CN112059650A - Automatic positioning device for portable end face milling machine - Google Patents

Automatic positioning device for portable end face milling machine Download PDF

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Publication number
CN112059650A
CN112059650A CN202010518724.0A CN202010518724A CN112059650A CN 112059650 A CN112059650 A CN 112059650A CN 202010518724 A CN202010518724 A CN 202010518724A CN 112059650 A CN112059650 A CN 112059650A
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China
Prior art keywords
positioning
milling machine
lifting
component
blade root
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Granted
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CN202010518724.0A
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CN112059650B (en
Inventor
王滋渊
肖静
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Hunan Siyuan Intelligent Equipment Co ltd
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Hunan Siyuan Intelligent Equipment Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q3/00Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23CMILLING
    • B23C3/00Milling particular work; Special milling operations; Machines therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q3/00Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine
    • B23Q3/18Devices holding, supporting, or positioning work or tools, of a kind normally removable from the machine for positioning only
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q2703/00Work clamping
    • B23Q2703/02Work clamping means
    • B23Q2703/04Work clamping means using fluid means or a vacuum
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23QDETAILS, COMPONENTS, OR ACCESSORIES FOR MACHINE TOOLS, e.g. ARRANGEMENTS FOR COPYING OR CONTROLLING; MACHINE TOOLS IN GENERAL CHARACTERISED BY THE CONSTRUCTION OF PARTICULAR DETAILS OR COMPONENTS; COMBINATIONS OR ASSOCIATIONS OF METAL-WORKING MACHINES, NOT DIRECTED TO A PARTICULAR RESULT
    • B23Q2703/00Work clamping
    • B23Q2703/02Work clamping means
    • B23Q2703/10Devices for clamping workpieces of a particular form or made from a particular material
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • Y02E10/72Wind turbines with rotation axis in wind direction

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Jigs For Machine Tools (AREA)

Abstract

The invention relates to an automatic positioning device for a portable end face milling machine, which is used for adjusting and positioning the distance between the milling machine and the flange surface to be processed of a blade root, and is characterized by comprising the following components: the lifting tensioning component moves along the radial direction of the blade root, one end of the lifting tensioning component is fixed at one side of the center of the milling machine, and the other end of the lifting tensioning component is connected with a positioning supporting leg through a fine adjustment component; the positioning backup plate component comprises three positioning components, one end of each positioning component is fixed on the other side of the center of the milling machine, and the other end of each positioning component is provided with an axial pressure sensor; the axial pressure sensor is arranged on the positioning backup plate part, faces the flange surface to be processed of the blade root, and is used for detecting whether the equipment is parallel to the flange surface of the blade root; the fine adjustment component comprises a guide rail, a motor and a fine adjustment supporting leg which are axially arranged, and the motor drives the positioning component and the lifting tensioning component to generate axial relative motion along the guide rail; reasonable in design, the operation is safe, and is more intelligent.

