CN204954591U - Automatic burnishing device of drift that glass mold used - Google Patents

Abstract

The utility model provides an automatic burnishing device of drift that glass mold used, belongs to glass mold auxiliary component processing facility technical field. Including the frame, the deck plate chamber of stepping down is established to its upper portion fixed table top board on the deck plate, gyration dish lies in the below of deck plate, is fixed with the effect jar at the the edge of gyration dish towards one side of deck plate and prescribes a limit to the seat, and adjacent effect jar is prescribed a limit to space between the seat and is constituted and prescribe a limit to the chamber for the effect jar, and the oil cup constitutes the middle position in the gyration dish towards decurrent one side, and it is corresponding that the center in chamber is stepped down to oily cup cavity and deck plate, power transmission mechanism establishes in the frame and is connected with the oil cup, drift up -and -down motion mechanism establishes on the deck plate, and to step down the center in chamber corresponding with the deck plate, grinding medium horizontal reciprocating motion mechanism is fixed on the gyration dish. Human resources are saved. Alleviate workman's operation intensity and ensure safety, the assurance is to the polishing quality of drift.

Description

The automatic polishing device of the drift of glass mold

Technical field

The utility model belongs to glass mold accessory processing facility technology field, is specifically related to a kind of automatic polishing device of drift of glass mold.

Background technology

The function of drift on glass mold is that industry is known, is to adopt osculum press-and-blow process to produce glass container as the essential element of vial.After a pair parison mold half module opposite each other (industry custom is called blocker half module) is closed, parison mold half module die cavity introduced by the frit of melting, and will the drift of parison mold half module die cavity (the glass container products depending on different) parcel be wholly or in part arranged in by the high temperature glass frits of molten condition, by the drift cooler in the drift chamber of drift, drift is cooled fast subsequently, to make the melten glass material cooling being previously wrapped in drift outer wall, remove drift, blow again, form blank, finally open parison mold half module, and then glass container blank is introduced shaping mould and carry out secondary blow molding.

Because frit is very responsive to the shape of drift, even micro-vast dimensional discrepancy all can affect the molding effect of glass container.Therefore usually require drift to have good heat endurance and use avoid being out of shape, desirable wearability and use the evenness of wall thickness of embodiment longer service life and excellence and use and ensure that the quality of final glass container is as the uniformity effect of wall thickness.

Quality due to punch head surface fineness directly can have influence on the quality of glass container, thus usually requires that any surface finish of drift is like mirror.The unique method that polishing is acquisition punch head surface fineness is implemented to the punch head surface after shaping.It is be held on machine by drift that the mode of prior art to drift enforcement polishing mainly contains following two kinds: one, holds polishing medium (polishing medium is mainly oilstone) and recline to drift by polishing medium under the state that machine drives drift to rotate by workman; Two is be installed on machine by the fixture clamping polishing medium, holds drift and recline drift to polishing medium under the state that machine drives polishing medium to rotate by workman.

There is following logical fraud in above-mentioned polishing mode: one, because manpower polishing borrowed by needs, is thus unfavorable for saving valuable human resources; Its two, because the operation intensity of workman is large, thus easily make workman be in the frazzle of height; Its three, no matter hold drift by workman's hand and all there is operation because to be front a kind of mode hold polishing medium or rear a kind of mode by workman's hand and install hidden danger, because unavoidably finger is touched rotary part; Its four, because needs craft coordinates polishing with machine, thus polishing efficiency is affected; Its five, the difficult quality guarantee of polishing, because the quality of finish of drift is relevant to the experience of workman, sense of responsibility, mood and even physical efficiency to a certain extent.

Although the technical information of the processing method about drift can be seen in disclosed China and foreign countries patent document, as Chinese patent application publication No. CN102626847A and US Patent No. 3768343A, all not there is referential enlightenment to the automatic polishing of drift.

For above-mentioned prior art, the applicant has done positive and useful design, defines technical scheme described below, and especially carried out simulated test in the test center of the applicant taking under secrecy provision, result proves practicable.

Summary of the invention

Task of the present utility model is to provide a kind of contributing to abandon man-machine cooperation enforcement polishing and use the human resources of saving preciousness, the operation intensity and using being conducive to significantly alleviating workman makes value machine workman be in loose and labour-saving duty, be of value to and ensure that the security and using of polishing is avoided accidents caused, have and be convenient to significantly improve polishing efficiency and use and meet high efficiency production requirement and have the automatic polishing device of drift be good at avoiding being affected by human factors and used the glass mold ensureing quality of finish.

Task of the present utility model has been come like this, a kind of automatic polishing device of drift of glass mold, comprises a frame, is fixed with a deck plate on the top of this frame, this deck plate offers a deck plate and to step down chamber; Single-revolution dish and a lubricating cup, rotary disk is positioned at the below of described deck plate, be fixed with acting cylinder towards the edge of the side of deck plate and around the circumferencial direction of deck plate with space state at this rotary disk and limit seat, the two adjacent acting cylinders space limited between seat is configured to acting cylinder and limits chamber, lubricating cup be formed in rotary disk towards under the middle position of side, and be bearing in rotationally in described frame together with rotary disk by this lubricating cup, and the lubricating cup chamber of lubricating cup and described deck plate are stepped down, the center in chamber is corresponding; One power drive mechanism, this power drive mechanism to be arranged in the position of below corresponding to described deck plate in described frame and to be in transmission connection with described lubricating cup; One drift pumps mechanism, and this drift pumps organization establishes on described deck plate, and corresponding with the step down center in chamber of described deck plate; Quantity and described acting cylinder limit the equal polishing medium horizontal reciprocating movement mechanism of the quantity in chamber, and the position that this polishing medium horizontal reciprocating movement mechanism is corresponding to acting cylinder and limit chamber is fixed on described rotary disk.

