CN104628244A - Cutting head provided with rotating mechanism - Google Patents

Abstract

The invention relates to a cutting head provided with a rotating mechanism. A direction of a cutter wheel used for forming cutting line on a substrate can be changed according to the moving direction of the cutting line. The cutting head is provided with a ball screw, which can be rotated with the help of a driving segment; a sliding member with the help of the rotation of the ball screw; a rotor, which is disposed on the sliding member, and can rotate during the connection with the terminal part of the ball screw; a unidirectional clutch, which can be used to transfer the rotating force of the rotor in one direction to the unidirectional clutch of the external cylinder member, and the external cylinder member is connected with a maintaining tool used to maintain the cutter. The lower end part of the ball screw and the upper end part of the rotor are provided with magnet parts having different polarities.

Description

There is the engraving head of cyclotron mechanism

Technical field

The invention relates to a kind of engraving head with cyclotron mechanism, particularly about a kind of make to substrate formed score line break bar relative to delineation direction rotate with set angle time, make engraving head correctly positional alignment and the fixing engraving head with cyclotron mechanism.

Background technology

Generally speaking, in order to by the size desired by the brittle material breaking one-tenth such as glass substrate, first under the state making the blade of break bar be crimped on glass baseplate surface with set load, glass substrate is moved and forms score line on its surface.Then, set power is applied and disjunction glass substrate to this score line.

Having when disjunction glass substrate, in order to make break bar rotate, and at engraving head, the means case of cyclotron mechanism being installed.Consult Fig. 1 for the existing known engraving head with cyclotron mechanism to be described.

Consult Fig. 1, the existing known engraving head with cyclotron mechanism, at upper side dress with sub-motor (sub-motor) 60, by this sub-motor 60 swing roller screw rod 62.Ball screw 62, screws togather with junctor (coupling) 61, and junctor 61 is combined with saddle (slider) 30.Once by sub-motor 60 swing roller screw rod 62, then junctor 61 is elevated, and the saddle 30 be combined with junctor 61 is also elevated along the one side of retaining plate 65.

In the lower side of saddle 30, gyrator 42 dress is invested the axis identical with ball screw 62, to combine with the terminal part of ball screw 62 and to be separated.Gyrator 42, with ball screw 62 in conjunction with time, rotate together with ball screw 62.

In the periphery of gyrator 42, the revolving force in gyrator 42 direction with one-way clutch (one way clutch) 40, and is only conveyed to the outer barrel member 43 be made up of nonmagnetic material by dress.

Specifically, one-way clutch 40, be configured to: only when ball screw 62 rotates toward the direction making saddle 30 increase, the revolving force of the gyrator 42 be combined with ball screw 62 is conveyed to outer barrel member 43, and when ball screw 62 rotates toward the direction making saddle 30 decline, the revolving force of the gyrator 42 be combined with ball screw 62 is not conveyed to outer barrel member 43.

Therefore, when ball screw 62 when rotating toward the direction making saddle 30 increase under the state that gyrator 42 is combined, then outer barrel member 43 also rotates toward equidirectional with gyrator 42, even if but ball screw 62 rotates toward the direction making saddle 30 decline under the state be combined with gyrator 42, outer barrel member 43 also non rotating.

In the bottom of outer barrel member 43, be combined with upper end break bar 51 being held in rotatable holder 50, and holder 50 also rotates and changes angle along with the rotation of outer barrel member 43.That is holder 50 and outer barrel member 43 rotate toward equidirectional, but rotate in the other direction because outer barrel member 43 is not past by one-way clutch 40, therefore holder 50 also only rotates toward a direction and changes its angle.

In addition, at the peripheral part of outer barrel member 43, be formed with positioning groove 25, and be provided with ball plunger (ball plunger) 24 in the position relative with positioning groove 25, to be configured to the angle maintaining holder 50.Positioning groove 25, can the peripheral part of outer barrel member 43 at certain intervals (such as 90 degree of intervals) formed multiple.

