Drilling Augers
Short augers are mainly divided into the following types:
1-Conical Rock Auger
2-Flat or Butterfly Rock Auger
3-Flat or Butterfly Clay Auger
1) Conical Rock Auger
There are two categories of conical rock augers:
a)Single Cut Auger
b)Double Cut Auger
Drilling Diameter Range: 500~2500mm
Main Applications:
i) Single Cut and Double Cut Augers are suitable for drilling in medium to strong rock (15~60 MPa)
ii) Double Cut are recommended in bigger diameters uncased boreholes
Features:
1-Rock Pilot
2-Hard facing strips on flights for wear protection
3-Kelly box size as per customer demand
2) Flat or Butterfly Rock Auger:
There are three categories of Flat or Butterfly Rock Auger:
a)Single Cut Auger
b)Double Cut Auger
c)Double Cut Auger without Rock Pilot
Drilling Diameter Range: 500~2500mm
Main Applications:
i) The Single Cut and Double Cut Augers are suitable for drilling in weak fractured rock and very dense sand and gravel (Less than 5 MPa)
ii) Double Cut Augers are mainly used for bigger diameter uncased boreholes and secant piles
iii) Double Cut Auger without rock pilot are recommended for fractured rock or moderately weak to moderately strong rock (5~50 MPa)
Features:
1-Rock Pilot
2-Hard facing strips on flights for wear protection
3-Kelly box size as per customer demand
3) Flat or Butterfly Clay Auger
There are two categories of Flat or Butterfly Rock Auger:
a)Single Cut Auger
b)Double Cut Auger
Drilling Diameter Range: 500~2500mm
Main Applications:
i) The Single Cut and Double Cut Augers are suitable for drilling in clay, silt and loose to medium dense sand and gravel
ii) The Single Cut and Double Cut Augers with side cutters are suitable for drilling in hard clay, silt and medium to high dense sand and gravel
iii) Single Cut Augers are recommended up to coarse gravel
Features:
1-Fish-tail Pilot
2-Hard facing strips on flights for wear protection
3-Kelly box size as per customer demand.
Kelly bar is the key part of a drilling machine, and its quality directly affects the performance of the whole machine. The main purpose of kelly bar is to transfer the torque of rotary drive and crowd pressure of the crowd system to the drilling tool. Based on the rich manufacturing experience and by absorbing the advanced technology both at home and abroad, we can produce first-class kelly bar which can be compared favorably with the imported ones.
The features of Unimate kelly bar are as follows:
Adopt the advanced technology of 6-key design in the world and standard modular design.
Equipped with advanced processing facilities, workmanship and manufacturing equipments, UNIMATE kelly bar enjoys a low weight, high strength, high straightness of single bar, thinner tube, smaller inter-tube distance and good abrasion resistance.
The raw materials are either imported from Germany like the high abrasion resistance materials, or from Chinese top manufacturer such as the seamless steel tube with alloy. All the tubes made in China are specially made seamless alloy tube, which guarantees the accuracy of the sizes, location, physical properties and easy welding. The small-diameter tubes undergo reheat treatment. The friction kelly bar can be used under full torque.
All the outer keys have undergone special heat treatment; therefore, they possess higher hardness, higher flexibility and excellent welding properties, which provide higher abrasion resistance to the keys.
There are mainly two types of Kelly bars:
1-Interlocking Kelly Bar
2-Friction Kelly Bar
Interlocking Kelly Bar
Interlocking Kelly bars are used with piling rigs for drilling in dense sand and gravel and weak to strong rock. The Interlocking Kelly bars manufactured by Unimate can be fully locked by mechanical locking system on each section. Kelly bars can be equipped with specially designed springs or pressure plates for shock absorbing purpose.
Design criteria:
A - mill size or cutting diameter
B - shank diameter
C - length of cut or flute length
D - overall length
Angular Edge - That cutting edge that is a straight line, forming an angle with the cutter axis. The surface produced by a cutting edge of this type will not be flat as is the case with a helical cutting edge.
Axial Run out - The difference between the highest and lowest indicator reading taken at the face of a cutter near the outer diameter.
Chamfer - A short relieved flat installed where the periphery and face of a cutter meet. Used to strengthen the otherwise weak corner.
Chip Breakers - Special geometry of the rake face that causes the chip to curl tightly and break.
Chip Splitters - Notches in the circumference of a Corn cob style End mill cutter resulting in narrow chips. Suitable for rough machining.
Core Diameter - The diameter of a cylinder ( or cone shape with tapered End mills) tangent to the flutes at the deepest point.
Counter bore - A recess in a non-end cutting tool to facilitate grinding.
