CN106424281B - Configure the glass mold bottom mould shock wave device on lathe - Google Patents

Abstract

A kind of to configure the glass mold bottom mould shock wave device on lathe, lathe includes：Machine tool body；Dragging plate mechanism, it is located on machine tool body；Chuck drive mechanism, it is located at the front end of machine tool body；Chuck, mechanism is connected with chuck drive；Glass mold bottom mould shock wave device includes rotary disk drive mechanism, rotary disk, plunger mechanism and drift guide rod actuating mechanism；Plunger mechanism includes leader casing fixed seat, leader casing, drift guide rod, drift and drift guide rod back-moving spring, leader casing fixed seat is fixed on leader casing fixed seat support plate, guide rod is set in leader casing fixed seat, drift guide rod is located on leader casing, its one end has cam to promote flange, drift is fixed on one end of drift guide rod, drift guide rod back-moving spring is placed on drift guide rod, its one end on one end of leader casing, the other end in cam promote flange on, drift guide rod actuating mechanism is located on leader casing fixed seat support plate.Reduce the quantity of shock wave instrument；Improve shock wave efficiency and quality.

Description

Configure the glass mold bottom mould shock wave device on lathe

Technical field

The invention belongs to glass mold processing equipment technical field, and in particular to a kind of to configure the glass mold on lathe Bottom mould shock wave device.

Background technology

As is known in the industry, the temperature of glass container such as red wine bottle, beer bottle, food seasoning bottle etc. of glass mold has just been come from It is higher, when being discharged by glass mold to output device such as conveyer belt, because between the bottom of glass container and output device The temperature difference be present and easily cause glass container to burst, therefore generally processed on the bottom mould of complete glass mold and be depressed in bottle The pit or dimpled grain on bed die surface, the process for forming the pit or dimpled grain are referred to as shock wave process, by shock wave formed pit or Dimpled grain improves radiating rate, significantly reduces the probability of glass container explosion, and is formed at the pit or recessed of glass container bottom Line can also make glass container play anti-skidding effect in use.

Shock wave is needed by corresponding device on the bottom mould of coloured glaze mould, and the configuration in prior art is on lathe The structure of glass mold bottom mould Knurling device as shown in Figure 5, including a lathe saddle 10, a hob plate bar 20 and a hob plate 30, lathe saddle 10 is fixed on lathe body when in use, and hob plate bar 20 is installed on lathe saddle 10, and the hobboing cutter One end of disk bar 20 leans out lathe saddle 10, and hob plate 30 is rotatably arranged at the one of hob plate bar 20 by hobboing cutter dish axle 301 End.When implementing annular knurl to bottom mould, bottom mould is clipped on to the three-jaw of the chuck drive mechanism of lathe by online assignment personnel On chuck, and make hob plate 30 corresponding with bottom mould by the adjustment to lathe carriage mechanism, drive it to clamp in scroll chuck Bottom mould rotary state under, by hob plate 30 to bottom mould implement annular knurl.

And then as is known in the industry, due to the decorative pattern on bottom mould（The general designation of i.e. foregoing pit and dimpled grain）There is multiple tracks（Also may be used Claim multi-turn）, on the basis of the center of circle of bottom mould, the distance between every one of decorative pattern and foregoing center of circle are different, are more proximate to The center of circle, then the diameter of the pattern ring formed by decorative pattern is smaller, and vice versa.Then when foregoing hob plate 30（Also referred to as knurling tool）It is complete Into after an i.e. circle annular knurl together, the hob plate 30 of different specification size need to be changed, if decorative pattern has ten, then hob plate 30 has Ten of different-diameter, for setting the hob plate bar 20 of hob plate 30 also should mutually have ten.It follows that using dress shown in Fig. 5 Put and following drawback be present to bottom mould annular knurl：First, the quantity of the hob plate 30 due to hob plate bar 20 and assembling thereon is more, because And cause management trouble and cost it is big；Second, because worker should consider angle when changing hob plate 30, two are taken into account again The distance between adjacent pattern ring and the vertical factor for being also noted that correlation, thus worker manipulation strength is big and efficiency It is low, particularly slipped up once controlling the distance between two adjacent pattern rings, then easily annular knurl quality problems occur, such as occur Rotten tooth, causes bottom mould to be scrapped when serious；Third, because regulating degree when changing hob plate 30 every time is to hob plate bar 20 Manual adjustment degree be not quite similar, thus the weight of the decorative pattern rolled out can not ensure, such as previous piece of hob plate 30 Depth difference be present with the decorative pattern that latter piece of hob plate 30 rolls out in the decorative pattern rolled out.

Applicant carried out literature search, but it is showed no in China and foreign countries' patent disclosed so far and non-patent literature All reports for being eliminated aforementioned technical problem, for this, the applicant has made lasting and beneficial exploration and design, forms down The technical scheme that face will the be introduced and test center in the case where taking secrecy provision in the applicant is tested, as a result It is proved to be practicable.

The content of the invention

The task of the present invention is to provide one drift of a kind of need, and that diameter can be gone out on bottom mould is different according to needing The decorative pattern of the number of turns and using substantially reduces the quantity of shock wave instrument, need not carry out changing drift and using significantly during shock wave Reduce the operation intensity of operator and improve shock wave efficiency, help to ensure power of the drift to same bottom mould punching decorative pattern The uniformity of degree and use glass mold bottom mould shock wave device of the configuration on lathe for improving shock wave quality.