In the existing known engraving head formed as such as above, in order to the revolving force of ball screw 62 is conveyed to gyrator 42, and ball screw 62 and the joint portion of gyrator 42 are formed as the shape at angle, but the structure so, the position be combined with each other critically must be processed, therefore have the problem points increased with tooling cost.In addition, following problem points is also had: even if the situation staggered slightly with the axis of gyrator 42 at ball screw 62, mutual combination also will become and be not easy.

In addition, ball plunger 24, all the time apply pressing to the periphery of outer barrel member 43 to be embedded in the mode of the positioning groove 25 of the periphery being formed in outer barrel member 43, therefore also producing has following problem points: cause outer barrel member 43 to rotate smoothly because of the plus-pressure of ball plunger 24.

If outer barrel member 43 cannot rotate smoothly, then delineate substrate under the state angle in the holder 50 be combined with outer barrel member 43 bottom also correctly do not rotated, therefore will produce substandard products in large quantities.

In addition, ball plunger 24, due to all the time toward the outside the rotating shaft center of barrel member 43 periphery of outer barrel member 43 is pressurizeed, therefore also produce have following problem points: at the peripheral part of outer barrel member 43, produce duct because of contact friction repeatedly.Further, also generation has following problem points: once the spring tension suppressing ball plunger 24 relaxes, then ball plunger 24 cannot positively be embedded in positioning groove 25.

Patent documentation 1: No. 2012-0020856th, Korean Patent Laid

As can be seen here, the above-mentioned existing engraving head with cyclotron mechanism structure with use, obviously still have inconvenience and defect, and be urgently further improved.In order to solve above-mentioned Problems existing, relevant manufactures there's no one who doesn't or isn't seeks solution painstakingly, but have no applicable design for a long time to be completed by development, and common product does not have appropriate structure to solve the problem, this is obviously the anxious problem for solving of relevant dealer always.

Summary of the invention

The object of the present invention is to provide a kind of engraving head with cyclotron mechanism, the technical problem solved is, when making to rotate with set angle relative to delineation direction the break bar of substrate formation score line, can obtain correct rotation angle.

The object of the invention is to realize by the following technical solutions.The invention provides a kind of engraving head with cyclotron mechanism, have and the break bar being used for being formed substrate score line is held in rotatable holder, it comprises: ball screw, rotates by driving means; Saddle, the rotation by this ball screw is elevated; And gyrator, dress invests this saddle, and with the terminal part of this ball screw in conjunction with time rotate together with this ball screw; Magnet part is set at the terminal part of this ball screw, and in the end of this gyrator relative with the terminal part of ball screw, another magnet part of the polarity attracted each other with this magnet part is set.

Object of the present invention also can be applied to the following technical measures to achieve further.

Preferably, the aforesaid engraving head with cyclotron mechanism, it also comprises: outer barrel member, is connected with this holder; And one-way clutch, be located between this gyrator and this outer barrel member, and only the revolving force in this gyrator direction conveyed to this outer barrel member; The peripheral part of this outer barrel member is made up of nonmagnetic material; At the peripheral part of this outer barrel member, just every special angle is formed with adhesion metal portion; At this saddle, forming magnet part with at least one relative position in this adhesion metal portion.

Preferably, the aforesaid engraving head with cyclotron mechanism, this wherein said adhesion metal portion is the magnetic substance with the magnet part opposed polarity being formed at this saddle.

Preferably, the aforesaid engraving head with cyclotron mechanism, the wherein said magnet part being formed at this saddle is electro-magnet.

By technique scheme, the engraving head that the present invention has cyclotron mechanism at least has following advantages and beneficial effect:

The engraving head with cyclotron mechanism of the present invention, make form the break bar cooperation delineation direction of score line to substrate and correctly rotate with special angle, can prevent from whereby producing scratch (scratch) etc. at real estate, and the substandard products of substrate can be reduced significantly.

In addition, the engraving head with cyclotron mechanism of the present invention, the magnet part of plane is provided with at the combining site of ball screw and gyrator, therefore not only mutual to easy, even and the axis of ball screw is different from the axis of gyrator, also can prevents the revolving force of mutual combination failure or ball screw from conveying to the problems such as gyrator by mistake and produce.

In addition, the engraving head with cyclotron mechanism of the present invention, when the holder making dress have break bar rotates with special angle, utilizes magnet part and makes it correctly stop with special angle, therefore, it is possible to carry out smooth and correct delineation operation.

