CN208913862U - Dynamic balancing ultrasonic wave cutterhead - Google Patents

Abstract

This application involves machine tooling technical fields, more particularly, to a kind of dynamic balancing ultrasonic wave cutterhead.The dynamic balancing ultrasonic wave cutterhead includes knife handle, cutterhead, balancing loop, ultrasonic transducer, wireless transmission transmitter-receiver device；The knife handle includes holder main body and fitting joint；The balancing loop is sheathed on holder main body, for adjusting the position of centre of gravity of cutterhead entirety；The holder main body is provided with accommodating chamber far from one end of the fitting joint, and the ultrasonic transducer is located in the accommodating chamber；The wireless transmission emitter is located on the main shaft；The radio transceiver device is sheathed on the holder main body and connect with the ultrasonic transducer.The dynamic balancing ultrasonic wave cutterhead of the application makes cutterhead generate high-frequency vibration to realize Ultrasonic machining by the way that ultrasonic transducer is arranged in knife handle.And by setting balancing loop, cutter head assembly overall dynamics balance quality is adjusted, the generation of mechanical breakdown is reduced.

Description

Dynamic balancing ultrasonic wave cutterhead

Technical field

This application involves machine tooling technical fields, more particularly, to a kind of dynamic balancing ultrasonic wave cutterhead.

Background technique

Knife handle plays rigid connection machine tool chief axis and cutting tool as the connector between machine tool chief axis and cutting tool Effect；And in order to adapt to rotary ultrasonic machining, vibrational system is integrated into knife handle by people, obtains ultrasonic wave knife handle.

However, the ultrasonic knife handle structure that tradition is integrated with vibrational system is not firm enough, amplitude transformer is easy by collision Run-off the straight, thus increase amplitude transformer circle bounce, influence the dynamic balancing of amplitude transformer, cause ultrasonic wave knife handle machining accuracy compared with Difference, service life are shorter.

TWM372763U discloses a kind of ultrasonic activation formula cutter mould group, and first coil is fixed on fixed ontology.Sound wave Generator is electrically connected to first coil.Rotating body is rotatably mounted to fixed ontology.Second coil is fixed on rotating body. Two first contacts are fixed on rotating body and are electrically connected to the second coil.Hilt ontology is detachably mounted on rotating body On.Two second contacts are fixed on hilt ontology, and are respectively electrically connected to two first contacts.Voltage regulator circuit plate is set to hilt ontology On, and there are two input terminals to be electrically connected to two second contacts, the input voltage that generates is simultaneously when rotation to stablize the second coil Output voltage is exported in two output ends.First piezoelectric patches and the second piezoelectric patches are respectively electrically connected to two output ends to produce jointly Raw vibration.Expanding bar is fixed on hilt ontology, to give expanding, above-mentioned ultrasonic activation formula cutter mould group processing essence to vibration Spend to be improved, the material and processing efficiency being capable of processing are limited.

CN106181595A discloses a kind of concretion abrasive ultrasonic machining device and method, belongs to hard brittle material processing neck Domain, can carry out the face grinding of special-shaped hole machined peace, the concretion abrasive ultrasonic machining device include XY axis feed arrangement, Work nest, main shaft column, concretion abrasive tool, Z axis servo feeding apparatus and ultrasonic wave generating system, the supersonic generator Using ultrasonic constant-current supply, the ultrasound constant-current supply includes the acquisition for acquiring the electric current and voltage at ultrasonic transducer both ends The processing unit of unit and the equivalent impedance for calculating Ultrasonic machining system, the processing unit by the equivalent impedance of calculating with Impedance settings adjust the feed speed of concretion abrasive tool and/or the output electric current of supersonic generator after being compared Section.Although above-mentioned concretion abrasive ultrasonic machining device machining accuracy is higher, inefficient, guarantee machining accuracy cannot achieve In the case where rapid processing.

KR20150101628A discloses the device of a free profile cutting high hardness material, for cutting hard material Material, utilizes ultrasonic wave, comprising: cutting tool cuts hard material and diamond lap with supersonic generator, using super Sound wave is made from supersonic generator and mainly from stainless steel；One abrasive jet applies abrasive material, the grain including fine diamond Sub- hard material cuts hard material；And cutting tool pilot instrument, it is cut for applied force cutting tool in vertical direction Hard material.The device cuts a kind of hard material, can be applied using ultrasonic wave, for handle hard material such as sapphire with And reinforcing glass is applied to smart phone etc., however the device processing efficiency of above-mentioned free profile cutting high hardness material is not high, It cannot achieve rapid processing in the case where guaranteeing machining accuracy.

Therefore, how a kind of cutterhead with balancing loop is provided, can either guarantee that the stability of amplitude transformer can make knife again Handle machining accuracy is accurate, increases service life, it has also become the technical issues of those skilled in the art's urgent need to resolve.

