CN205111466U - End -face grinding mill is assisted to jumbo size axial supersound - Google Patents

Abstract

The utility model discloses an end -face grinding mill is assisted to jumbo size axial supersound, including enclosing cover, inner cup, coil lid, underplate and a plurality of ultrasonic vibration piece, the underplate is concentric circular, and the lower extreme of underplate is provided with the coil, and its centre bore is used for the dress to meet motor spindle, underplate circumferencial direction evenly distributed is followed to a plurality of ultrasonic vibration pieces, the ultrasonic vibration piece includes ultrasonic transducer, becomes width of cloth pole and abrasive brick, it is rotatory that the motor drives the underplate, the brush that the supersound signal passes through on the motor transmits for becoming a width of cloth pole from the coil of underplate lower extreme, drives an abrasive brick and is the axial vibration for the underplate by becoming width of cloth pole. The utility model provides a pair of end -face grinding mill is assisted to jumbo size axial supersound can be used to the supplementary end -face grinding of supersound, the supplementary grinding of supersound and polishing to batch supersound end -face grinding, grinding and the luster -finish big to the part be can realize, the machining efficiency and the machining precision of part are improved greatly.

Description

A kind of large-size axis parts is to ultrasonic wave added cross grinding mill

Technical field

The utility model relates to a millstone device, particularly relates to a kind of large-size axis parts to ultrasonic wave added cross grinding mill.

Background technology

Along with the development of science and technology, the brittle optical materials such as optical glass, artificial lens, pottery obtain to be applied very widely, is often used to make precison optical component.Its superior physics, chemistry and mechanical performance, just obtaining applying more and more widely in fields such as space flight, aviation, automobile, metallurgy, machinings.But because this kind of material fragility is all very large, machinability is poor, and especially ceramic material and partial crystals material all have very high hardness, processes more difficult.Traditional grinding processing method working (machining) efficiency and machining accuracy low, tool wear is serious, and processing cost is high, limits the further application of these materials.Therefore, the processing method that a kind of working (machining) efficiency is high in the urgent need to developing, cost is low.

Supersonic vibration assistant grinding is the novel grinding processing method of one of development nearly decades and application, a large amount of theories and experimental study show, supersonic vibration assistant grinding has the incomparable technological effect of plain grinding when processing hard fragility difficult-to-machine material, has the advantages such as working (machining) efficiency is high, machining damage is little, surface quality of workpieces is good.Therefore, ultrasonic vibration aided grinding process technology is used for process the Double face grinding of hard material part, significant to reduction part machining damage, raising working (machining) efficiency and suface processing quality.

But, in supersonic vibration assistant grinding processing, due to ultrasonic vibration installation self, ultrasonic vibration often can only be applied on less workpiece or instrument, be difficult to the ultrasonic vibration realizing large scale mill or workpiece.And in the Double face grinding processing of hard brittle material part, in order to ensure production efficiency, often adopt the processing of large scale mill.Therefore, the Double face grinding processing how ultrasonic vibration being used for auxiliary hard fragility part becomes technological difficulties.Based on this, the utility model proposes the design of a kind of large-size axis parts to ultrasonic wave added cross grinding mill.

Utility model content

The object of utility model is the deficiency overcoming prior art, there is provided a kind of large-size axis parts to ultrasonic wave added cross grinding mill, can be used for ultrasonic wave added cross grinding, ultrasonic wave added grinding and polishing, thus can realize, to the ultrasonic cross grinding of the batch that part is large, grinding and polishing, greatly improving working (machining) efficiency and the machining accuracy of part.