In a specific embodiment of the present utility model, described frame is fixed with a lubricating cup bearing block fixed head in the position of below corresponding to described rotary disk, described lubricating cup is bearing on lubricating cup bearing block by lubricating cup upper bearing (metal) and lubricating cup lower bearing rotationally, and this lubricating cup bearing block and described lubricating cup bearing block fixed head are fixed, and between lubricating cup upper bearing (metal) and lubricating cup lower bearing, be provided with a bearing spacer, be configured with a lubricating cup drive in the extension of the bottom of described lubricating cup and fix spindle nose, the middle position that this lubricating cup drive fixes the bottom of spindle nose is provided with a pipeline flexible joint, this pipeline flexible joint is fixed with one end of a transition conduit, and the other end of transition conduit is connected with external power supply, a through hole is offered on the diapire in the lubricating cup chamber of lubricating cup and corresponding to the position of described pipeline flexible joint, one end of a pipeline is fixed with in the position corresponding to this through hole, and the other end of pipeline draws lubricating cup chamber and with correspond to the described polishing medium horizontal reciprocating movement mechanism that the described acting cylinder position that limits chamber is fixed on described rotary disk and be connected, described power drive mechanism and described lubricating cup drive are fixed spindle nose and are in transmission connection, described deck plate towards on side be fixed with a guard shield with the state of soaring in deck plate, offer a shape and size and the deck plate identical guard shield that props up in chamber of stepping down and to step down chamber on this guard shield and corresponding to the step down position in chamber of described deck plate, guard shield is also provided with one and covers for the mechanism that pumps to described drift the Bi Hu mechanism protected, this Bi Hu mechanism and the drift mechanism that pumps is connected.

In another specific embodiment of the present utility model, described power drive mechanism comprises motor, reduction box, main driving wheel, spindle nose drive and driving-belt, motor coordinates with reduction box transmission, and be fixed on described frame in together with motor in the position of the below corresponding to described deck plate by reduction box, main driving wheel is fixed on the reduction gearbox output shaft of reduction box, spindle nose drive is fixed on described lubricating cup drive and fixes on spindle nose, one end of driving-belt is nested with on main driving wheel, and the other end is nested with on spindle nose drive.

In another specific embodiment of the present utility model, described main driving wheel and spindle nose drive are belt pulley, and described driving-belt is driving belt.

In another specific embodiment of the present utility model, the described drift mechanism that pumps comprises acting cylinder vertical columns, adjustment rack, drift pumps acting cylinder, drift clamps chuck seat and drift clamps chuck, acting cylinder vertical columns is to be fixed on deck plate towards upper side perpendicular to the state of described deck plate, pump the top of side of acting cylinder to be fixed with a column Top Crossbeam perpendicular to the state of acting cylinder vertical columns towards drift at this acting cylinder vertical columns, and in bottom and equally to be fixed with a column lower cross arm perpendicular to the state of acting cylinder vertical columns, upper end and the column Top Crossbeam of adjustment rack are fixed, lower end and column lower cross arm are fixed, the drift acting cylinder that pumps is fixed with longitudinal state and adjustment rack, drift clamps the pump acting cylinder slide block of acting cylinder of chuck seat and drift and fixes, drift clamps chuck corresponding to drift and clamps the position of the below of chuck seat and drift and clamp chuck seat and fix, and the guard shield that this drift clamps chuck and described guard shield is stepped down, the middle position in chamber is corresponding, the rear side of described Bi Hu mechanism and the short transverse of described adjustment rack is fixed.

Also have in a specific embodiment of the present utility model, the forward upper of described adjustment rack is provided with a cap slider position signal picker, and be provided with a slide block lower limit signal picker in bottom and in the position corresponding to cap slider position signal picker, be provided with a signal picker frizzen in the front side of described acting cylinder slide block, this signal picker frizzen corresponds between cap slider position signal picker and slide block lower limit signal picker; The described drift acting cylinder that pumps is Rodless cylinder.

More of the present utility model and in a specific embodiment, a collector adjustment tank is respectively offered in the position corresponding to described cap slider position signal picker and slide block lower limit signal picker in the front side of described adjustment rack, cap slider position signal picker and slide block lower limit signal picker are fixed on the front side of adjustment rack in the position corresponding to collector adjustment tank with adjusting up and down, and this cap slider position signal picker and slide block lower limit signal picker are travel switch, microswitch, position proximity switch, tongue tube or hall sensing element.

In an of the present utility model and then specific embodiment, described Bi Hu mechanism comprises one and covers guard shield hinged stanchion and and cover guard shield, the rear side covering the side of the short transverse of guard shield hinged stanchion and the short transverse of described adjustment rack is fixed, the side of covering the short transverse of guard shield is hinged with the opposite side of the short transverse of covering guard shield hinged stanchion, and the middle part of opposite side of the short transverse of covering guard shield is provided with a snap close seat, this snap close seat be arranged on adjustment rack short transverse front side in the middle part of snap close match, and when snap close seat and snap close fasten each other, by the guard shield chamber of covering of covering guard shield, described drift is pumped acting cylinder, acting cylinder slide block, drift clamps chuck seat and drift and clamps chuck and cover and protect, have in described bottom of covering guard shield chamber and cover guard shield and to step down mouth, this covers guard shield mouth of stepping down and corresponds to described guard shield and to step down the top in chamber.

