thickness is slow from tooth top, and it is conducive to tooth and rolls, is pressed into rock, and is conducive to tooth and is pressed into rear extruding slabbing action to rock; And it is conducive to the increase that tooth slows down the tooth addendum thickness in when wearing and tearing, and the tooth top that makes the gear wheel tooth continue to keep less is thick, prolongs the gear wheel tooth to being pressed into of rock, extruding, splitting crushing effect.
As preferably, described horizontal stroke is inserted can do hard-metal insert, impregnated with diamond tooth or the TSP tooth etc. that the surface is strengthened for hard-metal insert, diamond.
Description of drawings
Fig. 1 is the structural representation of the utility model Mixed drilling bit.
The view of Fig. 2 when to be the utility model structure shown in Figure 1 along drill axis overlook (contrary drill bit drilling direction is seen), i.e. top view.
Fig. 3 is the schematic diagram of wheel cone nut wire clamp angle (tooth top deflection angle) α of the inserted addendum line of the gear wheel top rail of the utility model Mixed drilling bit and gear wheel.
Fig. 4 be horizontal inserted on the gear wheel of the utility model Mixed drilling bit form in the shaft bottom during with the acting in conjunction of dise knife cutting teeth intersect broken trace schematic diagram.
Fig. 5 is the structural representation when setting up stationary cutting structure (fixed-wing) on the utility model Mixed drilling bit.
Fig. 6 is that structure shown in Figure 5 is along the top view of drill bit.
Fig. 7 is the schematic diagram of the gear wheel of the utility model structure drill bit shown in Figure 5 when seeing at the bottom of from the gear wheel tip to gear wheel along the gear wheel axis.
Fig. 8 is the drill bit top view when three fixed-wing stationary cutting structures and a gear wheel, two dise knifes are set on the utility model Mixed drilling bit.
Fig. 9 is that the inlaid solid part in the inserted bottom of horizontal stroke of the present utility model is cylindrical, and is horizontal inserted inlaid solid behind the gear wheel perforation, the partial sectional view when dissecing along the cross section of the inlaid solid part in tooth bottom.
Figure 10 is that the profile of the cross section of the inlaid solid part in the inserted bottom of horizontal stroke of the present utility model is key shape, and is horizontal inserted inlaid solid behind the gear wheel perforation, the partial sectional view when dissecing along the cross section of the inlaid solid part in tooth bottom.
Figure 11 is that the profile of the cross section of the inlaid solid part in the inserted bottom of horizontal stroke of the present utility model is to be formed by connecting by arc section in the middle of the two ends circular arcs, and is horizontal inserted inlaid solid behind the gear wheel perforation, the partial sectional view when dissecing along the cross section of the inlaid solid part in tooth bottom.
Figure 12 is horizontal stroke of the present utility model horizontal inserted structural representation when addendum width equaled horizontal inserted lateral length (body diameter of the inlaid solid part in bottom) in inserted 4 minutes.
Figure 13 is horizontal inserted schematic diagram when seeing at the bottom of from the tooth top to tooth along the tooth axis shown in Figure 12.
Figure 14 is the horizontal inserted structural representation of inserted 4 minutes addendum widths of horizontal stroke of the present utility model when equaling horizontal inserted lateral length (profile of the cross section of horizontal inserted inlaid solid part is non-circular).
Figure 15 is horizontal inserted schematic diagram when seeing at the bottom of from the tooth top to tooth along the tooth axis shown in Figure 14.
Figure 16 is that Figure 12 or horizontal stroke shown in Figure 14 are inserted inlaid solid behind the tooth hole, the partial sectional view when dissecing along the tooth axis.
Figure 17 is that the utility model mushroom is horizontal inserted a kind of, and the horizontal inserted inlaid solid part in bottom and top exposure part be through step transition, the horizontal inserted schematic diagram when the step surface profile be circle.
The schematic diagram of Figure 18 when to be that horizontal stroke shown in Figure 17 is inserted see at the bottom of from the tooth top to tooth along the tooth axis.
Figure 19 is that the utility model mushroom is horizontal inserted a kind of, and the horizontal inserted inlaid solid part in bottom and top exposure part be through step transition, the horizontal inserted schematic diagram when the step surface profile is key shape.
The schematic diagram of Figure 20 when to be that horizontal stroke shown in Figure 19 is inserted see at the bottom of from the tooth top to tooth along the tooth axis.
Figure 21 is that the utility model mushroom is horizontal inserted a kind of, and the horizontal inserted inlaid solid part in bottom and top exposure part are through step transition, and the step surface profile is key shape, the horizontal inserted schematic diagram when the inlaid solid part cross-sectional profiles in bottom is key shape.
Figure 22 is special-shaped horizontal inserted schematic diagram when seeing at the bottom of from the tooth top to tooth along the tooth axis shown in Figure 21.