It is provide a kind of large-size axis parts to ultrasonic wave added cross grinding mill, comprising that the utility model solves the technical scheme that its technical problem adopts: enclosing cover, inner cap, coil cap, basal disc and some Under Ultrasonic Vibration motion blocks;

Described basal disc is concentric circles, and the lower end of basal disc is provided with coil, and its centre bore is used for attaching electric machine main shaft; Described some Under Ultrasonic Vibration motion blocks are uniformly distributed along basal disc circumferencial direction; Described inner cap is installed on the concentrically ringed inner ring of basal disc; Described enclosing cover is installed on the concentrically ringed outer ring of basal disc; Described coil cap is installed on basal disc lower end;

Described Under Ultrasonic Vibration motion block comprises ultrasonic transducer, ultrasonic transformer and abrading block; Described abrading block is connected with the upper end of ultrasonic transformer; Be fixedly connected with basal disc by the zero amplitude position of ultrasonic transformer, the lower end of ultrasonic transformer is connected with ultrasonic transducer;

Driven by motor basal disc rotates; Ultrasonic signal, by passing to ultrasonic transformer by the brush on motor from the coil of basal disc lower end, does the axial vibration relative to basal disc by ultrasonic transformer band dynamic grinding block.

Preferably, described some Under Ultrasonic Vibration motion blocks form an angle in basal disc circumference, and between adjacent abrading block, gap flexible material is filled.

Preferably, described ultrasonic transducer comprises piezoelectric vibrator; Described piezoelectric vibrator promotes the ultrasonic vibration that abrading block produces certain frequency and amplitude.

Preferably, described abrading block surface adopts electric plating method to make single layer of abrasive particles.

Preferably, described abrading block surface adopts the method for scolding tin to make single layer of abrasive particles.

Preferably, described abrading block surface is without abrasive particle.

Preferably, described abrading block surface adopts the method for sintering to make the abrading block of multilayer abrasive material

Preferably, first the upper surface of abrading block is polished when abrading block makes, then make single layer of abrasive particles on its surface.

Preferably, the finishing on abrading block surface is realized by the mode of attrition.

Preferably, described basal disc bottom is distributed with circular coil, and described circular coil contacts with brush and connects power supply, and wherein ground wire shares; The power supply of all Under Ultrasonic Vibration motion blocks is provided by a large power supply, and each Under Ultrasonic Vibration motion block has corresponding amplification and regulating circuit, the difference of intrinsic frequency during to adapt to vibrate between each abrading block, and the minor variations of intrinsic frequency in use procedure.

The beneficial effects of the utility model are:

Large-size axis parts of the present utility model is circumferentially evenly respectively to arrange abrading block at basal disc to ultrasonic wave added cross grinding mill, utilizes abrading block to realize cross grinding to handicraft product, grinding and polishing; Need between abrading block to adopt soft material to fill, prevent working fluid from entering emery wheel inside, cause piezoelectric vibrator power supply short circuit and corrosion emery wheel inner body, the transmission of abrading block ultrasonic vibration can not be affected again simultaneously.

2, single abrading block surface can adopt the method for plating and soldering to make single layer of abrasive particles, and sintering method also can be adopted to make the abrading block of multilayer abrasive material, for grinding; On abrading block, abrasive material can adopt super hard abrasive, also can adopt conventional abrasive material; If abrading block surface is without abrasive particle, also can be used for ultrasonic wave added grinding and the polishing of free abrasive.

3, according to the concrete size of large scale mill and the size of single vibrating mass, can install the vibration abrading block of fair amount at the circumferencial direction of large scale mill, number can adjust as required.

4, single abrading block promotes by piezoelectric vibrator the ultrasonic vibration that it produces certain frequency and amplitude, is connected and fixed in ultrasonic transformer zero amplitude position and basal disc simultaneously.

6, large-size axis parts of the present utility model both can be used for Double face grinding, grinding and polishing to ultrasonic wave added cross grinding mill, also can be used for the grinding of single end face, grinding and polishing.

Below in conjunction with drawings and Examples, the utility model is described in further detail; But a kind of large-size axis parts of the present utility model is not limited to embodiment to ultrasonic wave added cross grinding mill.

Accompanying drawing explanation

Fig. 1 is the overall schematic of a kind of large-size axis parts of the present utility model to ultrasonic wave added cross grinding mill.

Fig. 2 is the bottom coil of a kind of large-size axis parts of the present utility model to ultrasonic wave added cross grinding mill.