Utility model content

The application's is designed to provide a kind of dynamic balancing ultrasonic wave cutterhead, is existed with solving ultrasonic wave cutterhead in the prior art There are rotation imbalances in rotary course, so as to cause the technical problem of machining accuracy difference.

This application provides a kind of dynamic balancing ultrasonic wave cutterhead, including knife handle, cutterhead, balancing loop, ultrasonic transducer, It is wirelessly transferred emitter and radio transceiver device；

The knife handle includes holder main body and fitting joint, and the holder main body is connected with the fitting joint；It is described Balancing loop is sheathed on the holder main body, the whole position of centre of gravity formed for adjusting the knife handle and the cutterhead；

The holder main body is provided with accommodating chamber far from one end of the fitting joint, and the ultrasonic transducer is located at institute It states in accommodating chamber；The fitting joint is provided with spindle mounted cavity far from one end of the holder main body, for making the knife Handle is connected with main shaft；

The wireless transmission emitter is located on the main shaft, for being connected with ultrasonic-frequency power supply generator；The nothing Line transmission reception device is sheathed on the holder main body, and is connect with the ultrasonic transducer；

The cutterhead is in the form of annular discs, and the edge away from the end face of the knife handle is provided with cricoid grinding part；And institute It states and is provided with connection through-hole in the middle part of cutterhead；The cutterhead is connected by the connection through-hole with the ultrasonic transducer.

Further, the first positioning table is provided in the outside wall surface of the one end of the holder main body far from the fitting joint Rank, for positioning the balancing loop.

Further, the balancing loop includes ring body and regulating device；

The ring body has opposite medial surface and lateral surface, and the medial surface of the ring body surrounds mounting hole, for described Holder main body is connected；The lateral surface be provided with it is multiple with repeated hole, and it is multiple it is described with repeated hole along the circumferential etc. of the ring body It lays at interval；The regulating device is installed on described in repeated hole.

Further, the ultrasonic transducer includes amplitude transformer and piezoelectric vibrator, and the piezoelectric vibrator is located at the appearance Receive intracavitary, the amplitude transformer is stretched out outside the accommodating chamber；And the first end of the amplitude transformer is provided with assembly flange and gland, institute It states amplitude transformer and is connected by the assembly flange with the holder main body, the gland compresses the assembly flange；The change Connecting rod is provided on the end face of the second end of width bar, the connecting rod is inserted into the connection through-hole on the cutterhead It is interior, so that the amplitude transformer is connected with the cutterhead；

The piezoelectric vibrator is connect with the radio transceiver device.

Further, multiple chip spaces, week of multiple chip spaces along the grinding part are offered on the grinding part To being uniformly distributed.

Further, the diameter of the cutterhead is 79.8-80.2mm.

Further, annular snap cutter groove, the section of the annular snap cutter groove are provided in the outside wall surface of the knife handle ontology It is V-shaped.

Further, spanner operation portion is provided at the annular snap cutter groove on the outer wall of the knife handle ontology；Institute The quantity for stating spanner operation portion is two, and two spanner operation portions are symmetrically disposed on the two sides of the knife handle ontology.

Further, the fitting joint is HSK spindle mounted connector.

Further, venthole is provided on the holder main body.

Compared with prior art, the application has the beneficial effect that

Dynamic balancing ultrasonic wave cutterhead provided by the embodiments of the present application, including knife handle, cutterhead, balancing loop, ultrasonic wave transducer Device, wireless transmission emitter and radio transceiver device.

Wherein, knife handle includes knife handle ontology and fitting joint, and the balancing loop is sheathed on the knife handle ontology, passes through Change the counterweight in balancing loop on different directions, adjusts knife handle, cutterhead, ultrasonic transducer and dynamic balancing annular to change At whole center of gravity spatial position, maintain it on the rotation axis of knife handle, it is flat to adjust cutter head assembly overall dynamics Weigh performance, is conducive to maintain the equilibrium state in cutter head assembly rotation process.

The holder main body is provided with accommodating chamber far from one end of the fitting joint, and the ultrasonic transducer is located at institute It states in accommodating chamber, ultrasonic transducer is for playing the role of ultrasonic vibration to cutterhead；The fitting joint is far from the knife handle master One end of body is provided with spindle mounted cavity, and spindle mounted cavity is adapted with machine tool chief axis, to realize the knife handle ontology With the connection of main shaft.

The wireless transmission emitter is located on the main shaft, for being connected with ultrasonic-frequency power supply generator；The nothing Line transmission reception device is sheathed on the holder main body, and is connect with the ultrasonic transducer；It is wirelessly transferred emitter High-frequency electrical energy signal for generating ultrasonic-frequency power supply generator is transmitted to radio transceiver dress by way of wireless transmission Set, radio transceiver device be used for receives wireless transmission emitter sending signal and by the signals revivification sensed at High-frequency electrical energy signal passes to ultrasonic transducer；Electrical signal of the frequency is converted to high-frequency mechanical vibration by ultrasonic transducer, and Vibration is transferred on cutterhead and realizes Ultrasonic machining.