Description

Automatic positioning device for portable end face milling machine
Technical Field
The invention relates to an automatic positioning device for a portable end face milling machine, and belongs to the technical field of mechanical equipment.
Background
The wind driven generator is a generating device which converts wind energy into mechanical energy and then converts the mechanical energy into electric energy through blades, and the blades are key parts of the wind driven generator and need to bear wind power blowing in different directions, so that the alternating stress borne by the blades is very large, and the requirements on the strength and the fatigue life of the materials of the blades and connecting parts are very high. The blade and the generator hub variable pitch bearing are connected through the flange, the high-strength bolts are locked, in order to ensure that the blade and the hub variable pitch bearing are reliably connected, two connecting flange surfaces of the blade and the hub variable pitch bearing need to be in good contact, and meanwhile, the torque of each fastening bolt is ensured to be consistent, so that high requirements are provided for the flatness of the flange surface of the blade root. Because the blade root is the glass steel material, the inside pre-buried high strength bolt cover that flange joint used of flange, this bolt cover terminal surface will assemble with gasket and wheel hub flange, rethread high strength screw rod with two flange face locking, consequently need carry out precision finishing to the pre-buried bolt cover terminal surface of this flange face, make its plane degree reach within 0.5mm and can reach the technological requirement.
The size of the blade is very large, and the blade does not have a positioning reference, so that the blade cannot be placed on a common processing machine tool for processing, the high requirements on the precision, the efficiency, the portability and the like of processing equipment are provided, and the technical requirements can be met only by a special intelligent end face milling machine for the blade root.
With the development of the wind power generation industry, the blade of the offshore wind power generation unit is longer than the onshore wind power blade, and the diameter of the blade root is larger, so the milling processing difficulty of the end face of the blade root is larger, and the improvement of equipment is urgently needed to meet the development requirement in the future.
1. The diameter of the blade root is large, the operation difficulty of equipment during hoisting and positioning is high, safety risks exist, the existing positioning mode needs manual processes of locking the pressing plate, taking the pressing plate and positioning the backup plate, the operation is complicated, time and labor are wasted, and improvement is needed to reduce the operation difficulty;
2. after the equipment is tensioned in the blade root, the whole blade root needs to be finely adjusted so as to be parallel to the initial surface of the blade root, reduce the machining allowance and ensure the perpendicularity of the end surface of the blade root and the axis of the blade root;
in summary, how to solve the problem of positioning and fine tuning of a large-sized blade root becomes a problem to be solved urgently by the technical personnel in the field.
Disclosure of Invention
The invention aims to solve the technical problem of providing the automatic positioning device for the portable end face milling machine, which has reasonable design, safe operation and more intellectualization.
In order to solve the technical problems, the technical scheme of the invention is as follows:
the utility model provides an automatic positioning device for portable end face milling machine for adjustment and location of distance between the flange face is treated to processing to milling machine and blade root, its characterized in that includes:
the lifting tensioning component moves along the radial direction of the blade root, one end of the lifting tensioning component is fixed at one side of the center of the milling machine, and the other end of the lifting tensioning component is connected with a positioning supporting leg through a fine adjustment component;
the positioning backup plate component comprises three positioning components, one end of each positioning component is fixed on the other side of the center of the milling machine, and the other end of each positioning component is provided with an axial pressure sensor;
the axial pressure sensor is arranged on the positioning backup plate part, faces the flange surface to be processed of the blade root, and is used for detecting whether the equipment is parallel to the flange surface of the blade root;
the fine adjustment component comprises a guide rail, a motor and a fine adjustment supporting leg which are axially arranged, and the motor drives the positioning component and the lifting tensioning component to generate axial relative motion along the guide rail;
the positioning backup plate component comprises three positioning components which are uniformly fixed at the center of the milling machine at 120 degrees, and the end surfaces of the positioning backup plates of the three positioning components are on the same plane.
Preferably, the method further comprises the following steps:
and one end of the auxiliary tensioning component is fixed at the same side of the milling machine center lifting tensioning component and comprises an electromagnetic valve, a pressure regulating valve and at least three cylinders which are controlled by the electromagnetic valve and can radially stretch, and the tail ends of the cylinders are connected with tensioning supporting legs.
Preferably, the lifting tensioning part comprises 3 worm and gear elevator driving linear guide rods distributed at 120 degrees.