Figure 23 is that the utility model mushroom is horizontal inserted a kind of, and the horizontal inserted inlaid solid part in bottom and top exposure part are through step transition, and the step surface profile be circle, the special-shaped horizontal inserted schematic diagram when the inlaid solid part cross-sectional profiles in bottom is key shape.
The schematic diagram of Figure 24 when to be that horizontal stroke shown in Figure 23 is inserted see at the bottom of from the tooth top to tooth along the tooth axis.
Figure 25 is that Figure 17, Figure 19, Figure 21 or mushroom shown in Figure 23 are horizontal inserted inlaid solid behind the tooth hole, the partial sectional view when dissecing along the tooth axis.
Figure 26 is provided with the dentation vertical bar (being called for short the bar tooth) that is parallel to horizontal inserted axis, the schematic diagram of inlaid solid part cross section and cross-sectional outling (the protruding top of bar tooth profile) on the cylinder of the horizontal inserted inlaid solid part in bottom of the utility model.
Figure 27 is provided with the bar tooth that is parallel to horizontal inserted axis on the cylinder of the horizontal inserted inlaid solid part in bottom of the utility model, horizontal inserted inlaid solid behind the gear wheel perforation, the partial sectional view when vertical tooth axis dissects.
Figure 28 is provided with the bar tooth that is parallel to horizontal inserted axis on the cylinder of the horizontal inserted inlaid solid part in bottom of the utility model, the horizontal inserted structural representation when horizontal inserted tooth top length equals the bottom inlaid solid partial-length of tooth.
Figure 29 is that horizontal stroke shown in Figure 28 is inserted inlaid solid behind the gear wheel perforation, the partial sectional view when dissecing along the tooth axis.
Figure 30 is that the utility model mushroom is horizontal inserted a kind of, be provided with the bar tooth that is parallel to the inserted axis of horizontal stroke on the cylinder of the inlaid solid part in bottom, the horizontal inserted inlaid solid part in bottom and top exposure part be through step transition, the horizontal inserted schematic diagram when the step surface profile is key shape.
Figure 31 is that the utility model mushroom is horizontal inserted a kind of, be provided with the bar tooth that is parallel to the inserted axis of horizontal stroke on the cylinder of the inlaid solid part in bottom, the horizontal inserted inlaid solid part in bottom and top exposure part be through step transition, the horizontal inserted schematic diagram when the step surface profile be circle.
Figure 32 is that Figure 30 or horizontal stroke shown in Figure 31 are inserted inlaid solid behind the gear wheel perforation, the partial sectional view when dissecing along the tooth axis.
Figure 33 is the horizontal inserted inlaid solid schematic diagram in the gear wheel perforation of mode that embeds the cutter teeth hole wall with the bar tooth.
Figure 34 is the horizontal inserted inlaid solid schematic diagram in the gear wheel perforation of interference fit that forms Multi-point contact type with bar tooth and cutter teeth hole.
Figure 35 is the gear wheel schematic diagram when adopting exposure profile partly in horizontal inserted top to be key shape on the utility model gear wheel.
Figure 36 is the horizontal inserted tooth top of the utility model along the outline line of the addendum line direction circular arc that is projected as along the axis direction of tooth, horizontal inserted schematic diagram when seeing at the bottom of from the tooth top to tooth along the tooth axis.
Figure 37 be horizontal stroke of the present utility model inserted be inner sunken face along two sides on the thick direction of tooth top, the tooth schematic diagram when seeing along tooth addendum width direction.
Figure 38 is 4 minutes addendum width W of tooth and thickness T (take chisel teeth as example) schematic diagram.
Inlaid solid or tooth top has schematic diagram when inlaid solid than small deflection angle (| α |<50 °) to Figure 39 for the inserted tooth top zero deflection on the existing common rock bit.
Figure 40 is the schematic diagram in gear wheel when skew on the drill bit.
The specific embodiment
To shown in Figure 40, following non-limiting examples is used for explanation the utility model such as Fig. 1.
Each of the utility model scheme is horizontal insertedly all can to realize its effect, for the ease of example, each gear ring of each gear wheel is horizontal inserted, and it does not represent and the conflicting of basic example and other preferences, only be example directly perceived, there is not disturbance of understanding in those skilled in the art.
Embodiment 1: as shown in Figures 1 to 4, a kind of Mixed drilling bit, comprise bit body 1, at least one gear wheel 2 and at least one dise knife 5, gear wheel 2 and dise knife 5 form by bearing arrangement and bit body 1 respectively and are rotationally connected, and the scope of the deviation angle of dise knife 5 is [20 °, 90 °] or [90 °,-20 °], be provided with dise knife cutting teeth 51 on the dise knife 5, gear wheel 2 is provided with horizontal inserted by 3, and the span of horizontal inserted 3 tooth top angle of deflection be 70 °≤| α |≤90 °.As preferably, horizontal inserted 3 can do hard-metal insert, impregnated with diamond tooth or the TSP tooth etc. that the surface is strengthened for hard-metal insert, diamond.As shown in Figure 1, 2, among the figure, a gear wheel and two dise knifes are set on the Mixed drilling bit.