The cutterhead is in the form of annular discs, and the edge away from the end face of the knife handle is provided with cricoid grinding part, is ground Portion protrudes from cutterhead end face, for being ground to workpiece.Connection through-hole is provided in the middle part of the cutterhead, the cutterhead passes through The connection through-hole is connected with the ultrasonic transducer, so that the high-frequency vibration of ultrasonic transducer is transferred on cutterhead Realize Ultrasonic machining.

The dynamic balancing ultrasonic wave cutterhead of the application makes cutterhead generate high frequency vibrating by the way that ultrasonic transducer is arranged in knife handle It moves to realize Ultrasonic machining.Also, the application can adjust knife handle, cutterhead, ultrasonic transducer by setting balancing loop The spatial position of the whole center of gravity formed with balancing loop, maintains it on the rotation axis of knife handle, adjusts cutter disc groups Part overall dynamics balance quality is conducive to maintain the equilibrium state in cutter head assembly rotation process, improves machining accuracy, reduces machine The generation of tool failure.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the overall structure diagram of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application；

Fig. 2 is structural schematic diagram of the dynamic balancing ultrasound cutterhead provided by the embodiments of the present application under the first visual angle；

Fig. 3 is the schematic cross-sectional view of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application；

Fig. 4 is the fractionation structural representation of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application；

Fig. 5 is the knife handle of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application and the structural schematic diagram of balancing loop；

Fig. 6 is the knife handle of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application and the assembling schematic diagram of balancing loop；

Fig. 7 is the dress of the knife handle and balancing loop of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application under the first visual angle Distribution structure schematic diagram；

Fig. 8 is the structural schematic diagram of the balancing loop of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application；

Fig. 9 is another structural schematic diagram of the balancing loop of dynamic balancing ultrasound cutterhead provided by the embodiments of the present application.

Appended drawing reference:

1- knife handle, 101- knife handle ontology, 102- accommodating chamber, 103- fitting joint, 104- venthole, 105- spindle mounted chamber Body, the first positioning step of 106-, 107- annular snap cutter groove, 108- spanner operation portion；

2- balancing loop, 201- medial surface, 202- lateral surface, 203- match repeated hole, the first subring of 204-, the second son of 205- Ring；

3- ultrasonic transducer, 301- amplitude transformer, 302- piezoelectric vibrator, 303- assembly flange, 304- gland, 305- connection Bar；

4- radio transceiver device；

5- cutterhead, the grinding part 501-, 502- connection through-hole, 503- chip space.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.

The component of the utility model embodiment for usually describing and showing in attached drawing here can be with a variety of different Configuration is to arrange and design.It therefore, is not below purport to the detailed description of the embodiments of the present invention provided in the accompanying drawings In the range of limitation claimed invention, but it is merely representative of the selected embodiment of the utility model.

Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Referring to Fig. 1 to Fig. 9 description according to the dynamic balancing ultrasonic wave cutterhead of some embodiments of the utility model.

Embodiments herein provides a kind of dynamic balancing ultrasonic wave cutterhead, as shown in Figures 1 to 4, including knife handle 1, knife Disk 5, balancing loop 2, ultrasonic transducer 3, wireless transmission emitter and radio transceiver device 4；

As shown in figure 5, knife handle 1 includes holder main body 101 and fitting joint 103, holder main body 101 and fitting joint 103 It is connected；Balancing loop 2 is sheathed on holder main body 101, the whole position of centre of gravity formed for adjusting knife handle 1 and cutterhead 5；

As shown in figure 3, holder main body 101 is provided with accommodating chamber 102, ultrasonic wave transducer far from one end of fitting joint 103 Device 3 is located in accommodating chamber 102；Fitting joint 103 is provided with spindle mounted cavity 105 far from one end of holder main body 101, is used for Knife handle 1 is set to be connected with main shaft；

As depicted in figs. 1 and 2, wireless transmission emitter is located on main shaft, for being connected with ultrasonic-frequency power supply generator； Radio transceiver device 4 is sheathed on holder main body 101, and is connect with ultrasonic transducer 3；

As shown in Figure 1, cutterhead 5 is in the form of annular discs, the edge away from the end face of knife handle 1 is provided with cricoid grinding part 501；And the middle part of cutterhead 5 is provided with connection through-hole 502；Cutterhead 5 is connected by connecting through-hole 502 with ultrasonic transducer 3.

Dynamic balancing ultrasonic wave cutterhead provided by the embodiments of the present application, including knife handle 1, cutterhead 5, balancing loop 2, ultrasonic waves It can device 3, wireless transmission emitter and radio transceiver device 4.