Preferably, the locating component comprises a locating column, a locating backup plate end face, a pressure sensor mounting plate and a lifting sensor, one end of the locating column is mounted in the center of the milling machine, the locating backup plate end face is arranged at the other end of the locating column, the backup faces of the three locating backup plate end faces are on the same plane, and the pressure sensor mounting plate and the lifting sensor are arranged behind the backup faces.
Preferably, the input shafts of the elevators are connected by double universal couplings, and the servo motor drives the input shafts of the three worm and gear elevators to drive the guide rods to synchronously extend and retract.
Preferably, the blade further comprises a radial pressure sensor, which is arranged on the lifting tensioning component and/or the auxiliary tensioning component and is used for detecting whether the lifting tensioning component is tensioned to the inside of the blade root.
Preferably, the auxiliary tensioning part comprises an electromagnetic valve, a pressure regulating valve and seven cylinders which are controlled by the electromagnetic valve and can stretch and retract radially, and supporting legs are arranged at the tail ends of the cylinders.
Preferably, the tail ends of the positioning supporting legs and the supporting legs are provided with rubber buffer layers.
Preferably, still include the lifting means, the lifting means includes the hole that hangs that supplies the suspender to pass, the upper wall in hole of hanging is equipped with the trompil, the trompil is equipped with the fixed swivel nut of sensor, the fixed swivel nut of sensor is inside from last to setting gradually to lifting by crane sensor installation axle, spring and sensor transition thimble down, it is equipped with to lift by crane sensor installation axle top lift by crane the sensor.
The invention realizes the following technical effects: the automatic intelligent positioning and fine adjustment can be realized, the positioning time can be greatly shortened, manual operation is reduced, especially when large blades are processed, the potential safety hazard during manual operation is eliminated, and the convenience of positioning is greatly improved.
Reasonable in design, the operation is safe, helps the promotion of the machining precision and the efficiency of flange face processing, and application scope is extensive.
Drawings
Fig. 1 is a schematic structural diagram of an automatic positioning device for a portable end face milling machine according to embodiment 1 of the present invention;
fig. 2 is a schematic structural diagram of an automatic positioning device for a portable end face milling machine according to embodiment 1 of the present invention;
FIG. 3 is a schematic structural diagram of an upgrade tensioning member in an automatic positioning device for a portable end milling machine according to embodiment 1 of the present invention;
fig. 4 is a schematic structural view of an auxiliary tensioning member in an automatic positioning device for a portable end face milling machine according to embodiment 1 of the present invention;
FIG. 5 is a partial schematic structural diagram of a positioning assembly in an automatic positioning device for a portable end face milling machine according to embodiment 1 of the present invention;
FIG. 6 is a partial schematic structural diagram of a hoisting component in an automatic positioning device for a portable end face milling machine according to embodiment 1 of the present invention;
FIG. 7 is a schematic view of the use state of an automatic positioning device for a portable end face milling machine according to embodiment 2 of the present invention;
Detailed Description
The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.
Example 1
Referring to fig. 1 to 6, an automatic positioning device for a portable end face milling machine, which is used for adjusting and positioning the distance between the milling machine and the flange face to be processed of the blade root, comprises:
the lifting tensioning component 5 moves along the radial direction of the blade root, one end of the lifting tensioning component is fixed at one side of the center of the milling machine, and the other end of the lifting tensioning component is connected with a positioning supporting foot 52 through a fine adjustment component 51;
the positioning backup plate part 6 comprises three positioning components 61, one end of each positioning component 61 is fixed on the other side of the center of the milling machine, and the other end of each positioning component 61 is provided with an axial pressure sensor 7;
the axial pressure sensor 7 is arranged on the positioning backup plate part 6, faces the flange surface to be processed of the blade root, and is used for detecting whether the equipment is parallel to the flange surface of the blade root;
the fine adjustment component 51 comprises a guide rail 53 and a motor 54 which are axially arranged, and the motor drives the positioning support leg 52 and the lifting tension component 5 to generate axial relative movement along the guide rail 53.
When the blade root is positioned, firstly, the lifting tensioning part 5 moves along the radial direction of the blade root and extends into the blade root, is tensioned on the inner surface of the blade root through the positioning supporting foot 52, and then drives the rest mechanisms of the whole milling machine to move axially towards the direction of the blade root through the driving of the motor 54 in the fine adjustment part 51 until the positioning component 61 is close to the flange surface to be processed of the blade root. The three positioning assemblies 61 and the three axial pressure sensors 7 are arranged, the three positioning assemblies 61 can form a plane, the plane is parallel to a beam rotating plane, whether the beam rotating plane is parallel to a flange surface to be machined of a blade root can be judged through the consistency of the pressures sensed by the three axial pressure sensors 7, and the beam rotating plane is a plane where the milling cutter is rotated and machined. At this time, the machining operation can be started directly, or the next adjustment can be performed according to the machining requirement.