Embodiment 2: shown in Fig. 5 to 8, present embodiment is substantially the same manner as Example 1, and its difference is: also be provided with on the bit body 1 and comprise the fixedly stationary cutting structure 4 of cutting teeth 41.As shown in Figs. 5 to 7, among the figure, two fixed-wing stationary cutting structures and a gear wheel, a dise knife are set on the Mixed drilling bit, two fixed-wings and gear wheel, the alternate layout of dise knife.As shown in Figure 8, three fixed-wing stationary cutting structures and a gear wheel, two dise knifes are set on the Mixed drilling bit, three fixed-wings and gear wheel, the alternate layout of dise knife.
Embodiment 3: present embodiment and embodiment 1 or 2 are basic identical, and its difference is: 4 minutes addendum widths of horizontal inserted 3 are not less than 80% of horizontal inserted 3 lateral length L1.More preferably, the lateral length that 4 minutes addendum widths of horizontal inserted 3 equal horizontal inserted 3 is shown in Figure 14 to 25.That is, addendum width W equated with the horizontal maximum size of 4 minutes following parts in tooth top zone in horizontal inserted 4 minutes, or horizontal inserted 4 minutes addendum width W form a up big and down small similar mushroom at this moment greater than partly horizontal maximum size below 4 minutes tooth top zones.Figure 17,18,23,24 is depicted as a kind of of the utility model mushroom horizontal inserted 3, and the inlaid solid part 31 in horizontal inserted 3 bottom is excessive through step with top exposure part, and the step surface edge contour is circular.Figure 19 to 22 is depicted as a kind of of the utility model mushroom horizontal inserted 3, and the inlaid solid part 31 in horizontal inserted 3 bottom is excessive through step with top exposure part, and the step surface edge contour is key shape.
Embodiment 4: present embodiment and embodiment 1 or 2 are basic identical, and its difference is: 4 minutes addendum thicknesses of horizontal inserted 3 are not more than 25% of horizontal inserted 3 transverse width.
Embodiment 5: as shown in figure 40, present embodiment and embodiment 1 or 2 are basic identical, and its difference is: the deviant of each gear wheel 2 on the bit body 1 is not more than 1.5% of bit diameter.
Embodiment 6: present embodiment and embodiment 1 or 2 are basic identical, and its difference is: horizontal inserted 3 all or part of interlaced arrangement of different gear rings on the gear wheel 2.As shown in Figure 7, the horizontal inserted whole interlaced arrangement of interior external toothing.
Embodiment 7: present embodiment and embodiment 1 or 2 are basic identical, and its difference is: the cross-sectional outling of horizontal inserted 3 inlaid solid part 31 is non-circular.As preferably, the profile of the cross section of horizontal inserted 3 the inlaid solid part 31 in bottom is formed by both sides circular arc middle straight segment link, is key shape, as shown in figure 10.Perhaps, the profile of the cross section of horizontal inserted 3 the inlaid solid part 31 in bottom is to be formed by connecting by arc section in the middle of the circular arc of two ends, as shown in figure 11.
Embodiment 8: shown in Figure 26 to 32, present embodiment and embodiment 1 or 2 are basic identical, its difference is: the dentation vertical bar (being called for short the bar tooth) (such as Figure 29,30,31) that is provided with the axis that is parallel to tooth on the cylinder of horizontal inserted 3 inlaid solid part 31, and horizontal inserted 3 modes (such as Figure 27,33) by the embedding of the bar tooth on inlaid solid part 31 cylinders cutter teeth hole wall, or the mode of the interference fit of bar tooth and cutter teeth hole formation Multi-point contact type is inlaid solid in the perforation of gear wheel 2 (such as figure, 34).At this moment, the length of inlaid solid part or width calculate according to the protruding top of the bar tooth profile of its cross section, and as shown in figure 26, the length of inlaid solid part or width are profile zone that 311(surrounds, the protruding top of bar tooth) length or width.
Embodiment 9: shown in Figure 16,17,19,21,25,29,30,32,35, present embodiment and embodiment 1 or 2 are basic identical, and its difference is: the arc that horizontal inserted 3 tooth top raises up for the axis direction along tooth.
Embodiment 10: as shown in figure 36, present embodiment and embodiment 1 or 2 are basic identical, and its difference is: horizontal inserted 3 tooth top is along the outline line of the addendum line direction circular arc that is projected as along the axis direction of tooth.
Embodiment 11: shown in Figure 16,25,29,32, present embodiment and embodiment 1 or 2 are basic identical, and its difference is: horizontal inserted 3 tooth top two ends (along the two ends of tooth top width) are provided with rounding or chamfering.