Fig. 3 is the overall explosive view of a kind of large-size axis parts of the present utility model to ultrasonic wave added cross grinding mill.

Fig. 4 is the explosive view of Under Ultrasonic Vibration motion block of the present utility model.

Fig. 5 is the explosive view of ultrasonic transducer of the present utility model.

Detailed description of the invention

Embodiment 1

Shown in Fig. 1 and Fig. 2, a kind of large-size axis parts of the present utility model, to ultrasonic wave added cross grinding mill, comprising: enclosing cover 4, inner cap 5, coil cap 10, basal disc 11 and some Under Ultrasonic Vibration motion blocks 6;

Described basal disc 11 is concentric circles, and the lower end of basal disc 11 is provided with coil 1, and its centre bore is used for attaching electric machine main shaft; Described some Under Ultrasonic Vibration motion blocks 6 are uniformly distributed along basal disc 11 circumferencial direction; Described inner cap 5 is installed on the concentrically ringed inner ring of basal disc 11; Described enclosing cover 4 is installed on the concentrically ringed outer ring of basal disc 11; Described coil cap 10 is installed on basal disc 11 lower end;

Described Under Ultrasonic Vibration motion block 6 comprises ultrasonic transducer 12, ultrasonic transformer 13 and abrading block 14; Described abrading block 14 is connected with the upper end of ultrasonic transformer 13; Be fixedly connected with basal disc 11 by the zero amplitude position of ultrasonic transformer 13, the lower end of ultrasonic transformer 13 is connected with ultrasonic transducer 12;

Driven by motor basal disc 11 rotates to realize cross grinding processing; Ultrasonic signal by passing to ultrasonic transformer 13 by the brush on motor from the coil 1 of basal disc 11 lower end, does axial vibration relative to basal disc 11 by ultrasonic transformer 13 with dynamic grinding block 14.

A nearlyer step, the ultrasonic transformer of described Under Ultrasonic Vibration motion block 6 is fixing on basal disc 11 by bolt 7, pad 8 and holder 9; Described abrading block 14 is fixed by bolt 15 and pad 16 with ultrasonic transformer 13.

Further, described enclosing cover 4 and inner cap 5 are fixed with basal disc 11 by bolt 3 and pad 2.

Further, described some Under Ultrasonic Vibration motion blocks 6 form an angle in basal disc circumference, and adjacent abrading block 14 gap flexible materials are filled, and play the effect of sealing.

Further, described ultrasonic transducer 12 comprises piezoelectric vibrator 18; Described piezoelectric vibrator 18 promotes the ultrasonic vibration that abrading block 14 produces certain frequency and amplitude.

A nearlyer step, the piezoelectric vibrator 18 in described ultrasonic transducer 12 is fixed by bolt 21 and pad 20.

Further, described abrading block 14 surface adopts electric plating method to make single layer of abrasive particles.

Further, described abrading block 14 surface adopts the method for scolding tin to make single layer of abrasive particles.

Further, described abrading block 14 surface is without abrasive particle.

Further, described abrading block 14 surface adopts the method for sintering to make the abrading block of multilayer abrasive material

Further, first the upper surface of abrading block is polished when abrading block 14 makes, then make single layer of abrasive particles on its surface.

Further, the finishing on abrading block 14 surface is realized by the mode of attrition.

Abrasive material on described abrading block 14 uses according to reality can adopt super hard abrasive or conventional abrasive material.

Further, described basal disc 11 bottom is distributed with circular coil 1, and described circular coil 1 contacts with brush and connects power supply, and wherein ground wire shares; The power supply of all Under Ultrasonic Vibration motion blocks 6 is provided by a large power supply, and each Under Ultrasonic Vibration motion block 6 has corresponding amplification and regulating circuit, the difference of intrinsic frequency during to adapt to vibrate between each abrading block 14, and the minor variations of intrinsic frequency in use procedure.