In addition, outer barrel member is stopped, therefore, it is possible to prevent the abrasion of the periphery of outer barrel member with special angle owing to not making adhesion metal portion directly be connected to the periphery of outer barrel member.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to technique means of the present invention can be better understood, and can be implemented according to the content of specification sheets, and can become apparent to allow above and other object of the present invention, feature and advantage, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, be described in detail as follows.

Accompanying drawing explanation

Fig. 1 represents that to cut the existing known state with a part for the engraving head of cyclotron mechanism graphic.

Fig. 2 represents that to cut the state with a part for the engraving head of cyclotron mechanism of the present invention graphic.

Fig. 3 represents to cut to represent that the state being combined with a part for the state of ball screw and gyrator with the engraving head of cyclotron mechanism of the present invention is graphic.

Fig. 4, regulates the sketch chart of gyrator angle by magnet part and adhesion metal portion when being the rotation representing ball screw and the gyrator having an engraving head of cyclotron mechanism of the present invention.

Fig. 5 represents other variation graphic with the ball screw of the engraving head of cyclotron mechanism, the magnet part of gyrator and adhesion metal portion of the present invention.

[main element nomenclature]

24: magnet part 25: adhesion metal portion

26: sword front end angle detecting detecting part 27: sword front position confirms groove

30: saddle 40: one-way clutch

42: gyrator 43: outer barrel member

50: holder 51: break bar

60: sub-motor 61: junctor

62: ball screw 63a, 63b: magnet part

65: retaining plate

Embodiment

For further setting forth the present invention for the technique means reaching predetermined goal of the invention and take and effect, below in conjunction with accompanying drawing and preferred embodiment, to a kind of embodiment, structure, feature and the effect thereof with the engraving head of cyclotron mechanism proposed according to the present invention, be described in detail as follows.

Below, consult the graphic formation with the engraving head of cyclotron mechanism for one embodiment of the invention to be described in detail.About among the explanation of the present embodiment, mark identical reference marks with as a reference for the same or similar integrant of existing known engraving head shown in Fig. 1, and the description thereof will be omitted.

The engraving head with cyclotron mechanism of the present embodiment, as shown in Figures 2 and 3, sub-motor 60 dress invests upper side, the swing roller screw rod 62 by this sub-motor 60.

Ball screw 62, screw togather, and junctor 61 is combined with saddle 30 with junctor 61.Once by sub-motor 60 swing roller screw rod 62, then junctor 61 is elevated, and the saddle 30 be combined with junctor 61 is also elevated along the one side of retaining plate 65.

In the bottom of saddle 30, in the mode combining and be separated with the terminal part of ball screw 62 gyrator 42 filled and invest same axis.And, in the present embodiment, in order to make gyrator 42 be combined in the mode of mutual interlock with ball screw 62, and attach magnetic magnet part at mutual end dress.

Specifically, at the upper end of gyrator 42 dress with magnet part 63b, at the bottom of ball screw 62 corresponding thereto dress with magnet part 63a.The magnet part 63b that dress invests gyrator 42 invests the magnet part 63a of ball screw 62 with dress, is the magnetic substance with mutual dissimilar polarity, is spaced apart below certain intervals therefore once two magnet part, then attract each other.

Therefore, once gyrator 42 is close with ball screw 62, and magnet part 63a and magnet part 63b is bonded with each other, then by ball screw 62 rotation and gyrator 42 is rotated together.

In the periphery of gyrator 42, the revolving force in gyrator 42 direction with one-way clutch 40, and is only conveyed to the outer barrel member 43 be made up of nonmagnetic material by dress.Specifically, one-way clutch 40, be configured to: only when ball screw 62 rotates toward the direction making saddle 30 increase, the revolving force of the gyrator 42 be combined with ball screw 62 is conveyed to outer barrel member 43, when ball screw 62 rotates toward the direction making saddle 30 decline, even if the magnet part 63a of the magnet part 63b of gyrator 42 and ball screw 62 adheres to mutually, also the revolving force of the gyrator 42 be combined with ball screw 62 can not be conveyed to outer barrel member 43.