Embodiment 12: as shown in figure 37, present embodiment and embodiment 1 or 2 are basic identical, and its difference is: horizontal inserted 3 is inner sunken face along two sides on the thick direction of tooth top.
What need special declaration is; more than each embodiment both be some embodiment of the present utility model; also be various optional enforcement means simultaneously; those skilled in the art as can be known; above-mentioned various optional enforcement means can be carried out various feasible independent assortments; can produce more embodiment thus; it all should be in protection domain of the present utility model; and in order to support the protection of claim: such as; one or more any combination between embodiment 1 and the embodiment 2 to 12, so any combination between the embodiment 2 to 12 can become some embodiment.Do not do more limit for example at this, those skilled in the art are other more combinations as can be known.
All any modifications of within spirit of the present utility model and principle, doing, make up, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. Mixed drilling bit, comprise bit body (1), at least one gear wheel (2) and at least one dise knife (5), described gear wheel (2) and dise knife (5) form by bearing arrangement and described bit body (1) respectively and are rotationally connected, the scope of the deviation angle of described dise knife (5) is [20 °, 90 °] or [90 °,-20 °], be provided with dise knife cutting teeth (51) on the described dise knife (5), it is characterized in that: described gear wheel (2) is provided with horizontal inserted (3), and the span of the tooth top angle of deflection of horizontal inserted (3) be 70 °≤| α |≤90 °.
2. Mixed drilling bit as claimed in claim 1 is characterized in that: 4 minutes addendum widths of described horizontal stroke inserted (3) be not less than horizontal inserted (3) lateral length 80%.
3. Mixed drilling bit as claimed in claim 1 is characterized in that: 4 minutes addendum widths of described horizontal stroke inserted (3) equal the lateral length of horizontal inserted (3).
4. Mixed drilling bit as claimed in claim 1 is characterized in that: 4 minutes addendum thicknesses of described horizontal stroke inserted (3) be not more than horizontal inserted (3) transverse width 25%.
5. Mixed drilling bit as claimed in claim 1, it is characterized in that: the deviant of each gear wheel (2) on the described bit body (1) is not more than 1.5% of bit diameter.
6. Mixed drilling bit as claimed in claim 1 is characterized in that: the horizontal inserted all or part of interlaced arrangement of the upper different gear rings of described gear wheel (2).
7. Mixed drilling bit as claimed in claim 1 is characterized in that: the inserted tooth top of described horizontal stroke is along the outline line of the addendum line direction circular arc that is projected as along the axis direction of tooth.
8. Mixed drilling bit as claimed in claim 1, it is characterized in that: the cross-sectional outling of the inlaid solid part (31) of described horizontal stroke inserted (3) is non-circular.
9. Mixed drilling bit as claimed in claim 1, it is characterized in that: be provided with the dentation vertical bar that is parallel to the tooth axis on the cylinder of the inlaid solid part (31) of described horizontal stroke inserted (3), and horizontal inserted (3) are by the mode of the embedding of the dentation vertical bar on inlaid solid part (31) cylinder gear wheel (2) perforation wall, or the interference fit of dentation vertical bar and gear wheel (2) perforation formation Multi-point contact type is inlaid solid in the perforation of gear wheel (2).
10. the Mixed drilling bit described in arbitrary claim in the claim 1 to 9 is characterized in that: be provided with on the described bit body (1) and comprise the fixedly stationary cutting structure (4) of cutting teeth (41).
CN 201320092001 2013-02-28 2013-02-28 Combined drill Withdrawn - After Issue CN203248080U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201320092001 CN203248080U (en) 2013-02-28 2013-02-28 Combined drill

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201320092001 CN203248080U (en) 2013-02-28 2013-02-28 Combined drill

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CN203248080U true CN203248080U (en) 2013-10-23

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103089154A (en) * 2013-02-28 2013-05-08 西南石油大学 Composite drill bit
CN107605407A (en) * 2017-09-27 2018-01-19 四川奥格特金刚石钻头有限公司 A kind of PDC cutter and the composite drill bit containing the PDC cutter
CN112879004A (en) * 2016-05-27 2021-06-01 久益环球地下采矿有限责任公司 Cutting head with segmented cutting disk

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103089154A (en) * 2013-02-28 2013-05-08 西南石油大学 Composite drill bit
CN103089154B (en) * 2013-02-28 2015-07-08 西南石油大学 Composite drill bit
CN112879004A (en) * 2016-05-27 2021-06-01 久益环球地下采矿有限责任公司 Cutting head with segmented cutting disk
CN107605407A (en) * 2017-09-27 2018-01-19 四川奥格特金刚石钻头有限公司 A kind of PDC cutter and the composite drill bit containing the PDC cutter

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