Cutter Sweep (Run out) - Material removed by the fluting cutter (or grinding wheel) at the end of the flute.
Cutting Edge (A) - The leading edge of the cutter tooth. The intersection of two finely finished surfaces, generally of an included angle of less than 90 degrees.
Cutting Edge Angle - The angle formed by the cutting edge and the tool axis.
Differential pitch cutters - A specifically designed variation in the radial spacing of the cutter teeth. This provides a variation in tooth spacing and can be beneficial in reducing chatter. This concept is based on reducing the harmonic effect of the tool contacting the part in an exact moment of vibration.
Entrance Angle - The angle formed by a line through the center of the cutter at 90 to the direction of feed and a radial line through the initial point of contact. As this angle approaches 90 degrees the shock loading is increased.
Entrance Angle: Ramp-in - Angle or radius value to enter the cutter into the part surface
Fillet - The radius at the bottom of the flute, from which core diameter is found.
Flute - Space between cutting teeth providing chip space and regrinding capabilities. The number of cutting edges. Sometimes referred to as "teeth" or "gullet". The number on an end mill will determine the feed rate.
Flute Length - Length of flutes or grooves. Often used incorrectly to denote cutting length.
Shank - Projecting portion of cutter which locates and drives the cutter from the machine spindle or adapter
Straight Shank - Cylindrical shank, with or without driving flats or notches, often seen on carbide end mills
Weldon Shank - Industry name for a specific type of shank with a drive and location flat. The flat on the cutter provides positive ( non slip ) driving surface to the End mill.
Tooth - The cutting edge of the End mill.
Tooth Face - Also known as the Rake Face. The portion of the tooth upon which the tooth meets the part.
END MILL TECHNICAL FEATURES
Back taper - A slight taper resulting in the shank end of the cutting diameter being smaller than the cutting end. This condition aids not only the plunging or drilling condition but also tends to compensate for deflection.
Clearance - Space created by the removal of additional tool material from behind the relief angle.
Clearance Angle - The angle formed by the cleared surface and line tangent to the cutting edge.
Clearance: Primary (1st angle, 5°-9°) - Relief adjacent to the cutting edge.
Clearance: Secondary (2nd angle, 14°-17°) - Relief adjacent to cutting edge
Clearance: Tertiary (3rd) - Additional relief clearance provided adjacent to the secondary angle.
Concave - Small hollow required on the end face of an End mill. This feature is produced by a Dish angle produced on the cutter.
Convex - An outward projection radius feature on the end face of a Ball mill.
Dish Angle - The angle formed by the end cutting edge and a plane perpendicular to the cutter axis. Dish ensures that a flat surface is produced by the cutter.
Gash (Notch) - The secondary cuts on a tool to provide chip space at corners and ends. The space forming the end cutting edge, which is used when feeding axially.
Gash angle - The relief angle of the gash feature.
Gash width - The width of the gash feature. The space between cutting edges, which provides chip space and retargeting capabilities. Sometimes called the flute.
Heel - The back edge of the relieved land. It is the surface of the tooth trailing the cutting edge.
Helical - A cutting edge or flute which progresses uniformly around a cylindrical surface in an axial direction. The normal helical direction is a right direction spiral.
Helix Angle - The angle formed by a line tangent to the helix and a plane through the axis of the cutter or the cutting edge angle which a helical cutting edge makes with a plane containing the axis of a cylindrical cutter.
Hook - A term used to refer to a concave condition of a tooth face. This term implies a curved surface rather than a straight surface. Hook must be measured at the cutting edge, making measurement difficult.
Land - The narrow surface of a profile sharpened cutter tooth immediately behind the cutting edge,
(A) Cylindrical - a narrow portion of the peripheral land, adjacent to the cutting edge, having no radial relief.
(B) Relieved - A portion of the land adjacent to the cutting edge, which provides relief.
Lead - The axial advance of a helical cutting edge in one revolution.
Lead = (Cutter diameter x Pi) / Tangent Helix Angle
Length of Cut (Flute Length) - The effective axial length of the peripheral cutting edge which has been relieved to cut.
Radial Rake angle - The angle made by the rake face and a radius measured in a plane normal to the axis.
Rake - The angular relationship between the tooth face or a tangent to the tooth face at a given point and a reference plane or line. An angular feature ground onto the surface of an end mill.
Axial rake - The angle formed by a plane passing through the axis and a line coinciding with or tangent to the tooth face.
Effective rake - The rake angle influencing chip formation most is that measured normal to the cutting edge. The effective rake angle is greatly affected by the radial and axial rakes only when corner angles are involved.
Helical rake - For most purposes the terms helical and axial rake can be used interchangeably. It is the inclination of the tooth face with reference to a plane through the cutter axis.