Of the present utility model again more and in a specific embodiment, described polishing medium horizontal reciprocating movement mechanism comprises polishing medium horizontal reciprocating movement acting cylinder, pair of guide rods, polishing medium supporting base and polishing medium seize plate on both sides by the arms, polishing medium horizontal reciprocating movement acting cylinder correspond to described acting cylinder limit the position in chamber and described rotary disk towards on side fix, the acting cylinder post of this polishing medium horizontal reciprocating movement acting cylinder is towards the center of described rotary disk, and the pipe interface of this polishing medium horizontal reciprocating movement acting cylinder is connected with described pipeline, pair of guide rods is slidably arranged on polishing medium horizontal reciprocating movement acting cylinder in the position of the both sides corresponding respectively to described acting cylinder post, middle part and the acting cylinder post of polishing medium supporting base are fixed, two ends are fixed with pair of guide rods respectively, be configured with a polishing medium in the middle position on the top of this polishing medium supporting base and embed chamber, polishing medium is seized the position and polishing medium supporting base that plate is corresponding to polishing medium embedding chamber on both sides by the arms and is removably connected.

In an again of the present utility model and then specific embodiment, described polishing medium horizontal reciprocating movement acting cylinder is cylinder, and described pipeline is source of the gas pipeline, and described external power supply is air compressor, and described polishing medium is oilstone.

One of technique effect of the technical scheme that the utility model provides, because the mechanism that pumped by drift is by drift up-down alternative motion, and by polishing medium horizontal reciprocating movement mechanism to drift polishing, thus abandoned the man-machine cooperation polishing in prior art, contributed to saving valuable human resources; Two, due to without the need to holding polishing medium or drift by workman's hand, thus can significantly alleviate workman's operation intensity and be ensured safety; Three, because polishing process is completed by machine automatization, be not thus affected by human factors and ensured the quality of finish to drift.

Accompanying drawing explanation

Fig. 1 is example structure figure of the present utility model.

Fig. 2 is the sectional view of Fig. 1.

Detailed description of the invention

In order to enable the auditor of Patent Office especially the public clearly understand technical spirit of the present utility model and beneficial effect, applicant will elaborate below by way of example, but not all the restriction to the utility model scheme to the description of embodiment, any according to being only pro forma but not substantial equivalent transformation and all should being considered as the technical solution of the utility model category done by the utility model design.

Everyly in the following description relate to upper and lower, left and right, the concept of directionality (or claim directionality) of front and rear is all for the location status residing for the figure be described, object is to facilitate public understanding, thus can not be understood as being particularly limited to the technical scheme that the utility model provides.

Refer to Fig. 1 and Fig. 2, give a frame 1, this frame 1 is arranged on for the terrace to drift 9 polishing place in a state of use, is fixed with a deck plate 11 on the top of this frame 1, and the deck plate that this deck plate 11 offers a circle is stepped down chamber 111, give single-revolution dish 2 and a lubricating cup 3, rotary disk 2 is positioned at the below of aforementioned deck plate 11, be fixed with acting cylinder towards the edge of the side of deck plate 11 and around the circumferencial direction of deck plate 11 with equidistant space state at this rotary disk 2 and limit seat 21, the two adjacent acting cylinders space limited between seat 21 is configured to acting cylinder and limits chamber 211, in the present embodiment, the quantity that acting cylinder limits seat 21 has three, correspondingly, the quantity that acting cylinder limits chamber 211 also has three, if but be increased to four, so should be considered as being equal to, lubricating cup 3 be formed in rotary disk 2 towards under the middle position of side, and be bearing in aforesaid frame 1 by this lubricating cup 3 rotationally together with rotary disk 2, and the lubricating cup chamber 31 of lubricating cup 3 and aforementioned deck plate are stepped down, the center (i.e. middle position) in chamber 111 is corresponding, give a power drive mechanism 4, this power drive mechanism 4 to be arranged in the position of below corresponding to aforementioned deck plate 11 in aforementioned frame 1 and to be in transmission connection with lubricating cup 3, give a drift to pump mechanism 5, this drift mechanism 5 that pumps is arranged on aforesaid deck plate 11, and corresponding with the step down center in chamber 111 of aforementioned deck plate, give the polishing medium horizontal reciprocating movement mechanism 6 that quantity that quantity and aforementioned acting cylinder limit chamber 211 is equal, the position that this polishing medium horizontal reciprocating movement mechanism 6 is corresponding to acting cylinder and limit chamber 211 is fixed on aforesaid rotary disk 2.