Wherein, as shown in figure 5, knife handle 1 includes knife handle ontology 101 and fitting joint 103, balancing loop 2 is sheathed on knife handle On ontology 101, by changing the counterweight in balancing loop 2 on different directions, knife handle 1, cutterhead 5, ultrasonic wave are adjusted to change The spatial position for the whole center of gravity that energy converter 3 and balancing loop 2 are formed, maintains it on the rotation axis of knife handle 1, adjusts 5 component overall dynamics balance quality of cutterhead is saved, is conducive to maintain the equilibrium state in 5 component rotation process of cutterhead.

As shown in figure 3, holder main body 101 is provided with accommodating chamber 102, ultrasonic wave transducer far from one end of fitting joint 103 Device 3 is located in accommodating chamber 102, and ultrasonic transducer 3 is for playing the role of ultrasonic vibration to cutterhead 5；Fitting joint 103 is far from knife One end of handle main body 101 is provided with spindle mounted cavity 105, and spindle mounted cavity 105 is adapted with machine tool chief axis, to realize The connection of knife handle ontology 101 and main shaft.

As depicted in figs. 1 and 2, wireless transmission emitter is located on main shaft, for being connected with ultrasonic-frequency power supply generator； Radio transceiver device 4 is sheathed on holder main body 101, and is connect with ultrasonic transducer 3；Emitter is wirelessly transferred to use Radio transceiver device 4 is transmitted to by way of wireless transmission in the high-frequency electrical energy signal for generating ultrasonic-frequency power supply generator On, radio transceiver device 4 be used for receives wireless transmission emitter sending signal and by the signals revivification sensed at High-frequency electrical energy signal passes to ultrasonic transducer 3；Electrical signal of the frequency is converted to high-frequency mechanical vibration by ultrasonic transducer 3, And vibration is transferred on cutterhead 5 and realizes Ultrasonic machining.

As shown in Figure 1, cutterhead 5 is in the form of annular discs, the edge away from the end face of knife handle 1 is provided with cricoid grinding part 501, grinding part 501 protrudes from 5 end face of cutterhead, for being ground to workpiece.The middle part of cutterhead 5 is provided with connection through-hole 502, Cutterhead 5 is connected by connecting through-hole 502 with ultrasonic transducer 3, i.e., to transmit the high-frequency vibration of ultrasonic transducer 3 Ultrasonic machining is realized on to cutterhead 5.

The dynamic balancing ultrasonic wave cutterhead of the application makes cutterhead 5 generate height by the way that ultrasonic transducer 3 is arranged in knife handle 1 Frequency vibration is to realize Ultrasonic machining.Also, the application can adjust knife handle 1, cutterhead 5, ultrasound by setting balancing loop 2 The spatial position for the whole center of gravity that wave transducer 3 and balancing loop 2 are formed, maintains it on the rotation axis of knife handle 1, 5 component overall dynamics balance quality of cutterhead is adjusted, is conducive to maintain the equilibrium state in 5 component rotation process of cutterhead, improves and add Work precision reduces the generation of mechanical breakdown.

In one embodiment of the application, it is preferable that as shown in figure 5, holder main body 101 is far from fitting joint 103 The first positioning step 106 is provided in the outside wall surface of one end, for positioning balancing loop 2.

In this embodiment, it is enhancing to the position-limiting action of balancing loop 2, the feelings such as prevents from occurring shaking during the work time Condition and the effect for influencing its adjustment, the present embodiment are provided with the first positioning step in the outside wall surface of holder main body 101 106, balancing loop 2 is sheathed at the first positioning step 106, and the inner wall of balancing loop 2 and end face are positioned with first respectively The cascaded surface of step 106 mutually fits closely, and realizes the fixation of balancing loop 2, prevents it from shaking during the work time, thus More precisely play the role of adjustment.

Preferably, internal screw thread is provided on the inner wall of balancing loop 2, on the corresponding cascaded surface of the first positioning step 106 It is provided with external screw thread compatible with above-mentioned internal screw thread, to realize that balancing loop 2 and stablizing for the first positioning step 106 connect It connects.

In one embodiment of the application, it is preferable that as shown in figure 8, balancing loop 2 includes ring body and regulating device；

Ring body has opposite medial surface 201 and lateral surface 202, and the medial surface 201 of ring body surrounds mounting hole, is used for knife handle Main body 101 is connected；Lateral surface 202 be provided with it is multiple with repeated hole 203, and it is multiple with repeated hole 203 along ring body circumferential direction at equal intervals It lays；Regulating device is installed on in repeated hole 203.