What the task of the present invention was performed by, it is a kind of to configure the glass mold bottom mould shock wave device on lathe, Described lathe includes：One machine tool body；One dragging plate mechanism, the dragging plate mechanism are arranged on machine tool body；One chuck drive machine Structure, the chuck drive mechanism are arranged on the front end of machine tool body in the position in the front corresponding to the dragging plate mechanism；One chuck, The chuck is connected with the chuck drive mechanism；Described glass mold bottom mould shock wave device includes single-revolution dish driving machine Structure, single-revolution disk, a plunger mechanism and a drift guide rod actuating mechanism, rotary disk drive mechanism are arranged on the dragging plate mechanism On, the top that rotary disk corresponds to rotary disk drive mechanism sets and is connected with rotary disk drive mechanism, in the rotary disk court Upward side is fixed with a leader casing fixed seat support plate；Plunger mechanism includes a leader casing fixed seat, a leader casing, a punching Head guide rod, a drift and a drift guide rod back-moving spring, leader casing fixed seat are fixed on the leader casing fixed seat support plate, Guide rod is set in leader casing fixed seat, and drift guide rod is reciprocatingly arranged on leader casing, and in the drift guide rod Flange is promoted formed with a cam towards one end of drift guide rod actuating mechanism, drift is fixed on drift guide rod towards the chuck One end, drift guide rod back-moving spring is nested with drift guide rod, and one end of the drift guide rod back-moving spring is supported on institute Leader casing is stated towards on the end face of one end of drift guide rod actuating mechanism, and the other end of drift guide rod back-moving spring be supported on it is convex Wheel is promoted on flange, and drift guide rod actuating mechanism is arranged on described in the position of the rear side corresponding to the leader casing fixed seat Hp contacts are promoted on leader casing fixed seat support plate and with described cam.

In the specific embodiment of the present invention, a saddle left side is fixed with the left upper portion of the machine tool body Guide rail, and the right upper portion in machine tool body is fixed with the right guide rail of a saddle, and formed in the upper front end of machine tool body There is chuck drive mechanism seat, described chuck drive mechanism is arranged on the top of the chuck drive mechanism seat；Described planker machine Structure includes saddle, saddle moves forward and backward leading screw, saddle moves forward and backward leading screw motor, upper slide rest, upper slide rest or so Displacement leading screw and upper slide rest left and right displacement leading screw motor, the left end of saddle slides with described saddle left rail matches somebody with somebody Close, and the right-hand member of saddle is slidably matched with the right guide rail of described saddle, saddle moves forward and backward the front-end and back-end of leading screw It is rotatably supported at the right side of the machine tool body and is moved forward and backward in the saddle and saddle connection is provided with leading screw Nut, saddle attaching nut fix the side with saddle under, and saddle moves forward and backward leading screw motor right It should be fixed in the position for the rear end that saddle moves forward and backward leading screw on machine tool body and move forward and backward leading screw with saddle Rear-end transmission connects, and upper slide rest movably slides the top for being disposed in saddle, the left end of upper slide rest left and right displacement leading screw It is rotatably supported at right-hand member on saddle, and upper slide rest connection spiral shell is provided with the upper slide rest left and right displacement leading screw Mother, upper slide rest attaching nut fix the side with upper slide rest under, and upper slide rest left and right displacement leading screw motor is corresponding Fixed in the position of left end of upper slide rest left and right displacement leading screw and the left end of saddle, described rotary disk drive mechanism with it is described Upper slide rest is fixed towards upper side, and one end of leader casing fixed seat support plate towards the chuck leans out described revolution Disk.

In another specific embodiment of the present invention, described saddle moves forward and backward leading screw motor and small Planker left and right displacement leading screw motor is the motor with positive and negative rotating function.

In another specific embodiment of the present invention, described chuck drive mechanism includes headstock, chuck drive Motor and chuck drive reduction box, headstock are fixed on described chuck drive mechanism seat, and chuck drive motor drives with chuck Dynamic reduction box transmission coordinates and fixed by front side of the chuck drive reduction box together with chuck drive motor and headstock, and chuck drives The rear end of the chuck drive reduction box power output shaft of dynamic reduction box is stretched over the rear side of headstock, and described chuck is fixed on card The rear end of dish driving reduction box power output shaft.

In another specific embodiment of the present invention, described chuck drive motor is servomotor, described card Dish driving reduction box is worm reduction box.

In the also specific embodiment of the present invention, described rotary disk drive mechanism is consolidated including worm gear case Reservation, revolution dish driving worm gear case and revolution disk-drive motor, worm gear case fixed seat and the upper slide rest are towards upper Side fix, revolution disk-drive motor coordinates and by revolution dish driving worm gear snail with revolution dish driving worm gear case transmission Bar case is fixed in worm gear case fixed seat together with revolution disk-drive motor, turns round the worm-wheel shaft of dish driving worm gear case Upper end, which is stretched over outside the casing of revolution dish driving worm gear case and formed, a flat key, the middle position of described rotary disk It is fixedly connected with the flat key of the upper end of worm-wheel shaft.