Negative Rake - Exists when the initial contact between tool and work piece occurs at a point or line on the tooth other than the cutting edge. The rake surface leads the cutting edge.
Positive Rake - Exists when the initial contact between the cutter and the work piece occurs at the cutting edge. The cutting edge leads the rake surface.
Relief-Space - Provided by removing material immediately behind the cutting edge. Done to eliminate the possibility of heeling or rubbing.
Axial angle relief - The angle made by a line tangent to the relieved surface at the end cutting edge and a plane normal to the axis.
Axial relief - The relief measured in the axial direction between a plane perpendicular to the axis at the cutting edge and the relieved surface. Helps to prevent rubbing as the corner wears.
Concave relief - The relieved surface behind the cutting edge having a concave form. Produced by a grinding wheel set at 90 degrees to the cutter axis.
Eccentric relief - The relieved surface behind the cutting edge having a convex form. Produced by a type I wheel presented at an angle to the cutter axis.
End relief - Relief on the end of an end mill. Needed only for plunging cutters and to relieve rubbing as the result of corner wear.
Flat relief - The relieved surface behind the cutting edge having a flat surface produced by the face of a cup wheel.
Radial relief - Relief in a radial direction measured in the plane of rotation. It can be measured by the amount of indicator drop at a given radius in a given amount of angular rotation.
Tangential rake angle - The angle made by a line tangent to a hooked tooth at the cutting edge and a radius passing through the same point in plane normal to the axis.
2mm to 14mm 25piece pacing.
15mm to plus single piece packing.
Plain Type,60 degree included angle,right-hand cut
Made from super speed steel,bright finish.
This tool is used for centering work ends,where the work-piece is to be revolved on machine centers.
60 degree countersink angle fits all standard centers.
1, the classification: drilling, exploration, oil, drill, and drilling accessories
2, the product name: 215.9 mm 8 1/2 inches £¬rubber sealing disc bit three
3, product introduction: H series bit for O form rubber sealing sliding bearing drill bit, in a routine use can withstand high speed drilling of pressure.
4, its main structure features:
1) using high strength and high toughness cemented carbide gear, improve the shock resistance ability of teeth, reduce the broken teeth rate
2) the optimization of the tooth row number, gear, toothy height and unique alloy tooth shape, give full play to the drill bit cutting ability and the cutting speed
3) the card spring lock, able to bear high disc drilling pressure
4) die hole with gold, and improve the welding minus integration of the bearing capacity of bite
5) using high saturated acrylonitrile-butadiene rubber sealing ring, optimization of o-type seal compression quantity and improve the reliability of the bearing seal
6) can limit the pressure difference and prevent drilling fluid into the lubrication system of the rubber oil storage sac, for bearing system provides good lubrication, and to ensure that "O" type sealing ring, improve the normal work bit working life
7) with 250 ¡æ high temperature resistance, low wear new, improving the drill bit sealing grease lubrication system high temperature resistant ability.
According to the customer request.
5726 Drilling Machines Tools Suppliers
Short on time? Let Drilling Machines Tools sellers contact you.
Lianyungang huanghai machinery factory co.,Ltd. can design and manufacture special type core drilling rigs according to clients requirements. Trailer-type XY-42 drill rig is a new product which is manufactured following customer special requirements. It is mounted on trailer with four hydraulic jacks and four tires. The dimension of trailer is suitable for mounting main machine and mud pump. It can be moved well and freely at site.
Suitable for either drilling downward or inclined blast holes in medium-hard or hard rock, or for second blasting operation. Centrally grouped control, nimble starting, stable running and easy maintenance.
Model Y6 Hand-held Rock Drill is a light-duty tool designed for quarrying and drilling operations. You may expect satisfactory results with the adoption of this drill either in making 20mm holes in rock and buildings or in the secondary blasting of rock, it is most suitable for drilling in marble and granite.
Machine Series Features
• Drill depth of 1-20M
• Rack and pinion drive
• Precision ground hardened guideways
• Cast iron bed
• Geared headstocks for high torque applications
• Modern, efficient design.
Advanced Options
• Fanuc or Siemens CNC
• Lantern chuck for pull bore tooling
• X-axis actuator for bottle boring.
Customer Service
• Factory training for machine & tooling
• Foundation design & process planning
• Installation and startup
• Technical support via phone and internet machine connection.