Therefore, once ball screw 62 rotates toward the direction making saddle 30 increase under the state be combined with gyrator 42, then outer barrel member 43 is also toward rotating with gyrator 42 equidirectional, even if but ball screw 62 rotates toward the direction making saddle 30 decline under the state be combined with gyrator 42, outer barrel member 43 also can not rotate.

In the bottom of outer barrel member 43, be combined with upper end break bar 51 being held in rotatable holder 50, and along with the rotation of outer barrel member 43, holder 50 also rotates and changes angle.That is though holder 50 is toward rotating with outer barrel member 43 equidirectional, because outer barrel member 43 does not rotate toward opposite direction by one-way clutch 40, therefore holder 50 also only rotates toward a direction and changes its angle.

In addition, in the present invention, in the mode remained unchanged by rotating state by holder 50, at the peripheral part of outer barrel member 43, formed adhesion metal portion 25, and with the saddle 30 of relative position in adhesion metal portion 25 on be provided with magnet part 24.The peripheral part of gyrator 42 is preferably without metallicity.Adhesion metal portion 25 is that (such as, in circumferential direction be 90 degree of intervals) is arranged at certain intervals on the periphery of outer barrel member 43.In addition, at the peripheral part of outer barrel member 43, be formed with sword front position and confirm groove 27, thus confirm that groove 27 adjoins with sword front position, and be provided with the sword front end angle detecting detecting part 26 detecting its position.

In the bottom of outer barrel member 43, be formed with rotation in a lateral incision in conjunction with groove 45.With rotate in conjunction with the upper end of groove 45 relative position holder 50, be equipped with king pin (caster pin) 52, to be embedded in rotation in conjunction with groove 45.Rotate and formed to have mode chimeric with gap in conjunction with groove 45 and king pin 52, and with holder 50 can circumferential direction with small angle comfortable the mode that rotates combine.

Below, the operating state with the engraving head of cyclotron mechanism for the present embodiment is described in detail.In order to make the engraving head of the present embodiment decline toward substrate (not shown) is upper, as shown in Figures 2 and 3, dress is made to invest sub-motor 60 action of the upper side of engraving head and ball screw 62 is rotated.

Once ball screw 62 rotates, then saddle 30 as shown in Figure 3 as decline towards substrate.Once saddle 30 declines, then fill the holder 50 investing the bottom of saddle 30 and decline, the break bar 51 that dress invests the bottom of holder 50 is connected to above substrate.

Then, to move toward conveyor belt direct of travel making substrate after implementing delineation operation, making conveyor belt reverse rotation, and after the original position that substrate is back to when delineation operation starts, implement next delineation operation.In order to the delineation operation as implementing repeatedly and continuously so, and repeatedly carry out making being crimped on substrate and implement the break bar 51 (that is, holder 50) of delineation operation from substrate rising, then make its step on substrate that declines.But must while with the sword toe angle each 90 degree changing break bar 51 while implement.

Specifically, once saddle 30 rises by ball screw 62, then fill the gyrator 42 investing the bottom of saddle 30 and be combined with the terminal part of ball screw 62, gyrator 42 also rotates toward the sense of rotation of ball screw 62.In the present embodiment, fill attached magnet part 63a in the bottom of ball screw 62, fill another magnet part 63b attached in the upper end of gyrator 42, also can carry out action smoothly by interlock to make ball screw 62 and gyrator 42.Magnet part can utilize general magnet or larger neodymium (neodymium) magnet etc. of magnetic intensity according to magnet strength, in addition, can change magnet size used according to magnetic intensity.

When the magnet part 63b of the gyrator 42 and magnet part 63a of ball screw 62 be combined with each other, once gyrator 42 only rotates with the amount of 90 degree to regulate, then by the holder 50 that outer barrel member 43 rotates, also can from gyrator 42 correctly each 90 degree to carry out rotating and to implement the delineation operation of substrate.

With when the magnet part 63b of the gyrator 42 and magnet part 63a of ball screw 62 is under the state combined during 90-degree rotation, the then immovable mode of postrotational angle, at the peripheral part of outer barrel member 43, adhesion metal portion 25 is set with the angle of 90 degree, with adhesion metal portion 25 relative position saddle 30 on magnet part 24 is set.