In a still more specific embodiment of the invention, described revolution disk-drive motor is with positive and negative rotating function Servomotor.

The present invention's and then in a specific embodiment, described drift guide rod actuating mechanism includes support, shaft coupling Device seat, cam, camshaft, coupling band and camshaft actuated motor, support is in the rear side corresponding to the leader casing fixed seat Position is fixed on the leader casing fixed seat support plate, and the top of shaft coupling seat and support is fixed, and cam is formed directly into convex The middle part of wheel shaft, and the cam promotes Hp contacts with the cam, and the upper end of camshaft passes through bearing support on camshaft It is rotatably supported at the top of support and extends to the shaft coupling seat intracavitary of shaft coupling seat, passes through cam in the lower end of camshaft Axle lower support bearing is rotatably supported on the leader casing fixed seat support plate, and camshaft actuated motor is fixed on shaft coupling seat Top, towards lower and be stretched over shaft coupling seat intracavitary, coupling band is located at shaft coupling for the motor shaft of the camshaft actuated motor Seat intracavitary, the upper end connection of the motor shaft and coupling band, the upper end of the camshaft and the lower end of coupling band connect.

In yet a further embodiment of the present invention in the length direction of described leader casing fixed seat Centre is penetrated to rear side formed with a guide rod mantle cavity, the front side of the guide rod mantle cavity self-conductance rod set fixed seat, and described leader casing is set Guide rod mantle cavity is leant out in the front end of leader casing intracavitary and the leader casing, it is spacing that a drift guide rod is provided with the front end of leader casing Screw, a leader casing stopper slot is offered towards upper side at the middle part of leader casing, on the top of the leader casing fixed seat And leader casing stop screw is equipped with the position corresponding to leader casing stopper slot, the leader casing stop screw is insinuated into guide rod Cover in stopper slot, a drift guide rod is offered on the drift guide rod and in the position corresponding to drift guide rod stop screw Reciprocating stroke stopper slot, drift guide rod stop screw are probeed into the drift guide rod reciprocating stroke stopper slot, and in drift guide rod Front end be provided with drift fixed seat mating screw thread, the drift towards drift guide rod one end form have a drift fixed seat, should Drift fixed seat is screwed with the mating of drift fixed seat.

In the present invention again and then in a specific embodiment, described revolution disk-drive motor is equipped with a motor for preventing Shield, the motor shield are fixed with the revolution dish driving worm gear case.

One of technique effect of technical scheme that this hair is provided with, because the drift guide rod by being arranged on rotary disk activates Mechanism is acted on the plunger mechanism being similarly disposed on rotary disk, drives drift to move back and forth by drift guide rod, and due to revolution Dish driving mechanism can make the angle needed for rotary disk revolution, thus need to only use drift to be clipped on it is on chuck and by Chuck drives the shock wave of the number of turns needed for the glass mold bottom mould completion of rotation, need not change drift in whole process, can subtract The quantity of Shaochong worker employed in a plant nursery tool；Two, due to drift need not be changed during shock wave, thus can not only significantly improve shock wave effect Rate, and the operation intensity of operator can be reduced；Three, due to without frequently change and clamp drift, thus can ensure that The uniformity of shock wave dynamics, improve shock wave quality.

Brief description of the drawings

Fig. 1 is embodiments of the invention structure chart.

Fig. 2 is the sectional view of the rotary disk drive mechanism and drift guide rod actuating mechanism shown in Fig. 1.

Fig. 3 is Fig. 1 top view.

Fig. 4 is by the sectional view of the glass mold bottom mould after present invention completion shock wave.

Fig. 5 is the structure chart of glass mold bottom mould Knurling device of the configuration on lathe in prior art.

Embodiment

In order to which the technical spirit and beneficial effect of the present invention is more clearly understood, applicant is below with embodiment Mode elaborate, but the description to embodiment is not the limitation to the present invention program, any according to structure of the present invention Think made only formal rather than substantial equivalent transformation and be regarded as technical scheme category.

The concept of the every directionality for being related to upper, lower, left, right, front and rear or directionality is all in the following description On the basis of at present by Fig. 1 state in which, thus it can not be understood as to the special of technical scheme provided by the invention Limit.

Fig. 1 is referred to, shows a machine tool body 1 of the structural system for belonging to lathe；A dragging plate mechanism 2 is shown, should Dragging plate mechanism 2 is arranged on machine tool body 1；A chuck drive mechanism 3 is shown, the chuck drive mechanism 3 is corresponding to foregoing The position in the front of dragging plate mechanism 2 is arranged on the front end of machine tool body 1；A chuck 4 is shown, the chuck 4 drives with aforementioned chuck Motivation structure 3 connects, and the chuck 4 is scroll chuck, also show the claw 41 on chuck 4 in Fig. 1（Three）.