According to different milling machine settings and processing requirements, the plane formed by the three positioning components 61 and the beam rotating plane are located on the same plane, and the positioning components 61 can be processed when being close to the blade root flange surface. Or the motor of the fine adjustment part 51 can drive the milling machine to move towards the direction that the inner circle of the blade root axially outwards, and the machining is carried out after scanning. Because the positioning support leg 52 is already tensioned on the inner surface of the blade root, the motor drives the positioning support leg 52 and the lifting tensioning part 5 to generate axial relative motion along the guide rail, and one end of the lifting tensioning part 5 is fixed on one side of the center of the milling machine, so that the whole milling machine is driven to move towards the axial direction of the inner circle of the blade root outwards. The technology is a good adapting device for large-scale tubular flange surface processing equipment, and the positioning and the adjustment do not need to be adjusted and calibrated repeatedly by manpower, thereby being time-consuming and labor-consuming. The positioning time can be greatly shortened, the manual operation is reduced, and especially when large blades are processed, the potential safety hazard during the manual operation is eliminated. Reasonable in design, the operation is safe, helps the promotion of the machining precision and the efficiency of flange face processing, and application scope is extensive.
As another embodiment of this embodiment, the system further includes an auxiliary tension member 8, one end of which is fixed on the same side of the central lifting tension member of the milling machine, and the system includes an electromagnetic valve, a pressure regulating valve, and at least three radially-retractable cylinders 81 controlled by the electromagnetic valve, and the ends of the cylinders 81 are connected with tension support legs 82. The diametrically telescopic cylinder 81 is controlled by an electromagnetic valve and extends outwards, the tension supporting foot 82 is tensioned on the inner surface of the blade root to play a role of auxiliary supporting, and the magnitude of the supporting force is adjusted by a pressure regulating valve. The friction force between the equipment and the blade root is increased, so that the equipment tensioning is more reliable.
As another embodiment of this embodiment, the lifting tensioning part 5 includes 3 worm and gear lifters 55 distributed at 120 ° to drive the linear guide rods 56, the input shafts of the lifters 55 are connected by using a double universal coupling 13, and the servo motor drives the input shafts of the three worm and gear lifters 55 to drive the guide rods 56 to perform synchronous telescopic motion.
As another embodiment of this embodiment, the backup plate member 6 includes three positioning assemblies 61 uniformly fixed at 120 ° to the center of the milling machine, and the backup plate end surfaces 62 of the three positioning assemblies 61 are in the same plane. The positioning assembly 61 comprises a positioning column, a positioning backup plate end face 62, a pressure sensor mounting plate 63 and a lifting sensor 64, one end of the positioning column is mounted in the center of the milling machine, the other end of the positioning column is provided with the positioning backup plate end face 62, the backup faces of the three positioning backup plate end faces 62 are on the same plane, and the pressure sensor mounting plate 63 and the lifting sensor 64 are arranged behind the backup faces.
As another embodiment of this embodiment, the lifting device further includes a lifting member, the lifting member includes a lifting hole 65 through which the lifting belt passes, an opening is formed in an upper wall of the lifting hole 65, a sensor fixing threaded sleeve 66 is disposed in the opening, a lifting sensor mounting shaft 67, a spring 68, a sensor transition thimble 69 and a stainless steel ball 610 are sequentially disposed in the sensor fixing threaded sleeve 66 from top to bottom, and the lifting sensor 64 is disposed at the top of the lifting sensor mounting shaft 67. The harness is passed through the lifting hole 65 to lift the apparatus to move inside the blade root. The stainless steel balls and the lifting belt 2 are connected together through threads, the lifting belt can press the stainless steel ball 610 when being pulled, the stainless steel ball 610 transmits pressure to the sensor transition thimble 69, the lifting sensor 64 senses the pressure through the spring 68, and therefore signals are generated and sent to the control cabinet. When the tension is finished, the hanging belt is taken out, the pressure induction of the lifting sensor 64 disappears after the sensor transition thimble 69 is reset, and then the milling work of the milling machine can be started, so that the potential safety hazard caused by the fact that a worker forgets to remove the hanging belt to perform the milling work is effectively avoided; in addition, when the pressure sensing signal of the lifting sensor 64 disappears, the lifting tensioning part 5 and the auxiliary tensioning part 8 cannot be contracted, so that the potential safety hazard that the equipment falls off due to the fact that the tensioning device is loosened before the milling machine does not wear the hanging strip to lift the equipment is effectively prevented.