As shown in Figure 2, aforesaid frame 1 is fixed with a lubricating cup bearing block fixed head 12 in the position of below corresponding to rotary disk 2, aforesaid lubricating cup 3 is bearing on lubricating cup bearing block 34 by lubricating cup upper bearing (metal) 32 and lubricating cup lower bearing 33 rotationally, and this lubricating cup bearing block 34 is fixed by screw and lubricating cup bearing block fixed head 12, and between lubricating cup upper bearing (metal) 32 and lubricating cup lower bearing 33, be provided with a bearing spacer 35.Owing to being configured with the upper bearing (metal) limited step 37 that is raised in the outer wall surface of lubricating cup 3 on the outer wall of lubricating cup 3 and corresponding to the circumferencial direction of the position above lubricating cup upper bearing (metal) 32 around lubricating cup 3, thus along with the setting of bearing spacer 35, lubricating cup upper bearing (metal) 32 is limited between upper bearing (metal) limited step 37 and the upper plane of bearing spacer 35, and lubricating cup lower bearing 33 is limited between the diapire in the lower plane of bearing spacer 35 and the lubricating cup bearing block chamber of lubricating cup bearing block 34.Be configured with a lubricating cup drive in the extension of the bottom of aforementioned lubricating cup 3 and fix spindle nose 36, the middle position that this lubricating cup drive fixes the bottom of spindle nose 36 is provided with a pipeline flexible joint 361, this pipeline flexible joint 361 is fixed with one end of a transition conduit 3611, and the other end of transition conduit 3611 is connected with external power supply.A through hole 362 is offered on the diapire in the lubricating cup chamber 31 of lubricating cup 3 and corresponding to the position of pipeline flexible joint 361, in the one end corresponding to the position of this through hole 362 and be fixed with a pipeline 8, and the other end of pipeline 8 draws lubricating cup chamber 31 and with correspond to the aforementioned polishing medium horizontal reciprocating movement mechanism 6 that position that aforementioned acting cylinder limits chamber 211 is fixed on rotary disk 2 and be connected.Aforesaid power drive mechanism 4 is fixed spindle nose 36 with described lubricating cup drive and is in transmission connection.

As shown in the above description, because pipeline flexible joint 361 has the effect of slip ring, thus when lubricating cup 3 rotates, pipeline flexible joint 361 does not rotate, and one end connects with pipeline flexible joint 361 and the transition conduit 3611 that the other end is connected with external power supply is same does not rotate.As shown in Figure 2, the wall body on the top of aforementioned lubricating cup 3 offers pipeline resigning hole 38, the other end of aforementioned pipeline 8 is drawn lubricating cup chamber 31 through this pipeline resigning hole 38 and is connected with the polishing medium horizontal reciprocating movement mechanism 6 that also will describe in detail below.

Shown in Fig. 1 and Fig. 2, preceding deck plate 11 is fixed with a guard shield 13 with the state of soaring in deck plate 11 by a guard shield hold-down screw 132 towards upper side, offer a shape and size and the deck plate identical guard shield that props up in chamber 111 of stepping down and to step down chamber 131 on this guard shield 13 and corresponding to the step down position in chamber 111 of aforementioned deck plate, guard shield 13 is also provided with one and covers for the mechanism 5 that pumps to aforementioned drift the Bi Hu mechanism 7 protected, this Bi Hu mechanism 7 and the drift mechanism 5 that pumps is connected.

Continue to see Fig. 1 and Fig. 2, aforesaid power drive mechanism 4 preferably but not the structure be limited to is as follows: comprise motor 41, reduction box 42, main driving wheel 43, spindle nose drive 44 and driving-belt 45, motor 41 coordinates with reduction box 42 transmission, and be fixed on aforesaid frame 1 in together with motor 41 in the position of the lower left corresponding to aforementioned deck plate 11 by reduction box 42, main driving wheel 43 is fixed on the reduction gearbox output shaft 421 of reduction box 42 with flat key fixed form, spindle nose drive 44 is fixed on aforesaid lubricating cup drive with flat key fixed form equally and fixes on spindle nose 36, one end of driving-belt 45 is nested with on main driving wheel 43, the other end is nested with on spindle nose drive 44.

Spindle nose 36 is fixed in lubricating cup drive in order to prevent spindle nose drive 44 slippage downwards (trip is de-), thus to fix on spindle nose 36 at lubricating cup drive and offer an annular groove 363 in the position of the below corresponding to spindle nose drive 44, this annular groove 363 is arranged with a snap ring 3631, plays the barrier effect to spindle nose drive 44 by snap ring 3631.

As shown in Figure 2, an electrical control cabinet 14 is provided with on the right side of frame 1, the motor 41 of previous power transmission mechanism 4 is connected with this electrical control cabinet 14 electrical control, and pump mechanism 5 and polishing medium horizontal reciprocating movement mechanism 6 of aforesaid external power supply, drift is controlled by electrical control cabinet 14 equally and is namely connected with electrical control cabinet 14 electrical control.

When making motor 41 work by operator (value machine workman) to the corresponding switching manipulation on electrical control cabinet 14, reduction box 42 is driven by motor 41, slow down through reduction box 42 and drive main driving wheel 43 by its reduction gearbox output shaft 421, spindle nose drive 44 is driven through driving-belt 45, the lubricating cup drive being fixed on the bottom extension of lubricating cup 3 due to spindle nose drive 44 is fixed on spindle nose 36, thus lubricating cup 3 is driven to rotate by rotary head drive 44, again because lubricating cup 3 and rotary disk 2 are integrally constituted structure, thus when lubricating cup 3 rotates, rotary disk 3 rotates with it, thus drive aforesaid polishing medium horizontal reciprocating movement mechanism 6 to rotate by rotary disk 3.

In the present embodiment, aforesaid main driving wheel 43 and spindle nose drive 44 are belt pulley, and aforesaid driving-belt 45 is driving belt.