Continue to see Fig. 1, show the glass mold bottom of bottle stamping as the technical essential of technical scheme provided by the invention The structural system of embossing device such as lower component：Single-revolution dish driving mechanism 5, single-revolution disk 6, a plunger mechanism 7 and a drift are led Bar actuating mechanism 8, rotary disk drive mechanism 5 are arranged on foregoing dragging plate mechanism 2, and rotary disk 6 corresponds to rotary disk driving machine The top of structure 5 sets and is connected with rotary disk drive mechanism 5, in the rotary disk 6 towards upper side by supporting plate bolt 611 are fixed with a leader casing fixed seat support plate 61；Plunger mechanism 7 includes a leader casing fixed seat 71, a leader casing 72, one rushes Head guide rod 73, a drift 74 and a drift guide rod back-moving spring 75, leader casing fixed seat 71 pass through leader casing fixed seat screw 713 It is fixed on foregoing leader casing fixed seat support plate 61, leader casing 72 is arranged in leader casing fixed seat 71, and drift guide rod 73 is past It is movably arranged at again on leader casing 72（It is arranged in leader casing 72）, and caused in the drift guide rod 73 towards drift guide rod One end of motivation structure 8（The rear end of location status shown in Fig. 1）Flange 731 is promoted formed with a cam, drift 74 is fixed on drift Guide rod 73 is nested with drift guide rod 73 towards one end of aforementioned chuck 4, drift guide rod back-moving spring 75, and the drift guide rod One end of back-moving spring 75 is that front end is supported on foregoing leader casing 72 towards on the end face of one end of drift guide rod actuating mechanism 8, It is supported on the rear end end face of leader casing 72, and the other end of drift guide rod back-moving spring 75 is supported on cam and promotes flange On 731, drift guide rod actuating mechanism 8 is arranged on foregoing guide rod in the position of the rear side corresponding to foregoing leader casing fixed seat 71 Flange 731 is promoted to contact on set fixed seat support plate 61 and with foregoing cam.

Continue to see Fig. 1, a saddle left rail 11 is fixed with the left upper portion of foregoing machine tool body 1, and in machine tool The right upper portion of body 1 is fixed with the right guide rail 12 of a saddle, and has chuck drive machine in the upper front end composition of machine tool body 1 Structure seat 13, foregoing chuck drive mechanism 3 are arranged on the top of the chuck drive mechanism seat 13.

See Fig. 2 and combine Fig. 1, foregoing dragging plate mechanism 2 includes saddle 21, saddle moves forward and backward leading screw 22, big Planker moves forward and backward leading screw motor 23, upper slide rest 24, upper slide rest left and right displacement leading screw 25 and upper slide rest left and right displacement leading screw Motor 26, the left end of saddle 21 are slidably matched with foregoing saddle left rail 11, and the right-hand member of saddle 21 is with before The right guide rail 12 of saddle stated is slidably matched, and the front-end and back-end that saddle moves forward and backward leading screw 22 are rotatably supported at foregoing machine The right side of bed bed body 1 and moved forward and backward in the saddle saddle attaching nut 221 is provided with leading screw 22（Fig. 2 shows）, Saddle attaching nut 221 fixes the side with saddle 21 under, and saddle moves forward and backward leading screw motor 23 and existed The position that the rear end of leading screw 22 is moved forward and backward corresponding to saddle is fixed on machine tool body 1 and moves forward and backward silk with saddle The rear-end transmission connection of thick stick 22, upper slide rest 24 movably slide the top for being disposed in saddle 21, upper slide rest left and right displacement Leading screw 25（Fig. 2 shows）Left end and right-hand member be rotatably supported on saddle 21, and in the upper slide rest left and right displacement leading screw 25 On be provided with a upper slide rest attaching nut 251（Fig. 2 shows）, upper slide rest attaching nut 251 and side of the upper slide rest 24 under Fixed, upper slide rest left and right displacement leading screw motor 26 is in the position of the left end corresponding to upper slide rest left and right displacement leading screw 25 and greatly The left end of planker 21 is fixed, and foregoing rotary disk drive mechanism 5 is fixed with foregoing upper slide rest 24 towards upper side, foregoing guide rod Set fixed seat support plate 61 leans out foregoing rotary disk 6 towards one end of aforementioned chuck 4.

As shown in Figure 1, being formed on the top of the length direction of foregoing saddle 21 has a upper slide rest guide rail 211, foregoing The upper slide rest guide runners 241 of the two bottom sides that pass through its length direction of upper slide rest 24 be slidably matched with upper slide rest guide rail 211.

When saddle, which moves forward and backward leading screw motor 23, to work, saddle is driven to move forward and backward 22 turns of leading screw by it It is dynamic, leading screw 22 is moved forward and backward by the saddle drive saddle attaching nut 221 to be moved forward and backward in saddle and moved on leading screw 22, Because saddle attaching nut 221 and saddle 21 fix, thus before and after driving saddle 21 by saddle attaching nut 22 Displacement.Because upper slide rest 24 and saddle 21 are slidably matched, i.e., upper slide rest 24 is mounted on saddle 21, thus in saddle 21 Drive upper slide rest 24 also accordingly to move forward and backward by saddle when moving forward and backward, be the revolution dish driving that carrier is set with upper slide rest 24 Mechanism 5 equally makees corresponding displacement, 8 same example of foregoing rotary disk 6, plunger mechanism 7 and drift guide rod actuating mechanism.Saddle 21 forward i.e. towards chuck 4 direction displacement or towards the direction displacement away from chuck 4 depend on saddle anteroposterior position backward Move the forward or reverse of leading screw motor 23.