In this embodiment, balancing loop 2 includes ring body and regulating device.Ring body is annular in shape, and ring body has opposite Two anchor rings, i.e. medial surface 201 and lateral surface 202.Medial surface 201 and lateral surface 202 are parallel with the axis of ring body, and ring The diameter of body is perpendicular to medial surface 201 and lateral surface 202.The medial surface 201 of ring body surrounds mounting hole, is used for knife handle ontology 101 It is connected.In use, by the way that knife handle 1 is passed through mounting hole, to realize the installation of balancing loop 2.Lateral surface 202 is provided with multiple With repeated hole 203, and multiple repeated holes 203 of matching are laid at equal intervals along the circumferential direction of ring body, are round hole with repeated hole 203, with repeated hole 203 Axis passes through the ring heart of ring body, runs through medial surface 201 and lateral surface 202 with repeated hole 203.

Regulating device, which is located at, matches in repeated hole 203, for realizing the adjusting at center.Specifically, regulating device with match repeated hole 203 Between connection type can be threadedly coupled, can also be interference fit connection.Preferably, regulating device with repeated hole 203 it Between connection be to be detachably connected, can be in order to the dismounting of regulating device, to facilitate leveling.

When balancing loop 2 provided in this embodiment works, balancing loop 2 is installed on knife handle 1, then by dynamic flat Weighing apparatus ring 2 matches mounting in repeated hole 203, to adjust the whole of knife handle 1, cutterhead 5, ultrasonic transducer 3 and the formation of balancing loop 2 The spatial position of the center of gravity of body maintains it on the rotation axis of knife handle 1, to be conducive to maintain flat in rotation process Weighing apparatus state improves machining accuracy, reduces the generation of mechanical breakdown.

It is multiple to wait central angles distribution on outer side 202 with repeated hole 203 in the optional scheme of the embodiment, that is to say, that Arbitrary neighborhood two between repeated hole 203 pair central angle it is equal.

Specifically, the quantity with repeated hole 203 can be 15~30, in the embodiment, it is with the quantity with repeated hole 203 18 illustrate its distribution situation, it is two neighboring between repeated hole 203 pair central angle be 20 °.

In the optional scheme of the embodiment, the axial cross section shape of ring body is in rectangle, and a certain diameter of ring body is located at the axis To on section, and the axial cross section is perpendicular to the anchor ring of ring body.Opposite two anchor ring of ring body is parallel to each other.The inside of ring body Face 201 and lateral surface 202 are cylinder.

In the optional scheme of the embodiment, there is chamfering structure between the anchor ring and lateral surface 202 of ring body.

In one embodiment of the application, it is preferable that there is internal screw thread with repeated hole 203；Regulating device is column structure, And it is provided with external screw thread on the lateral wall of regulating device, for being matched with the internal screw thread with repeated hole 203.

In this embodiment, there is internal screw thread with repeated hole 203.Regulating device is column structure, and is arranged in its outside wall surface There is external screw thread, for matching with the internal screw thread with repeated hole 203.Internal screw thread can be single thread, and external screw thread is single line spiral shell Line；Or internal screw thread is multi start thread, and external screw thread is multi start thread；When using multi start thread, column structure can be improved Quickly adjust.The end of column structure offers driver slot, and driver slot can be flat recess or cross recess, in the embodiment, with Driver slot is for flat recess.It should be noted that regulating device may only also be screw, bolt or stud.

In the optional scheme of the embodiment, the length of column structure can be adjusted according to realizing, such as the length of column structure Less than the ring width of ring body, the ring width of ring body is the exradius of ring body and the difference of inner circle radius.It should be noted that column structure Length can also be greater than or equal to ring body ring width.

In one embodiment of the application, it is preferable that as shown in figure 9, ring body includes the multiple subrings nested together.

In this embodiment, ring body includes the multiple subrings nested together, by multiple subrings, convenient for increaseing or decreasing The weight of ring body entirety is convenient for adjustment.

It is illustrated so that the quantity of subring is two as an example, for the ease of distinguishing two subrings, two subrings are referred to as: First subring 204 and the second subring 205, the outer circle that the interior circular diameter of the first subring 204 is greater than or equal to the second subring 205 are straight Diameter, such first subring 204 are just nested in the outside of the second subring 205；In use, the second subring 205 is placed on knife handle 1；The It is realized and is fixed with device for installing and adjusting in repeated hole 203 by symmetrical two in ring body between one subring 204 and the second subring 205 Connection.Since ring body is divided into the first subring 204 and the second subring 205, it is divided into two half bore accordingly with repeated hole 203, one A half bore is located in the first subring 204, another half bore is located in the second subring 205.

In one embodiment of the application, it is preferable that the axial direction of the outer diameter in aperture and ring body with repeated hole 203, ring body Length and the ring width for changing topic are linearly related, and meet following formula:

D=0.02D+0.5L+0.2W+0.1；

Wherein, d indicates the aperture for matching repeated hole 203, and D indicates that the outer diameter of ring body, L indicate that the axial length of ring body, W indicate ring The ring width of body.