Please see Fig. 1 by emphasis, aforesaid drift pump mechanism 5 preferably but not the structure be definitely limited to is as follows: comprise acting cylinder vertical columns 51, adjustment rack 52, drift pumps acting cylinder 53, drift clamps chuck seat 54 and drift clamps chuck 55, acting cylinder vertical columns 51 is fixed on deck plate 11 towards upper side with the state perpendicular to aforementioned deck plate 11 by column hold-down screw 513, and be positioned at the left side of deck plate 11, this acting cylinder vertical columns 51 towards drift pump acting cylinder 53 side namely on the top on the right side of acting cylinder vertical columns 51 to be fixed with a column Top Crossbeam 511 perpendicular to the state of acting cylinder vertical columns 51, and in bottom and equally to be fixed with a column lower cross arm 512 perpendicular to the state of acting cylinder vertical columns 51, it can thus be appreciated that, column Top Crossbeam 511, column lower cross arm 512 is parallel.Upper end and the column Top Crossbeam 511 of adjustment rack 52 are welded and fixed, and lower end and column lower cross arm 512 are welded and fixed.The drift acting cylinder 53 that pumps is fixed with longitudinal state and adjustment rack 52, there is shown the acting cylinder hold-down screw 532 that the holder 525 that forms for the top of the acting cylinder 53 that pumped by drift and the top of adjustment rack 52 fixes.This drift acting cylinder 53 that pumps has an acting cylinder slide block 531, this acting cylinder slide block 531 be formed in pump a pair sliver 533 on right side of acting cylinder 53 of drift and be slidably matched.Drift clamps chuck seat 54 and fixes with acting cylinder slide block 531.It is scroll chuck that drift clamps chuck 55(the present embodiment) clamp chuck seat 54 with drift and fix corresponding to position that drift clamps the below of chuck seat 54, and this drift clamp chuck 55 and aforementioned guard shield 13 to prop up the step down middle position in chamber 131 of guard shield corresponding; Aforesaid Bi Hu mechanism 7 is fixed with the rear side of the short transverse of adjustment rack 52.

As shown in Figure 1, the forward upper of aforesaid adjustment rack 52 is provided with a cap slider position signal picker 521, and be provided with a slide block lower limit signal picker 522 in bottom and in the position corresponding to cap slider position signal picker 521, the front side of aforesaid acting cylinder slide block 531 is provided with a signal picker frizzen 5311, and this signal picker frizzen 5311 corresponds between cap slider position signal picker 521 and slide block lower limit signal picker 522.Aforementioned drift pumps acting cylinder 53 for Rodless cylinder, and is connected with the electrical control of aforesaid electrical control cabinet 14, that is provides the magnetic valve of the external power supply of source of the gas as air compressor to be controlled by electrical control cabinet 14 to Rodless cylinder.

Preferably, a collector adjustment tank 523 is respectively offered in the position corresponding to slide block upper limit signal picker 521 and slide block lower limit signal picker 522 in the front side of aforementioned adjustment rack 52, cap slider position signal picker 521 and slide block lower limit signal picker 522 are fixed on the front side of adjustment rack 52 in the position corresponding to collector adjustment tank 523 with adjusting up and down, and this cap slider position signal picker 521 and slide block lower limit signal picker 522 are hall sensing element, but also can use travel switch, microswitch, position proximity switch or tongue tube.

Due in the front side of adjustment rack 52 and correspond to cap slider position signal picker 521, slide block lower limit signal picker 522 position respectively offered a signal picker adjustment tank 523, thus the polishing requirement to the different drift 9 of length can be met, namely, when the length variations of drift 9, the stroke pumped the likely corresponding change of acting cylinder slide block 531, thus correspondingly can adjust the spacing between cap slider position signal picker 521 and slide block lower limit signal picker 522.

When polishing will be implemented to illustrated drift 9, first drift 9 being clipped on drift clamps on chuck 55, again by online assignment personnel to the corresponding switching manipulation on electrical control cabinet 14, acting cylinder slide block 531 is moved back and forth alternately up and down, makes drift 9 alternately pass in and out lubricating cup chamber 31.Such as when signal picker frizzen 5311 is corresponding with slide block lower limit signal picker 522, just by this slide block lower limit signal picker 522 be electrically connected with electrical control cabinet 14 by signal feedback to electrical control cabinet 14, instruction is sent to magnetic valve by electrical control cabinet 14, make acting cylinder slide block 531 to top offset, drift is driven to clamp chuck seat 54 by acting cylinder slide block 531 up, clamping chuck seat 54 by drift, to drive drift to clamp chuck 55 up, clamps chuck 55 drive drift 9 up by drift.Same reason, when signal picker frizzen 5311 is corresponding with cap slider position signal picker 521, just by the cap slider position signal picker 521 be electrically connected with electrical control cabinet 14 by signal feedback to electrical control cabinet 14, instruction is sent to magnetic valve by electrical control cabinet 14, make acting cylinder slide block 531 to bottom offset, to make drift 9 be inserted into be arranged in the lubricating cup sponge 311 in lubricating cup chamber 31.In a state of use, in lubricating cup chamber 31, place the lubricating cup sponge 311 infiltrating and have lubricating oil, and offer a drift probe hole 3111 in the middle position of the short transverse of lubricating cup sponge 311.Preferred scheme, can at lubricating cup chamber 31 splendid attire lubricating oil.

Still emphasis is shown in Fig. 1, aforesaid Bi Hu mechanism 7 comprises one and covers guard shield hinged stanchion 71 and and cover guard shield 72, cover the side (illustrated left side) of the short transverse of guard shield hinged stanchion 71 to fix with the rear side of the short transverse of aforementioned adjustment rack 52, the side (illustrated left side) of covering the short transverse of guard shield 72 is hinged with the opposite side (illustrated right side) of the short transverse of covering guard shield hinged stanchion 71 by hinge 723, and the middle part of opposite side (illustrated right side) of the short transverse of covering guard shield 72 is provided with a snap close seat 721, this snap close seat 721 be arranged on adjustment rack 52 short transverse front side in the middle part of snap close 524 match, and when snap close seat 721 fastens each other with snap close 524, by the guard shield chamber 722 of covering of covering guard shield 72, aforementioned drift is pumped acting cylinder 53, acting cylinder slide block 531, drift clamps chuck seat 54 and drift and clamps chuck 55 and cover and protect, covering the opportunity of protecting is lower in working order enforcement.Have in aforementioned bottom of covering guard shield chamber 722 and cover guard shield and to step down mouth 7221, this covers guard shield mouth 7221 of stepping down and corresponds to described guard shield and to step down the top in chamber 131.Preferably, the aforementioned guard shield 72 that covers makes by transparent material with a guard shield 13.