When upper slide rest left and right displacement leading screw motor 26 works, 25 turns of upper slide rest left and right displacement leading screw is driven by it It is dynamic, drive upper slide rest attaching nut 251 to be moved on upper slide rest left and right displacement leading screw 25 by the upper slide rest left and right displacement leading screw 25, Because upper slide rest attaching nut 251 and upper slide rest 24 fix, thus upper slide rest 24 or so is driven by upper slide rest attaching nut 251 Displacement.Rotating forward or anti-of the running of 24 leftward or rightward displacement of upper slide rest depending on upper slide rest left and right displacement leading screw motor 26 Turn.The purpose of the left and right displacement of upper slide rest 24 is：Make foregoing drift 74 be aligned clamp on the claw 41 of chuck 4 by Fig. 4 The region of the glass mold bottom mould 9 of signal.

Leading screw motor 23 and upper slide rest left and right displacement leading screw are moved forward and backward according to saddle described above, foregoing Motor 26 is the motor with positive and negative rotating function.

Continue to see that the foregoing chuck drive mechanisms 3 of Fig. 1 include headstock 31, chuck drive motor 32 and chuck drive and slowed down Case 33, the bottom of headstock 31 is by headstock screw 311 corresponding to the chuck drive being preset on chuck drive support 13 The position of mechanism seat fixing threaded hole 131 is fixed on chuck drive mechanism seat 13, and chuck drive motor 32 is with horizontal horizontally-arranged state It is driven and coordinates and by chuck drive reduction box 33 together with chuck drive motor 32 and headstock 31 with chuck drive reduction box 33 Front side fix, after the rear end of the chuck drive reduction box power output shaft of chuck drive reduction box 33 is stretched over headstock 31 Side, foregoing chuck 4 are fixed on the rear end of chuck drive reduction box power output shaft.

When chuck drive motor 32 works, chuck drive reduction box 33 is driven by it, subtracted by chuck drive reduction box 33 Speed and by its chuck drive reduction gearbox output shaft drive chuck 4 move, in the glass mold bottle that state is clamped by claw 41 Bed die 9 is also corresponding to be rotated.

In the present embodiment, foregoing chuck drive motor 32 is servomotor, and foregoing chuck drive reduction box 33 is Worm reduction box.

Continue to see Fig. 1 and Fig. 2, foregoing rotary disk drive mechanism 5 includes worm gear case fixed seat 51, revolution dish driving Worm gear case 52 and revolution disk-drive motor 53, worm gear case fixed seat 51 pass through worm gear case fixed seat screw 511 Fixed with foregoing upper slide rest 24 towards upper side, revolution disk-drive motor 53 is with horizontal horizontally-arranged state and revolution dish driving worm gear The transmission of worm screw case 52 coordinates and is fixed on worm gear snail together with revolution disk-drive motor 53 by revolution dish driving worm gear case 52 In bar case fixed seat 51, foregoing worm and gear block 51 is preferably integrally formed in the bottom of revolution dish driving worm gear case 52 And as the fixed seat or fixed plate of revolution dish driving worm gear case 52.As shown in Figure 2, dish driving worm gear case is turned round The upper end of 52 worm-wheel shaft 521, which is stretched over outside the casing of revolution dish driving worm gear case 52 and formed, a flat key 5211, The middle position of foregoing rotary disk 6 is fixedly connected with the foregoing flat key 5211 of the upper end of worm-wheel shaft 521.

The worm screw 522 of the structural system of revolution dish driving worm gear case 52 is also show in fig. 2, and is being shown It is arranged on a pressure bearing 5212 on the top of worm-wheel shaft 521 and a bearing support 5213 of bottom.

When turning round the work of disk-drive motor 53, worm screw 522 is driven by it, the fixation engaged is driven by worm screw 522 Worm gear 523 on worm-wheel shaft 521, worm-wheel shaft 521 is driven by worm gear 523, foregoing rotary disk 6 is driven by worm shaft 521, returned Rotating disk 6 depends on the forward or reverse of revolution disk-drive motor 53 to required angle is rotated clockwise or counterclockwise, by This understands that foregoing revolution disk-drive motor 53 is the servomotor with positive and negative rotating function.

As preferable scheme, as shown in Figure 1, a motor shield is equipped with to foregoing revolution disk-drive motor 53 531, the motor shield 531 is fixed with foregoing revolution dish driving worm gear case 52.

Continue to see Fig. 1 and Fig. 2, foregoing drift guide rod actuating mechanism 8 includes support 81, shaft coupling seat 82, cam 83, convex Wheel shaft 84, coupling band 85 and camshaft actuated motor 86, support 81 is in the position of the rear side corresponding to foregoing leader casing fixed seat 71 Put and be fixed on using bracket screw 811 on foregoing leader casing fixed seat support plate 61, the shaft coupling that shaft coupling seat 82 passes through its underpart Device seat fixing screws 822（Fig. 1 shows）To be fixed with the top of support 81, cam 83 is formed directly into the middle part of camshaft 84, and The cam 83 and aforementioned cam promote flange 731 to contact, the upper end of camshaft 84 by bearing support on camshaft 841 rotationally It is supported on the top of support 81 and extends in the shaft coupling seat chamber 821 of shaft coupling seat 82, passes through in the lower end of camshaft 84 convex Wheel shaft lower support bearing 842 is rotatably supported on foregoing leader casing fixed seat support plate 61, and camshaft actuated motor 86 uses Motor fixing screws 862 are fixed on the top of shaft coupling seat 82, the motor shaft 861 of the camshaft actuated motor 86 towards lower and It is stretched in shaft coupling seat chamber 821, coupling band 85 is located in shaft coupling seat chamber 821, and aforementioned motor axle 861 is upper with coupling band 85 End connection, the upper end of aforementioned cam axle 84 is connected with the lower end of coupling band 85.