In the optional scheme of the embodiment, the outer diameter in aperture and ring body, the axial length of ring body and ring body with repeated hole 203 Ring width it is linearly related, calculated by experiment, when linear correlation, convenient for configuring corresponding regulating device, and be conducive to quickly Adjustment.

Specifically, the aperture with repeated hole 203 meets following formula:

D=xD+yL+zW+C,

Wherein, d indicates the aperture for matching repeated hole 203, and D indicates that the outer diameter of ring body, L indicate that the axial length of ring body, W indicate ring The ring width of body；C indicates constant；X, y, z indicates related coefficient.

In the embodiment, the aperture d with repeated hole 203 meets: d=0.02D+0.5L+0.2W+0.1.

Embodiments herein realizes adjustment, the method for reducing or eliminating rotation imbalance by balancing loop 2 are as follows:

Ultrasonic transducer 3, cutterhead 5 are connected to knife handle 1, then balancing loop 2 is filled loaded on knife handle 1 with forming one Ligand measures the center of gravity of above-mentioned assembly by dynamic balance instrument；When rotation imbalance, it is packed into matching in repeated hole 203 accordingly Regulating device is tested again, is repeated the above steps until the center of gravity of assembly is maintained at the axis of knife handle 1.

In one embodiment of the application, it is preferable that as shown in Figure 3 and Figure 4, ultrasonic transducer 3 includes amplitude transformer 301 and piezoelectric vibrator 302, piezoelectric vibrator 302 be located in accommodating chamber 102, amplitude transformer 301 stretch out accommodating chamber 102 outside；And amplitude transformer 301 first end is provided with assembly flange 303 and gland 304, and amplitude transformer 301 passes through assembly flange 303 and 101 phase of holder main body Connection, 304 compression fit flange 303 of gland；Connecting rod 305, connecting rod are provided on the end face of the second end of amplitude transformer 301 305 are inserted into the connection through-hole 502 on cutterhead 5, and amplitude transformer 301 is made to be connected with cutterhead 5；Piezoelectric vibrator 302 and wireless Reception device 4 is transmitted to connect.

In this embodiment, ultrasonic transducer 3 includes amplitude transformer 301 and piezoelectric vibrator 302.It is wirelessly transferred emitter The high-frequency electrical energy signal that ultrasonic-frequency power supply generator generates is transmitted to radio transceiver device 4 by way of wireless transmission On, radio transceiver device 4 receives the signal that wireless transmission emitter issues and by the signals revivification sensed at high frequency Electric power signal simultaneously passes to ultrasonic transducer 3, and ultrasonic transducer 3 utilizes the piezoelectricity back wash effect of piezoelectric vibrator 302 by frequency Electric signal is converted to high-frequency mechanical vibration, and is amplified by amplitude transformer 301 to mechanical oscillation and be transferred to workpieces processing, in turn Traditional machine tool can be cooperated to realize Ultrasonic machining.

As shown in figure 3, wherein the first end of amplitude transformer 301 is provided with assembly flange 303 and gland 304, amplitude transformer 301 is logical It crosses assembly flange 303 to be connected with holder main body 101,304 compression fit flange 303 of gland makes one end and the knife of amplitude transformer 301 Handle 1 is fastenedly connected；Connecting rod 305 is provided on the end face of the second end of amplitude transformer 301, connecting rod 305 is inserted on cutterhead 5 Connection through-hole 502 in, be fastenedly connected the other end of amplitude transformer 301 with cutterhead 5.

5 component of cutterhead of the embodiment of the present application can be applied to traditional machine tool, not change machine tool structure In the case where carry out Ultrasonic machining, ultrasonic transducer 3 is connect by the assembly flange 303 of amplitude transformer 301 with knife handle 1, is passed through Gland 304 is set, and gland 304 can give 303 pressure of assembly flange of amplitude transformer 301, combine assembly flange 303 and knife handle 1 It is even closer, reinforce product structure intensity.

Preferably, by being arranged sealant between gland 304 and assembly flange 303, sealant can by gland 304, Gap between 1 three of amplitude transformer 301 and knife handle is filled up, and the structural strength of product can be further strengthened, and forms waterproof Protection prevents infiltration from entering the piezoelectric effect of the installation cavity intracoelomic cavity destruction piezoelectric vibrator 302 of ultrasonic wave cutter hub, so that cutterhead 5 The structural strength of component is preferable, and product amplitude transformer 301 after falling on the ground or colliding is not easy to tilt, and is not easy to influence the circle of amplitude transformer 301 Bounce and dynamic balancing, machining accuracy is higher, and service life is longer.

In one embodiment of the application, it is preferable that the outer wall of holder main body 101 is equipped with positioning convex platform, convex Platform is for positioning radio transceiver device 4.