Please still emphasis is shown in Fig. 1, aforesaid polishing medium horizontal reciprocating movement mechanism 6 preferably but not be definitely limited to comprise polishing medium horizontal reciprocating movement acting cylinder 61, pair of guide rods 62, polishing medium supporting base 63 and polishing medium seize plate 64 on both sides by the arms, polishing medium horizontal reciprocating movement acting cylinder 61 by mounting screw 613 corresponding to the position of mounting screw holes 2111 being opened in aforementioned acting cylinder and limiting on the chamber diapire in chamber 211 and aforementioned rotary disk 2 towards on side fix, that is polishing medium horizontal reciprocating movement acting cylinder 61 is fixed in acting cylinder restriction chamber 211, the acting cylinder post 611 of this polishing medium horizontal reciprocating movement acting cylinder 61 is towards the center of aforementioned rotary disk 2, and the pipe interface 612 of this polishing medium horizontal reciprocating movement acting cylinder 61 is connected with the other end of aforesaid pipeline 8, pair of guide rods 62 is slidably arranged on polishing medium horizontal reciprocating movement acting cylinder 61 in the position of the both sides corresponding respectively to acting cylinder post 611, middle part and the acting cylinder post 611 of polishing medium supporting base 63 are fixed, two ends are fixed with the end of pair of guide rods 62 respectively (end refers to pair of guide rods 62 one end towards the center of rotary disk 2), be configured with a polishing medium in the middle position on the top of this polishing medium supporting base 63 and embed chamber 631, polishing medium is seized plate 64 on both sides by the arms and is adopted a pair Boards wall screw 641 to removably connect with polishing medium supporting base 63 in the position corresponding to polishing medium embedding chamber 631, described here removably connecting refers to and by the operation to Boards wall screw 641, polishing medium is seized on both sides by the arms plate 64 when arranging or change illustrated polishing medium 10 and polishing medium supporting base 63 is fixed or moves apart in polishing medium supporting base 63.

In the present embodiment, aforesaid polishing medium horizontal reciprocating movement acting cylinder 61 is cylinder, and be connected with the electrical control of aforesaid electrical control cabinet 14, because polishing medium horizontal reciprocating movement acting cylinder 61 is cylinder, thus aforesaid pipeline 8 is source of the gas pipeline, aforesaid external power supply is air compressor, and described polishing medium 9 is oilstone; Aforesaid transition conduit 3611 is transition tracheae.

Applicant it should be noted that: if aforesaid polishing medium horizontal reciprocating movement acting cylinder 61 adopts oil cylinder, so aforesaid pipeline 8 is oil pipe, and equally, aforesaid transition conduit 3611 is transition oil pipe.

Owing to employing the identical polishing medium horizontal reciprocating movement mechanism 6 of three structures in the present embodiment, thus a three-way interface can be set on aforesaid pipeline 8, to be connected with the pipe interface 612 of three polishing medium horizontal reciprocating movement acting cylinders 61 respectively by three branched pipes be connected with three-way interface.

Applicant's composition graphs 1 and Fig. 2 describe use of the present utility model, the lubricating oil that first splendid attire is appropriate in the lubricating cup chamber 31 of lubricating cup 3, again lubricating cup sponge 311 to be placed in lubricating cup chamber 31 (the lubricating cup sponge 311 of lubricating oil can certainly be had to be placed in lubricating cup chamber 31 by fully infiltrating, and without the need to splendid attire lubricating oil separately in lubricating cup chamber 31); Again the oilstone as polishing medium 10 is fixed on polishing medium to seize on both sides by the arms between plate 64 and polishing medium supporting base 63, makes polishing medium 10 reliably be positioned at polishing medium and embed chamber 631.Owing to having three polishing medium horizontal reciprocating movement acting cylinders 61, thus corresponding polishing medium 10 has three pieces, and these three pieces of polishing mediums 10 lean out polishing medium, and to embed the degree in chamber 631 mutually the same towards the one end at the center of rotary disk 2; Then the drift 9 awaiting polishing being clipped on drift clamps on dish 55; Then by acting on the personnel drift automatic polishing device of multiple stage the utility model glass mold on duty (next people of normal conditions can) online, electrical control cabinet 14 is operated after guard shield 72 is covered in closedown, drift is made to pass in and out lubricating cup sponge 311 in lubricating cup chamber 31 continually by the drift mechanism 5 that pumps, often enter lubricating cup sponge 311 once, just make drift 9 dip in a lubricating oil.Meanwhile made acting cylinder post 611 by the work of the polishing medium horizontal reciprocating movement acting cylinder 61 of polishing medium horizontal reciprocating movement mechanism 6 frequently alternately to bouncing back in cylinder body or stretching out cylinder body, just drive polishing medium supporting base 63 to the center displacement of rotary disk 2 by it when stretching out cylinder body, and drive polishing medium 10 by polishing medium supporting base 63, polishing medium 10 is contacted with drift 9, and this contact process is the polishing process to drift 9.When by the PLC(programmable controller in electrical control cabinet 14) after the polishing time that sets terminates, by online assignment personnel to the corresponding switching manipulation on electrical control cabinet 14, drift is pumped mechanism 5 and the break-off of polishing medium horizontal reciprocating movement mechanism 6, then open and cover guard shield 72, the drift 9 completing polishing is clamped chuck 55 from drift and takes off and change the next drift 9 awaiting polishing.In aforementioned process, when the length of polishing medium 10 shortens because frequently contacting with drift 9, as long as so pine opens Boards wall screw 641, the center position of polishing medium 10 to rotary disk 2 is moved, until more renew the polishing medium 10 enabled when using the degree being namely depleted to and being as short as and cannot moving again.Due to three pieces of polishing medium 10 co-operatings each other, thus can play just as holding the polishing effect pinched to drift 9, specifically, up namely away from the up process of lubricating cup 3 at drift 9, polishing medium 10 and drift obvolvent, vice versa.