The motor shaft support bearing 8611 that power supply arbor 861 is supported on the top of shaft coupling seat 82 is also show in fig. 2.

When camshaft actuated motor 86 works, camshaft 84 is driven by coupling band 85 by motor shaft 861, by camshaft 84 band moving cams 83, promote cam to promote flange 731, move drift guide rod 73 by cam 83.

Continue to see Fig. 1, foregoing leader casing fixed seat 71 length direction center formed with a guide rod mantle cavity 711, The guide rod mantle cavity 711 is penetrated to rear side from the front side of leader casing fixed seat 71, and foregoing leader casing 72 is arranged on guide rod mantle cavity 711 Interior and the leader casing 72 front end leans out guide rod mantle cavity 711, and a spacing spiral shell of drift guide rod is provided with the front end of leader casing 72 Nail 721, offers a leader casing stopper slot 722, in foregoing leader casing fixed seat at the middle part of leader casing 72 towards upper side 71 top and leader casing stop screw 712 is equipped with the position corresponding to leader casing stopper slot 722, the leader casing is spacing Screw 712 is insinuated into leader casing stopper slot 722, on foregoing drift guide rod 73 and corresponding to drift guide rod stop screw 721 position offers a drift guide rod reciprocating stroke stopper slot 732, and drift guide rod stop screw 721 probes into the drift guide rod In reciprocating stroke stopper slot 732, and drift fixed seat mating screw thread 733, foregoing drift are provided with the front end of drift guide rod 73 74 form towards one end of drift guide rod 73 and have a drift fixed seat 741, the drift fixed seat 741 and drift fixed seat mating spiral shell Line 733 is fixed.

When foregoing cam 83 acts on cam promotion flange 731 and makes drift 73 anterior displacement of guide rod, led by drift Bar 73 drives the foregoing anterior displacement of drift 74 to the shock wave of bottle glass mould bottom mould 9, when cam 83 do not act on cam promote it is convex During edge 731, the rearward displacement of drift guide rod 73 is set to reply or reset by drift guide rod back-moving spring 75.Before drift guide rod 73 Mobile range is limited at the flute length scope of foregoing drift guide rod reciprocating stroke stopper slot 732 afterwards.

Refer to Fig. 3 and Fig. 4 and combine Fig. 1 and Fig. 2, applicant describes the shock wave process of the present invention, referring first to figure 4, Fig. 4 show the glass mold bottom mould 9 having already mentioned above, and also show and be formed on glass mold bottom of bottle plate 9 Decorative pattern 91.Secondly, applicant is explained as follows to foregoing decorative pattern 91：So-called decorative pattern 91 is substantially to surround glass mold bottom of bottle The side of mould 9（Under use state towards glass mold die cavity side, also referred to as inner side）Circumferencial direction go out it is micro- sunken Pit, spacing is maintained between adjacent pit and generally forms a ring-type built by interrupted pit, the ring-type has According to a plurality of of quantity are needed, on the basis of the center of circle of glass mold bottom mould 9, the center of circle is more proximate to, the diameter of ring-type is smaller, and Away from the center of circle, then the diameter of ring-type is bigger.

When to glass mold 9 shock wave of bottom mould, clamped by online assignment personnel on claw 41, in aforementioned chuck Chuck 4 is rotated under the work of the chuck drive motor 32 of the structural system of drive mechanism 3, is clamped in the glass molds on claw 41 Tool bottom mould 9 also rotates.The camshaft actuated motor 86 of the structural system of drift guide rod actuating mechanism 8 works simultaneously, according to Shen Ask someone to move back and forth drift guide rod 73 operating principle described in drift guide rod actuating mechanism 8 above, drive drift 74 Correspondingly move back and forth, when the direction of drift 74 to glass mold bottom mould 9 is moved and is rushed and during glass mold bottom mould 9, then Decorative pattern 91 is gone out on glass mold bottom mould 9 by drift 74, because chuck 4 is rotated by technological requirement rhythmicity, thus The decorative pattern that a circle has described above can be formed on glass mold bottom mould 9.After the completion of a circle pattern punching, driven by rotary disk The revolution disk-drive motor 53 of motivation structure 5 works, by applicant in the description to the action process of rotary disk drive mechanism 5 above And rotary disk 6 is set to turn over an angle（Such as shown in Figure 3）, due to whole plunger mechanism 7 and drift guide rod actuating mechanism 8 It is equipped on the leader casing fixed seat support plate 61 fixed with rotary disk 6, thus leader casing fixed bearing is driven in rotary disk 6 When plate 61 turns over an angle, foregoing drift 74 also accordingly turns over an angle, so as to be gone out on glass mold bottom mould 9 The decorative pattern 91 of another road aforementioned cyclic, the like push away and until complete needed for road number decorative pattern 91.After completing shock wave, shutting down Under state, i.e., by the glass molds after shock wave in the state of chuck drive motor 32 and camshaft actuated motor 86 are stopped Tool bottom mould 9 unloads from chuck 4 and clamps next glass mold bottom mould 9 up for shock wave thereon.In foregoing punching During flower, the velocity of rotation of chuck 4 be with the operating rate of camshaft actuated motor 86 i.e. with 74 reciprocating speed of drift What degree was adapted, such as one on glass mold bottom mould 9（One circle）When decorative pattern is made up of 40 pits, then in this road Pattern area, the number of the punching press of drift 74 are 40 times, and chuck 4 often turns over an angle, and drift 74 just rushes and once.