That is, as shown in Figure 4, once adhesion metal portion 25 is close with magnet part 24, and make the magnetic force of magnet part 24 extend to adhesion metal portion 25, then attract adhesion metal portion 25 by magnetic force, in stable condition after 90-degree rotation is maintained.

In addition, even if owing to gyrator 42 not being rotated to predetermined angle by ball screw 62, also as shown in Figure 4 as, magnet part 24 toward the direction of arrow attract adhesion metal portion 25, therefore can carry out angle change smoothly.That is, outer barrel member 43 is rotated compared with more than 90 degree or few compared with 90 degree angle time, due to adhesion metal portion 25 can be attracted in the magnetic force of magnet part 24 scope in one's power, therefore can carry out correct and smooth angle and change.

In the present embodiment, though as shown in Figure 4, with the gap-forming adhesion metal portion 25 of 90 degree on the periphery of outer barrel member 43, the position relative with adhesion metal portion 25 on saddle 30 forms a magnet part 24, but also can as shown in Figure 5 as, in saddle 30 just every 90 degree formation magnet part 24.

Moreover, the magnet part 25 of the present embodiment, can utilize permanent magnet or electro-magnet.Especially, in the situation utilizing electro-magnet as magnet part 25, due to can the magnetic force in regulating magnet portion, therefore there is the advantage that running accuracy can be made to improve.

As mentioned above, owing to attracting the adhesion metal portion 25 of outer barrel member 43 by the magnetic force of the magnet part 24 on saddle 30, therefore be formed with the outer barrel member 43 in adhesion metal portion 25, under the state of 90-degree rotation only otherwise apply the revolving force of more than certain dynamics, its angle can not change.

And, by the vertical motion utilizing ball screw 62 repeatedly to carry out saddle 30, make the angle of rotation of gyrator 42 each 90 degree to change, whereby, can to make with gyrator 42 interlock and the angle of rotation of carrying out the holder 50 and break bar 51 rotated is also good with each 90 degree of ground precision and easily change, and the delineation operation toward longitudinal direction and transverse direction can be implemented continuously.

On the other hand, once driven element motor 60 makes ball screw 62 toward rotating in the other direction, then saddle 30 is made to decline towards substrate.Once saddle 30 declines, then fill the magnet part 63a investing the bottom of ball screw and be separated with the magnet part 63b that dress invests the upper end of gyrator 42.Put on the revolving force of gyrator 42 before to the time point that magnet part 63a is separated with magnet part 63b, invest the one-way clutch 40 of the peripheral part of gyrator 42 by dress and outer barrel member 43 can not be reached.

That is, the revolving force of gyrator 42, all the time only pass on toward a direction by one-way clutch 40, therefore, even if make ball screw 62 rotate to make saddle 30 decline, the break bar 51 of 90-degree rotation and holder 50 in previous action, also can not rotate negative 90 degree, and maintain fixing state.

In addition, at the peripheral part of outer barrel member 43, as shown in Figure 2, be formed with sword front position and confirm groove 27, confirm that groove 27 is adjacent with sword front position and be provided with sword front end angle detecting detecting part 26.Therefore, it is possible to detect outer barrel member 43 and ball screw 62 and gyrator 42 whether together with correctly rotate, the break bar of the holder 50 be combined with the bottom of outer barrel member 43 51 whether correctly only 90-degree rotation.

When sword front position confirms that Wei Youren front end, the position angle detecting detecting part 26 of groove 27 detects, scoring device leaves standstill (setting) in the mode of stopping action.That is, even if produce the situation that holder 50 cannot be made to rotate, also delineation operation is not carried out by the signal error from sword front end angle detecting detecting part 26, therefore, it is possible to prevent break bar 51 from producing scratch (scuffings) etc. at substrate and producing the situation generation of substandard products in a large number.

In addition, as shown in Figure 2, in the present embodiment, in order to implement more accurate delineation operation, and the rotation be formed in the bottom of outer barrel member 43 in a lateral incision is in conjunction with groove 45, with rotate in conjunction with the upper end of the holder 50 of groove 45 relative position, be equipped with king pin 52, and be embedded in rotation in conjunction with groove 45.