Wireless transmission emitter and radio transceiver device 4 employed in embodiments herein add for ultrasonic wave Common radio transmitting device in work can act on ultrasonic transducer 3 high-frequency electrical energy signal being converted into high frequency machinery Vibration, to realize the Ultrasonic machining of 5 component of cutterhead, therefore does not do specifically the specific structure of above-mentioned radio transmitting device It is bright, it is able to achieve above-mentioned conversion process.

In one embodiment of the application, as shown in Figure 1, multiple chip spaces 503 are offered on grinding part 501, it is multiple Circumferential direction of the chip space 503 along grinding part 501 is uniformly distributed.

In this embodiment, multiple chip spaces 503, axis of the chip space 503 along grinding part 501 are offered on grinding part 501 To direction through feed grinding portion 501,503 one side of chip space plays the role of heat dissipation, on the other hand plays the work of discharge grindstone dust With extending the service life of grinding part 501 while ensureing grinding quality；And cutting is formed at the notch of chip space 503 Sword can cut the high point of workpiece surface using cutting edge, be touched with buffering the cutting between grinding part 501 and workpiece It hits, ensures the processing quality of workpiece.

In one embodiment of the application, it is preferable that the diameter of cutterhead 5 is 79.8-80.2mm.

In this embodiment, the diameter of cutterhead 5 is set as 79.8-80.2mm, is preferably arranged to 80mm, grinding part 501 Circumferencial direction is evenly distributed with multiple chip spaces 503.When concrete application, chip space 503 is set as 8, the width of each chip space 503 Degree is 3 ± 0.2mm.

Using the equally distributed multiple chip spaces 503 of 501 circumferencial direction of grinding part, the grinding part of 5 ontology of cutterhead can be made 501 in grinding process, is more fully radiated and chip removal, to extend the service life of grinding part 501 and ensure workpiece Processing quality.

In one embodiment of the application, it is preferable that as shown in fig. 6, being provided with ring in the outside wall surface of knife handle ontology 101 Shape swaging clamp slot 107, the section of annular snap cutter groove 107 is V-shaped.

In this embodiment, annular snap cutter groove 107 is provided in the outside wall surface of knife handle ontology 101, annular snap cutter groove 107 Section is V-shaped.Using the above structure, annular snap cutter groove 107 is used for tool magazine swaging clamp, V-shaped by the way that its section to be arranged, and adds Work is convenient, can be common to most lathe, additionally it is possible to simple preliminary quality control is carried out convenient for the knife handle 1 to the present embodiment, By being arranged whether two cylinder of cylindrical measurement is qualified apart from preliminary test product, and measurement is convenient in the two sides of annular snap cutter groove 107, It is convenient for quality control.

In one embodiment of the application, it is preferable that as shown in Figure 6 and Figure 7, close on the outer wall of knife handle ontology 101 Spanner operation portion 108 is provided at annular snap cutter groove 107；The quantity of spanner operation portion 108 is two, two spanner operation portions 108 are symmetrically disposed on the two sides of knife handle ontology 101.

The spanner operation portion 108 of a pair of opposing is additionally provided on the outer wall of knife handle ontology 101, spanner operation portion 108 is set It sets on the outer wall of knife handle ontology 101 and close to the corresponding position of annular snap cutter groove 107.Using the above structure, spanner operates Portion 108 can be used for that spanner is cooperated to use, fixed knife handle 1 when cutter easy to disassemble.When filling knife, a pair of of spanner operation portion 108 is distinguished It sticks into the spanner of lock tool apron, knife handle 1 can be made not to be able to rotate.Optionally, spanner operation portion 108 is that the spanner operation of straight flange is flat Face is applicable to the U-shaped spanner of lock tool apron.

In one embodiment of the application, it is preferable that as shown in fig. 6, fitting joint 103 is HSK spindle mounted connector 103, venthole 104 is provided on holder main body 101.

In this embodiment, when fitting joint 103 is HSK spindle mounted connector 103,103 end of fitting joint is opened up There is spindle mounted cavity 105, the outer wall of holder main body 101 is equipped with venthole 104, venthole 104 and spindle mounted cavity 105 Connection.When the HSK spindle mounted connector 103 and HSK machine tool chief axis of holder main body 101 assemble, the pull rod meeting of HSK machine tool chief axis It protrudes into and expands clamping in spindle mounted cavity 105, by the way that venthole 104 is arranged, convenient for discharge gas, so that spindle mounted cavity Air-tightness is good in 105, and knife ontology and the assembly of HSK machine tool chief axis are reliable.

Optionally, venthole 104 is two, two being provided at circumferentially spaced along holder main body 101 of venthole 104, row Gas is good, and structure is simple.