As another embodiment of this embodiment, the blade further includes a radial pressure sensor, which is disposed in the lifting tensioning member 5 and/or the auxiliary tensioning member 8, and is configured to detect whether the lifting tensioning member 5 is tensioned to the inside of the blade root. The contact force between the positioning support leg 52 and the blade root can be monitored, and the stability and safety of tensioning are further improved. The radial pressure sensor can be arranged at any position of the lifting tensioning component 5 and used for detecting the radial pressure of the lifting tensioning component 5. When radial pressure sensing rises to target in place when having pressure feedback, just can loosen the suspender this moment, avoid because do not rise to target in place but misoperation leads to accidents such as equipment withers because of rising, safe intelligence, convenient hommization.
The lifting tensioning part 5 and the auxiliary tensioning part 8 can be driven pneumatically or electrically.
When the three positioning supporting feet 52 are all pushed against the inner wall of the blade root, and the radial pressure sensor on the lifting tensioning part 5 reaches the set load, the tensioning action is stopped and locked, the milling machine is supported on the inner wall and keeps constant supporting force, so that the end face milling machine is fixed on the inner wall of the blade root, and the equipment and the blade root are concentric. And then starting a fine adjustment part 51 at the front end of the lifting tensioning part 5 to drive the equipment to axially move towards the inside of the blade root, so that three positioning backup plate end faces 62 on the front side of the equipment are in contact with the blade root, when the axial pressure sensors 7 in the three positioning backup plate end faces 62 reach the contact pressure set by the system, the equipment is indicated to be parallel to the flange face of the blade root, and at the moment, starting the fine adjustment part 51 to enable the rest parts of the milling machine to reversely move, namely the equipment axially moves for 15mm outwards parallel to the blade root, so that the positioning is completed.
As another embodiment of this embodiment, the positioning support leg 52 and the tensioning support leg 82 are provided with rubber buffer layers 211 at their ends. The contact area between the lifting tensioning part 5 and the auxiliary tensioning part 8 and the inner wall of the blade root can be increased, the friction force is increased, the tensioning effect is better, the stress is uniform, and the service life is prolonged.
As another embodiment of this embodiment, as shown in the figure, the auxiliary tension member 8 includes an electromagnetic valve, a pressure regulating valve, and seven radially-retractable cylinders 81 controlled by the electromagnetic valve, and the ends of the cylinders 81 are connected with tension support legs 82. Seven air cylinders 81 are respectively and uniformly distributed among the lifting tensioning members 5 in a two, two and three distribution mode.
Thus, the solution in this embodiment can prove to have at least the following advantages:
have automatic fine setting locate function, can shorten positioning time by a wide margin, reduce artifical manually operation, especially when processing large-scale blade, the potential safety hazard when eliminating manual operation greatly promotes the convenience of location.
The automatic tensioning mechanism is additionally provided with the pressure sensor, so that the contact force between the supporting leg and the blade root can be monitored, and the stability and the safety of tensioning are further improved.
Example 2
As shown in fig. 7, the system further includes, in addition to the first embodiment:
a blade root support device 101 for supporting a blade root 102 for machining; and
a protective fence 104, a control cabinet 105, a storage trolley 106 and a dust remover 107 which are arranged on one side of the blade root supporting equipment 101 and the milling machine 103;
the protective fence 104 is used for preventing irrelevant personnel from entering the processing area in the processing process and preventing accidents from happening; the dust collector 107 sucks and temporarily stores iron pieces and dust generated during the machining.
Electric wires used on the milling machine 103 extend out from the middle of the cross beam 2 and are connected to the control cabinet 105.
The invention is mainly applied to the field of blade manufacturing in the wind power generation industry and is mainly used for a full-automatic end face milling machine for processing the root part of a blade in the blade manufacturing process. The equipment can also be used for finish machining or slope backing of flange surfaces of wind power towers and large pipelines, and has a wide application range.
The control cabinet 105 and the dust collector 107 can be stored on the storage trolley 106, so that the storage trolley is convenient to store and transport.
While the invention has been described with respect to the foregoing technical disclosure and features, it will be understood that various changes and modifications in the above structure, including combinations of features disclosed herein either individually or as claimed, and obviously including other combinations of such features, may be resorted to by those skilled in the art, without departing from the spirit of the invention. Such variations and/or combinations are within the skill of the art to which the invention pertains and are within the scope of the following claims.