In summary, technical scheme provided by the invention compensate for the shortcoming in prior art, favorably accomplish invention Task, the technique effect referred in the superincumbent technique effect column of applicant is faithfully cashed.

Claims (10)

1. a kind of configure the glass mold bottom mould shock wave device on lathe, described lathe includes：One machine tool body (1)； One dragging plate mechanism (2), the dragging plate mechanism (2) are arranged on machine tool body (1)；One chuck drive mechanism (3), the chuck drive machine Structure (3) is arranged on the front end of machine tool body (1) in the position in the front corresponding to the dragging plate mechanism (2)；One chuck (4), should Chuck (4) is connected with the chuck drive mechanism (3)；It is characterized in that described glass mold bottom mould shock wave device includes one Rotary disk drive mechanism (5), single-revolution disk (6), a plunger mechanism (7) and a drift guide rod actuating mechanism (8), turn round dish driving Mechanism (5) is arranged on the dragging plate mechanism (2), rotary disk (6) correspond to rotary disk drive mechanism (5) top set and It is connected with rotary disk drive mechanism (5), a leader casing fixed seat support plate is fixed with towards upper side in the rotary disk (6) (61)；Plunger mechanism (7) includes a leader casing fixed seat (71), a leader casing (72), a drift guide rod (73), a drift (74) With a drift guide rod back-moving spring (75), leader casing fixed seat (71) is fixed on the leader casing fixed seat support plate (61), Leader casing (72) is arranged in leader casing fixed seat (71), and drift guide rod (73) is reciprocatingly arranged on leader casing (72), And promote flange (731), punching formed with a cam towards one end of drift guide rod actuating mechanism (8) in the drift guide rod (73) Head (74) is fixed on the one end of drift guide rod (73) towards the chuck (4), and drift guide rod back-moving spring (75) is nested with drift On guide rod (73), and one end of the drift guide rod back-moving spring (75) is supported on the leader casing (72) and caused towards drift guide rod On the end face of one end of motivation structure (8), and the other end of drift guide rod back-moving spring (75) is supported on cam and promotes flange (731) On, drift guide rod actuating mechanism (8) is arranged on described lead in the position of the rear side corresponding to the leader casing fixed seat (71) Flange (731) is promoted to contact on rod set fixed seat support plate (61) and with described cam.

2. glass mold bottom mould shock wave device of the configuration according to claim 1 on lathe, it is characterised in that in institute The left upper portion for stating machine tool body (1) is fixed with a saddle left rail (11), and the right upper portion in machine tool body (1) is fixed There is the right guide rail of a saddle (12), and have chuck drive mechanism seat (13) in the upper front end composition of machine tool body (1), it is described Chuck drive mechanism (3) be arranged on the top of the chuck drive mechanism seat (13)；Described dragging plate mechanism (2) includes saddle (21), saddle moves forward and backward leading screw (22), saddle moves forward and backward leading screw motor (23), upper slide rest (24), upper slide rest Left and right displacement leading screw (25) and upper slide rest left and right displacement leading screw motor (26), the left end of saddle (21) drag greatly with described Plate left rail (11) is slidably matched, and the right-hand member of saddle (21) is slidably matched with the described right guide rail of saddle (12), drags greatly The front-end and back-end that plate moves forward and backward leading screw (22) are rotatably supported at the right side of the machine tool body (1) and in the saddle Move forward and backward and a saddle attaching nut (221), saddle attaching nut (221) and saddle are provided with leading screw (22) (21) side under is fixed, and saddle moves forward and backward leading screw motor (23) and moving forward and backward leading screw corresponding to saddle (22) position of rear end is fixed on machine tool body (1) and the rear-end transmission company of leading screw (22) is moved forward and backward with saddle Connect, upper slide rest (24) movably slides the top for being disposed in saddle (21), a left side for upper slide rest left and right displacement leading screw (25) End and right-hand member are rotatably supported on saddle (21), and are provided with the upper slide rest left and right displacement leading screw (25) one and small are dragged Plate attaching nut (251), upper slide rest attaching nut (251) fix the side with upper slide rest (24) under, upper slide rest or so Displacement leading screw motor (26) is in the position of the left end corresponding to upper slide rest left and right displacement leading screw (25) and saddle (21) Left end is fixed, and described rotary disk drive mechanism (5) is fixed with the upper slide rest (24) towards upper side, and the leader casing is consolidated One end of reservation support plate (61) towards the chuck (4) leans out described rotary disk (6).