Specifically, once outer barrel member 43 90-degree rotation, then the rotation being formed at its side, bottom in conjunction with groove 45 also toward equidirectional 90-degree rotation.Now, owing to rotating the king pin 52 having holder 50 in conjunction with groove 45 engaging, therefore king pin 52 is also similarly rotating, and holder 50 is also toward identical sense of rotation 90-degree rotation whereby.

In addition, in the present embodiment, rotate in conjunction with groove 45 and king pin 52, can't mutually be fitted together to limpingly, but with king pin 52 can be comfortable rotate minute angle mode be fitted together to relaxing a little.Its reason is as follows.That is, rotating the situation implementing the delineation operation of substrate under the state fully chimeric with king pin 52 in conjunction with groove 45, if break bar 51 not correctly 90-degree rotation, before the sword of then break bar 51, extreme direction is correctly not consistent with the travel direction of engraving head, probably there is the situation producing scratch at real estate, be therefore preferably dress and possess space with the holder of break bar 51 a little in peripheral direction.

The engraving head that mode as above is formed; use ball screw 62 that break bar 51 is elevated; the revolving force of ball screw 62 can be utilized simultaneously to make the angle of break bar 51 forcibly each 90-degree rotation, and the exactness of the delineation operation of substrate and swiftness can be guaranteed.Specifically, ball screw 62 is used to make saddle 30 increase while make dress invest break bar 51 90-degree rotation each time of holder 50, simultaneously thereupon by after sword front position confirms that the formation of groove 27 and sword front end angle detecting detecting part 26 confirms whether break bar 51 correctly rotates, only when the state that break bar 51 correctly rotates, just implement the delineation operation of substrate.

Especially, in the present embodiment, by the magnet part 24 on saddle 30 and the adhesion metal portion 25 in outer barrel member 43, revolving force can be made correctly to pass in the mode making the angle of rotation of outer barrel member 43 and become 90 degree.In addition, also or the situation that exceed not enough a little in the more determined angle of rotation of the angle of rotation of outer barrel member 43, the adhesion metal portion 25 of outer barrel member 43, if in the magnetic force falling into magnet part 24 scope in one's power, then attract by magnetic force, controlled by the mode automatically meeting angle of rotation, therefore, it is possible to the problem preventing the error of angle of rotation from causing produces.

The above, it is only preferred embodiment of the present invention, not any pro forma restriction is done to the present invention, although the present invention discloses as above with preferred embodiment, but and be not used to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the Equivalent embodiments of equivalent variations, in every case be the content not departing from technical solution of the present invention, according to any simple modification that technical spirit of the present invention is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (4)

1. there is an engraving head for cyclotron mechanism, have and the break bar being used for being formed substrate score line is held in rotatable holder, it is characterized in that, comprising:

Ball screw, rotates by driving means;

Saddle, the rotation by this ball screw is elevated; And

Gyrator, dress invests this saddle, and with the terminal part of this ball screw in conjunction with time rotate together with this ball screw;

At the terminal part of this ball screw, magnet part is set, and

In the end of this gyrator relative with the terminal part of ball screw, another magnet part of the polarity attracted each other with this magnet part is set.

2. there is the engraving head of cyclotron mechanism as claimed in claim 1, characterized by further comprising:

Outer barrel member, is connected with this holder; And

One-way clutch, is located between this gyrator and this outer barrel member, and only the revolving force in this gyrator direction is conveyed to this outer barrel member;

The peripheral part of this outer barrel member is made up of nonmagnetic material;

At the peripheral part of this outer barrel member, just every special angle is formed with adhesion metal portion;

At this saddle, forming magnet part with at least one relative position in this adhesion metal portion.

3. having the engraving head of cyclotron mechanism as claimed in claim 2, it is characterized in that, this adhesion metal portion, is the magnetic substance with the magnet part opposed polarity being formed at this saddle.

4. have the engraving head of cyclotron mechanism as claimed in claim 2 or claim 3, it is characterized in that, the magnet part being formed at this saddle is electro-magnet.