Claims (9)

1. The utility model provides an automatic positioning device for portable end face milling machine for adjustment and location of distance between the flange face is treated to processing to milling machine and blade root, its characterized in that includes:
the lifting tensioning component moves along the radial direction of the blade root, one end of the lifting tensioning component is fixed at one side of the center of the milling machine, and the other end of the lifting tensioning component is connected with a positioning supporting leg through a fine adjustment component;
the positioning backup plate component comprises three positioning components, one end of each positioning component is fixed on the other side of the center of the milling machine, and the other end of each positioning component is provided with an axial pressure sensor;
the axial pressure sensor is arranged on the positioning backup plate part, faces the flange surface to be processed of the blade root, and is used for detecting whether the equipment is parallel to the flange surface of the blade root;
the fine adjustment component comprises a guide rail, a motor and a fine adjustment supporting leg which are axially arranged, and the motor drives the positioning component and the lifting tensioning component to generate axial relative motion along the guide rail;
the positioning backup plate component comprises three positioning components which are uniformly fixed at the center of the milling machine at 120 degrees, and the end surfaces of the positioning backup plates of the three positioning components are on the same plane.
2. The automatic positioning device for a portable face milling machine of claim 1 further comprising:
and one end of the auxiliary tensioning component is fixed at the same side of the milling machine center lifting tensioning component and comprises an electromagnetic valve, a pressure regulating valve and at least three cylinders which are controlled by the electromagnetic valve and can radially stretch, and the tail ends of the cylinders are connected with tensioning supporting legs.
3. The automatic positioning device for a portable face milling machine as claimed in claim 2, wherein the lift tensioning member comprises 3 worm and gear lift driven linear guides distributed at 120 °.
4. The automatic positioning device for the portable end face milling machine according to claim 1 or 2, wherein the positioning assembly comprises a positioning column, a positioning backup plate end face, a pressure sensor mounting plate and a lifting sensor, one end of the positioning column is mounted in the center of the milling machine, the other end of the positioning column is provided with the positioning backup plate end face, the backup faces of the three positioning backup plate end faces are in the same plane, and the pressure sensor mounting plate and the lifting sensor are arranged behind the backup face.
5. The automatic positioning device for the portable end face milling machine according to claim 1 or 2, characterized in that the input shafts of the lifters are connected by a double universal coupling, and the servo motor drives the input shafts of the three worm and gear lifters to drive the guide rods to synchronously extend and retract.
6. The automatic positioning device for a portable face milling machine as claimed in claim 2, further comprising a radial pressure sensor disposed in the lifting tensioning member and/or the auxiliary tensioning member for detecting whether the lifting tensioning member is tensioned to the inside of the blade root.
7. The automatic positioning device for the portable end face milling machine as claimed in claim 4, wherein the auxiliary tensioning member comprises an electromagnetic valve, a pressure regulating valve and seven diametrically-telescopic cylinders controlled by the electromagnetic valve, and supporting legs are arranged at the tail ends of the cylinders.
8. The automatic positioning device for a portable end face milling machine as claimed in claim 4, wherein the positioning support feet and the ends of the support feet are provided with rubber buffer layers.
9. The automatic positioning device for the portable end face milling machine as claimed in claim 5, further comprising a lifting component, wherein the lifting component comprises a lifting hole for a lifting belt to pass through, an opening is formed in the upper wall of the lifting hole, a sensor fixing threaded sleeve is arranged in the opening, a lifting sensor mounting shaft, a spring and a sensor transition thimble are sequentially arranged in the sensor fixing threaded sleeve from top to bottom, and the lifting sensor is arranged at the top of the lifting sensor mounting shaft.
CN202010518724.0A 2020-06-09 2020-06-09 Automatic positioning device for portable end face milling machine Active CN112059650B (en)

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CN113618407A (en) * 2021-07-12 2021-11-09 南通纳侬精密机械有限公司 Novel high-reliability movable blade end face milling and grinding machine

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