3. glass mold bottom mould shock wave device of the configuration according to claim 2 on lathe, it is characterised in that described Saddle move forward and backward leading screw motor (23) and upper slide rest left and right displacement leading screw motor (26) is to have just The motor of reverse function.

4. glass mold bottom mould shock wave device of the configuration according to claim 2 on lathe, it is characterised in that described Chuck drive mechanism (3) include headstock (31), chuck drive motor (32) and chuck drive reduction box (33), headstock (31) it is fixed on described chuck drive mechanism seat (13), chuck drive motor (32) is driven with chuck drive reduction box (33) Coordinate and fixed by front side of the chuck drive reduction box (33) together with chuck drive motor (32) and headstock (31), chuck drives The rear end of the chuck drive reduction box power output shaft of dynamic reduction box (33) is stretched over the rear side of headstock (31), described chuck (4) it is fixed on the rear end of chuck drive reduction box power output shaft.

5. glass mold bottom mould shock wave device of the configuration according to claim 4 on lathe, it is characterised in that described Chuck drive motor (32) be servomotor, described chuck drive reduction box (33) is worm reduction box.

6. glass mold bottom mould shock wave device of the configuration according to claim 2 on lathe, it is characterised in that described Rotary disk drive mechanism (5) include worm gear case fixed seat (51), revolution dish driving worm gear case (52) and rotary disk Motor (53), worm gear case fixed seat (51) are fixed with the upper slide rest (24) towards upper side, turn round dish driving Motor (53) with revolution dish driving worm gear case (52) transmission coordinate and by revolution dish driving worm gear case (52) together with Revolution disk-drive motor (53) is fixed in worm gear case fixed seat (51), the worm gear of revolution dish driving worm gear case (52) The upper end of axle (521), which is stretched over outside the casing of revolution dish driving worm gear case (52) and formed, a flat key (5211), institute The middle position for the rotary disk (6) stated is fixedly connected with the flat key (5211) of the upper end of worm-wheel shaft (521).

7. glass mold bottom mould shock wave device of the configuration according to claim 6 on lathe, it is characterised in that described Revolution disk-drive motor (53) be the servomotor with positive and negative rotating function.

8. glass mold bottom mould shock wave device of the configuration according to claim 1 on lathe, it is characterised in that described Drift guide rod actuating mechanism (8) include support (81), shaft coupling seat (82), cam (83), camshaft (84), coupling band (85) With camshaft actuated motor (86), support (81) is fixed on institute in the position of the rear side corresponding to the leader casing fixed seat (71) State on leader casing fixed seat support plate (61), the top of shaft coupling seat (82) and support (81) is fixed, and cam (83) is directly formed In the middle part of camshaft (84), and the cam (83) promotes flange (731) to contact with the cam, the upper end of camshaft (84) The top of support (81) is rotatably supported at by bearing support on camshaft (841) and extends to the connection of shaft coupling seat (82) In axle device seat chamber (821), described lead is rotatably supported at by camshaft lower support bearing (842) in the lower end of camshaft (84) On rod set fixed seat support plate (61), camshaft actuated motor (86) is fixed on the top of shaft coupling seat (82), and the camshaft drives For the motor shaft (861) of dynamic motor (86) towards lower and be stretched in shaft coupling seat chamber (821), coupling band (85) is located at shaft coupling In seat chamber (821), the motor shaft (861) is connected with the upper end of coupling band (85), the upper end of the camshaft (84) and shaft coupling Cover the lower end connection of (85).

9. glass mold bottom mould shock wave device of the configuration according to claim 1 on lathe, it is characterised in that in institute The center of the length direction for the leader casing fixed seat (71) stated is formed with a guide rod mantle cavity (711), guide rod mantle cavity (711) self-conductance The front side of rod set fixed seat (71) is penetrated to rear side, and described leader casing (72) is arranged in guide rod mantle cavity (711) and this is led The front end of rod set (72) leans out guide rod mantle cavity (711), and a drift guide rod stop screw is provided with the front end of leader casing (72) (721) a leader casing stopper slot (722), is offered towards upper side at the middle part of leader casing (72), is consolidated in the leader casing The top of reservation (71) and leader casing stop screw (712) is equipped with the position corresponding to leader casing stopper slot (722), should Leader casing stop screw (712) is insinuated into leader casing stopper slot (722), on the drift guide rod (73) and corresponding to The position of drift guide rod stop screw (721) offers a drift guide rod reciprocating stroke stopper slot (732), the spacing spiral shell of drift guide rod Nail (721) is probeed into the drift guide rod reciprocating stroke stopper slot (732), and is consolidated in the front end of drift guide rod (73) provided with drift Reservation mating screw thread (733), the drift (74) is formed towards one end of drift guide rod (73) a drift fixed seat (741), The drift fixed seat (741) is fixed with drift fixed seat mating screw thread (733).

10. glass mold bottom mould shock wave device of the configuration according to claim 6 on lathe, it is characterised in that described Revolution disk-drive motor (53) be equipped with a motor shield (531), the motor shield (531) and the revolution dish driving Worm gear case (52) is fixed.