In sum, the technical scheme that the utility model provides overcomes the deficiency of prior art, successfully completes invention task, has cashed the technique effect referred in the superincumbent technique effect hurdle of applicant faithfully, and can yet be regarded as is a ultimate attainment technical scheme.

Claims (10)

1. a kind of automatic polishing device of drift of glass mold, it is characterized in that comprising a frame (1), be fixed with a deck plate (11) on the top of this frame (1), this deck plate (11) offer a deck plate and to step down chamber (111), single-revolution dish (2) and a lubricating cup (3), rotary disk (2) is positioned at the below of described deck plate (11), be fixed with acting cylinder towards the edge of the side of deck plate (11) and around the circumferencial direction of deck plate (11) with space state at this rotary disk (2) and limit seat (21), the two adjacent acting cylinders space limited between seat (21) is configured to acting cylinder and limits chamber (211), lubricating cup (3) be formed in rotary disk (2) towards under the middle position of side, and be bearing in described frame (1) by this lubricating cup (3) rotationally together with rotary disk (2), and the lubricating cup chamber (31) of lubricating cup (3) and described deck plate are stepped down, the center in chamber (111) is corresponding, one power drive mechanism (4), this power drive mechanism (4) is arranged on described frame (1) in the position of the below corresponding to described deck plate (11) and goes up and be in transmission connection with described lubricating cup (3), one drift pumps mechanism (5), and this drift mechanism (5) that pumps is arranged on described deck plate (11), and corresponding with the step down center in chamber (111) of described deck plate, quantity and described acting cylinder limit the equal polishing medium horizontal reciprocating movement mechanism (6) of the quantity in chamber (211), and the position that this polishing medium horizontal reciprocating movement mechanism (6) is corresponding to acting cylinder and limit chamber (211) is fixed on described rotary disk (2).

2. the automatic polishing device of the drift of glass mold according to claim 1, it is characterized in that going up in described frame (1) and being fixed with a lubricating cup bearing block fixed head (12) in the position of the below corresponding to described rotary disk (2), described lubricating cup (3) is bearing on lubricating cup bearing block (34) by lubricating cup upper bearing (metal) (32) and lubricating cup lower bearing (33) rotationally, and this lubricating cup bearing block (34) and described lubricating cup bearing block fixed head (12) are fixed, and between lubricating cup upper bearing (metal) (32) and lubricating cup lower bearing (33), be provided with a bearing spacer (35), be configured with a lubricating cup drive in the extension of the bottom of described lubricating cup (3) and fix spindle nose (36), the middle position fixing the bottom of spindle nose (36) at this lubricating cup drive is provided with a pipeline flexible joint (361), this pipeline flexible joint (361) is fixed with one end of a transition conduit (3611), and the other end of transition conduit (3611) is connected with external power supply, a through hole (362) is offered on the diapire in the lubricating cup chamber (31) of lubricating cup (3) and corresponding to the position of described pipeline flexible joint (361), one end of a pipeline (8) is fixed with in the position corresponding to this through hole (362), and the other end of pipeline (8) draws lubricating cup chamber (31) and with correspond to the described polishing medium horizontal reciprocating movement mechanism (6) that the described acting cylinder position that limits chamber (211) is fixed on described rotary disk (2) and be connected, described power drive mechanism (4) and described lubricating cup drive are fixed spindle nose (36) and are in transmission connection, a guard shield (13) is fixed with towards upper side with the state of soaring in deck plate (11) at described deck plate (11), upper and offer a shape and size and the deck plate identical guard shield that props up in chamber (111) of stepping down and to step down chamber (131) corresponding to the step down position in chamber (111) of described deck plate at this guard shield (13), a guard shield (13) is also provided with one and covers for the mechanism (5) that pumps to described drift the Bi Hu mechanism (7) protected, this Bi Hu mechanism (7) and the drift mechanism (5) that pumps is connected.

3. the automatic polishing device of the drift of glass mold according to claim 2, it is characterized in that described power drive mechanism (4) comprises motor (41), reduction box (42), main driving wheel (43), spindle nose drive (44) and driving-belt (45), motor (41) coordinates with reduction box (42) transmission, and be fixed on described frame (1) in together with motor (41) in the position of the below corresponding to described deck plate (11) by reduction box (42), main driving wheel (43) is fixed on the reduction gearbox output shaft (421) of reduction box (42), spindle nose drive (44) is fixed on described lubricating cup drive and fixes on spindle nose (36), one end of driving-belt (45) is nested with on main driving wheel (43), the other end is nested with on spindle nose drive (44).