Techincal information of ts2180 cnc deep hole boring machine
Drilling dia range : ö60-ö130mm
Boring dia range : ö80-ö800mm
Boring depth range : 1-16m depending on client requirement
Trepanning hole dia : ö140- ö400mm
Spindle center height : 1000mm
Headstock spindle dia : ö100mm
Front spindle taper hole : ö120mm, 1:20
Spindle speed range , steps : 1--200r/min three shift
Mian motor : 55kw dc motor
Feeding speed range : 5--500mm/min stepless speed adusting
Dia range of workpiece : ö270--ö1000mm
Spindle hole of drilling pole box : ö120mm
Front taper hole of drilling pole box spindle : ö140mm, 1:20.
Drilling bar box motor : 45kw
Drilling pole box speed range and steps : 16--270r/min 12 steps
Feeding motor : 7.5kw
Cooling motor : 11kwx4
Hydraulic motor : 1.5kw, n=1440r/min
Rated pressure of cooling system : 2.5mpa
Cooling system rate : 200, 400, 600, 800l/min
Machine bearing : 25t--35t.
On the double flat guide way, it equipped the rolling linear guide way. So it has high move precision and high abrasion proof. The bed is also the cooling box, so it is strengthen the stability of bed and reduce the shake. It equipped the Germany SIEMENS 802D CNC system (or appoint by customer). It is AC motor for the headstock, tow grade and stepless. The bearing of spindle is high precision FAG bearing and it is strong in rigidity and high precision in rotating. The feeding box adopts AC servo motor, stepless, and it is equipped with high precision ball screw. It adopts the hydraulic elements which is stable in capability made in Taiwan (or appointed by customer). It adopt scraps discharging by spindle, it equipped automatic discharge scrap equipment and it is not leak. It can also equipped high efficiency automatic expand-draw back combined tools. It is an ideal machine for deephole processing with high precision and efficiency.
Technical information of TS2110 deep hole boring machine
boring Dia range: 20-100mm
Drilling Dia range :20-40mm
Max boring depth : 0.6,1m,1.5m,2m,2.5m,3m
Headstock spindle hole Dia:100mm
spindle rotation speed ,steps: 2-90r/min
feeding speed 10-300mm/min AC servo stepless
carriage rapid moving speed:2m/min
clamping Dia of workpiece: 30-200mm
rated pressure of cooling system:2.5Mpa
volume of cooling system: 100,200,300l/min
main motor: N=11kW
feeding motor:3kw AC servo
coolant pump motor:5.5KW x5(3groups)
rated pressure of hydraulic system : 6.3MPa.
CNC Deephole Drilling & Boring Machine is suitable for the drilling, boring and rolling processing of all kinds hydraulic oil cylinder, cylinder and other precision tube fittings, especially for the precision processing of step holes. The hole diameter accuracy of machined workpiece can be up to and over IT7~IT8, and the surface roughness reach Ra0.2~0.3 m. The bed adopts welding steel so that it is strong in rigidity. On the double flat guide way, it equipped the rolling linear guide way. So it has high move precision and high abrasion proof. The bed is also the cooling box, so it is strengthen the stability of bed and reduce the shake. It equipped the Germany SIEMENS 802D CNC system (or appoint by customer). It is AC motor for the headstock, tow grade and stepless. The bearing of spindle is high precision FAG bearing and it is strong in rigidity and high precision in rotating. The feeding box adopts AC servo motor, stepless, and it is equipped with high precision ball screw. It adopts the hydraulic elements which is stable in capability made in Taiwan (or appointed by customer). It adopt scraps discharging by spindle, it equipped automatic discharge scrap equipment and it is not leak. It can also equipped high efficiency automatic expand-draw back combined tools. It is an ideal machine for deephole processing with high precision and efficiency.
Tsq 2180 CNC deep hole boring machine
Range of drilling hole dia : 40- 100mm
Range of boring hole dia : 40- 800mm
Sleelve boring hole dia : 140- 400mm
Max boring depth : 3-12m one sepcification every each one meter
Center height from horizental rail to spindle center : 1000mm
Headstock spindle hole dia : 100mm
Front spindle taper hole : 120mm, 1:20
Spindle rotation speed , steps : 16-270r/min 12steps
Main motor : 45kw
Feeding speed : 5-500mm/min ac servo stepless
Carriage rapid moving speed : 2m/min
Clamping dia of workpiece : 120-800mm
Drilling bar box spindle hole dia : 75mm
Front spindle taper hole of drilling bar box : 85mm, 1:20.
Drilling bar box motor : 30kw
Spindle rotation speed , steps of drilling bar box : 82-490r/min 6steps
Feeding motor : 7.5kw ac servo stepless
Pulling plate fast motor : 5.5kw
Cooling pump motor : 5.5kwx4 4groups
Hydraulic pump motor : 1.5kw, n=1440r/min
Rated pressure of cooling system : 2.5mpa
Volume of cooling system : 100, 200, 300, 600, 900l/min.