The cutterhead grinding performance of dynamic balancing ultrasonic wave cutterhead provided by the embodiments of the present application in order to better understand, with cutterhead When diameter is 80mm, cutterhead performance test has been carried out below:

Processing object: 100mm × 100mm glass surface；

Test and comparison cutter: the tool provided in normal diamond sharpening disk and the utility model embodiment is chosen There is chip space to have cutting edge cutterhead (basil of cutting edge be 90 degree), each ten test cutter, test result is as follows 1 institute of table Show.

Table 1

It can be seen that by above-mentioned list using the dynamic balancing ultrasonic wave cutterhead provided in the utility model embodiment, phase Than processing the glass of same size for normal diamond in the prior art sharpening, time-consuming significant shortening is processed, is added The roughness of work significantly gets a promotion, and will not generate in glass surface and connect tool marks, improves processing quality.

Embodiments herein additionally provides a kind of system of processing, including the ultrasound of dynamic balancing described in any of the above-described embodiment Wave cutterhead.

In this embodiment, system of processing includes the dynamic balancing ultrasonic wave cutterhead of any of the above-described embodiment, since processing is System include any of the above-described embodiment dynamic balancing ultrasonic wave cutterhead, thus with dynamic balancing ultrasonic wave cutterhead all beneficial to imitate Fruit, this is no longer going to repeat them.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of dynamic balancing ultrasonic wave cutterhead, which is characterized in that including knife handle, cutterhead, balancing loop, ultrasonic transducer, nothing Line transmitting device and radio transceiver device；

The knife handle includes holder main body and fitting joint, and the holder main body is connected with the fitting joint；It is described dynamic flat The ring set that weighs is set on the holder main body, the whole position of centre of gravity formed for adjusting the knife handle and the cutterhead；

The holder main body is provided with accommodating chamber far from one end of the fitting joint, and the ultrasonic transducer is located at the appearance It receives intracavitary；The fitting joint is provided with spindle mounted cavity far from one end of the holder main body, for make the knife handle with Main shaft is connected；

The wireless transmission emitter is located on the main shaft, for being connected with ultrasonic-frequency power supply generator；The wireless biography Defeated reception device is sheathed on the holder main body, and is connect with the ultrasonic transducer；

The cutterhead is in the form of annular discs, and the edge away from the end face of the knife handle is provided with cricoid grinding part；And the knife Connection through-hole is provided in the middle part of disk；The cutterhead is connected by the connection through-hole with the ultrasonic transducer.

2. dynamic balancing ultrasonic wave cutterhead according to claim 1, which is characterized in that the holder main body is far from the assembly The first positioning step is provided in the outside wall surface of one end of connector, for positioning the balancing loop.

3. dynamic balancing ultrasonic wave cutterhead according to claim 1, which is characterized in that the balancing loop includes ring body and tune Regulating device；

The ring body has opposite medial surface and lateral surface, and the medial surface of the ring body surrounds mounting hole, is used for the knife handle Main body is connected；The lateral surface be provided with it is multiple with repeated hole, and it is multiple it is described with repeated hole along the ring body circumferential direction at equal intervals It lays；The regulating device is installed on described in repeated hole.

4. dynamic balancing ultrasonic wave cutterhead according to claim 1, which is characterized in that the ultrasonic transducer includes luffing Bar and piezoelectric vibrator, the piezoelectric vibrator are located in the accommodating chamber, and the amplitude transformer is stretched out outside the accommodating chamber；And the change The first end of width bar is provided with assembly flange and gland, and the amplitude transformer is connected by the assembly flange with the holder main body It connects, the gland compresses the assembly flange；Connecting rod, the connecting rod are provided on the end face of the second end of the amplitude transformer It is inserted into the connection through-hole on the cutterhead, the amplitude transformer is made to be connected with the cutterhead；

The piezoelectric vibrator is connect with the radio transceiver device.

5. dynamic balancing ultrasonic wave cutterhead according to claim 1, which is characterized in that offer multiple rows on the grinding part Consider slot to be worth doing, circumferential direction of multiple chip spaces along the grinding part is uniformly distributed.

6. dynamic balancing ultrasonic wave cutterhead according to claim 1, which is characterized in that the diameter of the cutterhead is 79.8- 80.2mm。

7. dynamic balancing ultrasonic wave cutterhead according to claim 1, which is characterized in that set in the outside wall surface of the knife handle ontology It is equipped with annular snap cutter groove, the section of the annular snap cutter groove is V-shaped.

8. dynamic balancing ultrasonic wave cutterhead according to claim 7, which is characterized in that close on the outer wall of the knife handle ontology Spanner operation portion is provided at the annular snap cutter groove；The quantity of the spanner operation portion is two, two spanner operations Portion is symmetrically disposed on the two sides of the knife handle ontology.

9. dynamic balancing ultrasonic wave cutterhead according to claim 1, which is characterized in that the fitting joint is HSK main shaft dress Connector.

10. dynamic balancing ultrasonic wave cutterhead according to claim 9, which is characterized in that be provided on the holder main body logical Stomata.