4. the automatic polishing device of the drift of glass mold according to claim 3, it is characterized in that described main driving wheel (43) and spindle nose drive (44) are belt pulley, described driving-belt (45) is driving belt.

5. the automatic polishing device of the drift of glass mold according to claim 2, it is characterized in that the described drift mechanism (5) that pumps comprises acting cylinder vertical columns (51), adjustment rack (52), drift pumps acting cylinder (53), drift clamps chuck seat (54) and drift clamps chuck (55), acting cylinder vertical columns (51) is to be fixed on deck plate (11) towards upper side perpendicular to the state of described deck plate (11), pump the top of side of acting cylinder (53) to be fixed with a column Top Crossbeam (511) perpendicular to the state of acting cylinder vertical columns (51) towards drift at this acting cylinder vertical columns (51), and in bottom and equally to be fixed with a column lower cross arm (512) perpendicular to the state of acting cylinder vertical columns (51), the upper end of adjustment rack (52) and column Top Crossbeam (511) are fixed, lower end and column lower cross arm (512) are fixed, the drift acting cylinder (53) that pumps is fixed with longitudinal state and adjustment rack (52), drift clamps the pump acting cylinder slide block (531) of acting cylinder (53) of chuck seat (54) and drift and fixes, drift clamps chuck (55), and corresponding to position that drift clamps the below of chuck seat (54) and drift, to clamp chuck seat (54) fixing, and the guard shield that this drift clamps chuck (55) and described guard shield (13) is stepped down, the middle position in chamber (131) is corresponding, described Bi Hu mechanism (7) is fixed with the rear side of the short transverse of described adjustment rack (52).

6. the automatic polishing device of the drift of glass mold according to claim 5, it is characterized in that the forward upper of described adjustment rack (52) is provided with cap slider position signal picker (521), and be provided with a slide block lower limit signal picker (522) in bottom and in the position corresponding to cap slider position signal picker (521), a signal picker frizzen (5311) is provided with in the front side of described acting cylinder slide block (531), this signal picker frizzen (5311) is corresponding between cap slider position signal picker (521) and slide block lower limit signal picker (522), the described drift acting cylinder (53) that pumps is Rodless cylinder.

7. the automatic polishing device of the drift of glass mold according to claim 6, it is characterized in that in the front side of described adjustment rack (52) and respectively offer a collector adjustment tank (523) in the position corresponding to described cap slider position signal picker (521) and slide block lower limit signal picker (522), cap slider position signal picker (521) and slide block lower limit signal picker (522) are fixed on the front side of adjustment rack (52) in the position corresponding to collector adjustment tank (523) with adjusting up and down, and this cap slider position signal picker (521) and slide block lower limit signal picker (522) are travel switch, microswitch, position proximity switch, tongue tube or hall sensing element.

8. the automatic polishing device of the drift of glass mold according to claim 5, it is characterized in that described Bi Hu mechanism (7) comprises one and covers guard shield hinged stanchion (71) and and cover guard shield (72), the rear side covering the side of the short transverse of guard shield hinged stanchion (71) and the short transverse of described adjustment rack (52) is fixed, the side of covering the short transverse of guard shield (72) is hinged with the opposite side of the short transverse of covering guard shield hinged stanchion (71), and the middle part of opposite side of the short transverse of covering guard shield (72) is provided with a snap close seat (721), this snap close seat (721) be arranged on adjustment rack (52) short transverse front side in the middle part of snap close (524) match, and when snap close seat (721) fastens each other with snap close (524), by the guard shield chamber (722) of covering of covering guard shield (72), described drift is pumped acting cylinder (53), acting cylinder slide block (531), drift clamps chuck seat (54) and drift and clamps chuck (55) and cover and protect, have in described bottom of covering guard shield chamber (722) and cover guard shield and to step down mouth (7221), this covers guard shield mouth (7221) of stepping down steps down corresponding to described guard shield the top of chamber (131).

9. the automatic polishing device of the drift of glass mold according to claim 2, it is characterized in that described polishing medium horizontal reciprocating movement mechanism (6) comprises polishing medium horizontal reciprocating movement acting cylinder (61), pair of guide rods (62), polishing medium supporting base (63) and polishing medium seize plate (64) on both sides by the arms, position and described rotary disk (2) that polishing medium horizontal reciprocating movement acting cylinder (61) is corresponding to described acting cylinder restriction chamber (211) are fixed towards upper side, the acting cylinder post (611) of this polishing medium horizontal reciprocating movement acting cylinder (61) is towards the center of described rotary disk (2), and the pipe interface (612) of this polishing medium horizontal reciprocating movement acting cylinder (61) is connected with described pipeline (8), pair of guide rods (62) is slidably arranged on polishing medium horizontal reciprocating movement acting cylinder (61) in the position of the both sides corresponding respectively to described acting cylinder post (611), the middle part of polishing medium supporting base (63) and acting cylinder post (611) are fixed, two ends are fixed with pair of guide rods (62) respectively, be configured with a polishing medium in the middle position on the top of this polishing medium supporting base (63) and embed chamber (631), polishing medium is seized the position and polishing medium supporting base (63) that plate (64) is corresponding to polishing medium embedding chamber (631) on both sides by the arms and is removably connected.

10. the automatic polishing device of the drift of glass mold according to claim 9, it is characterized in that described polishing medium horizontal reciprocating movement acting cylinder (61) is cylinder, described pipeline (8) is source of the gas pipeline, described external power supply is air compressor, and described polishing medium is oilstone.