A kind of large-size axis parts is to the using method of ultrasonic wave added cross grinding mill: comprise the following steps:

A1, be installed on motor by large-size axis parts to ultrasonic wave added cross grinding mill, this large-size axis parts of driven by motor rotates to ultrasonic wave added cross grinding mill;

A2, ultrasonic-frequency power supply pass to ultrasonic amplitude transformer 13 by brush and coil, and ultrasonic amplitude transformer 13 does the axial vibration relative to basal disc 11 with dynamic grinding block, make abrasive material block grinding work piece

Above-described embodiment is only used for further illustrating a kind of large-size axis parts of the present utility model to ultrasonic wave added cross grinding mill; but the utility model is not limited to embodiment; every above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all fall in the protection domain of technical solutions of the utility model.

Claims (10)

1. large-size axis parts is to a ultrasonic wave added cross grinding mill, it is characterized in that, comprising: enclosing cover, inner cap, coil cap, basal disc and some Under Ultrasonic Vibration motion blocks;

Described basal disc is concentric circles, and the lower end of basal disc is provided with coil, and its centre bore is used for attaching electric machine main shaft; Described some Under Ultrasonic Vibration motion blocks are uniformly distributed along basal disc circumferencial direction; Described inner cap is installed on the concentrically ringed inner ring of basal disc; Described enclosing cover is installed on the concentrically ringed outer ring of basal disc; Described coil cap is installed on basal disc lower end;

Described Under Ultrasonic Vibration motion block comprises ultrasonic transducer, ultrasonic transformer and abrading block; Described abrading block is connected with the upper end of ultrasonic transformer; Be fixedly connected with basal disc by the zero amplitude position of ultrasonic transformer, the lower end of ultrasonic transformer is connected with ultrasonic transducer;

Driven by motor basal disc rotates; Ultrasonic signal, by passing to ultrasonic transformer by the brush on motor from the coil of basal disc lower end, does the axial vibration relative to basal disc by ultrasonic transformer band dynamic grinding block.

2. a kind of large-size axis parts according to claim 1 is to ultrasonic wave added cross grinding mill, it is characterized in that: described some Under Ultrasonic Vibration motion blocks form an angle in basal disc circumference, and between adjacent abrading block, gap flexible material is filled.

3. a kind of large-size axis parts according to claim 1 is to ultrasonic wave added cross grinding mill, it is characterized in that: described ultrasonic transducer comprises piezoelectric vibrator; Described piezoelectric vibrator promotes the ultrasonic vibration that abrading block produces certain frequency and amplitude.

4. a kind of large-size axis parts according to claim 1 is to ultrasonic wave added cross grinding mill, it is characterized in that: described abrading block surface adopts electric plating method to make single layer of abrasive particles.

5. a kind of large-size axis parts according to claim 1 is to ultrasonic wave added cross grinding mill, it is characterized in that: described abrading block surface adopts the method for scolding tin to make single layer of abrasive particles.

6. a kind of large-size axis parts according to claim 1 is to ultrasonic wave added cross grinding mill, it is characterized in that: described abrading block surface is without abrasive particle.

7. a kind of large-size axis parts according to claim 1 is to ultrasonic wave added cross grinding mill, it is characterized in that: described abrading block surface adopts the method for sintering to make the abrading block of multilayer abrasive material.

8. a kind of large-size axis parts according to claim 4 or 5, to ultrasonic wave added cross grinding mill, is characterized in that: first polished by the upper surface of abrading block when abrading block makes, and then makes single layer of abrasive particles on its surface.

9. a kind of large-size axis parts according to claim 6 or 7, to ultrasonic wave added cross grinding mill, is characterized in that: the finishing being realized abrading block surface by the mode of attrition.

10. a kind of large-size axis parts according to claim 1 is to ultrasonic wave added cross grinding mill, it is characterized in that: described basal disc bottom is distributed with circular coil, and described circular coil contacts with brush and connects power supply, and wherein ground wire shares; The power supply of all Under Ultrasonic Vibration motion blocks is provided by a large power supply, and each Under Ultrasonic Vibration motion block has corresponding amplification and regulating circuit, the difference of intrinsic frequency during to adapt to vibrate between each abrading block, and the minor variations of intrinsic frequency in use procedure.