CN204018731U - Automatic regrinding machine - Google Patents

Abstract

The utility model relates to automatic regrinding machine, comprise pay-off and arrangement for grinding, pay-off comprises feed well, feeding cylinder, feed appliance, pusher cylinder and fixing cylinder, arrangement for grinding comprises rotating spindle, die fixture and lathe tool device, feeding cylinder is just to feed appliance, feed well is between feeding cylinder and feed appliance, and pusher cylinder is connected on feed appliance, and is connected with feed appliance is vertical; Rotating spindle is arranged on die fixture, fixing cylinder is on the axis of rotating spindle, and die fixture is between rotating spindle and fixing cylinder, a segment distance is provided with between die fixture and fixing cylinder, the straight line that axis and feeding cylinder and the feed appliance of rotating spindle are formed parallels, feed appliance and lathe tool device are on the center line between die fixture and fixing cylinder, and feed appliance and lathe tool device can move along described center line; Feed appliance and lathe tool device are located at the both sides of the axis of rotating spindle respectively.

Description

Automatic regrinding machine

Technical field

The utility model relates to press seal film polishing device field, particularly relates to a kind of automatic regrinding machine.

Background technology

In the production industry of current whole quartz-crystal resonator, quartz wafer, after cleaning, plated film, is fixed on support by automatic dispensing machine, then carries out finely tuning and detecting.Support and shell encapsulate by the press seal mould by pressure sealing machine after Product checking is qualified.Press seal mould is welded support and shell by the form of pressurization electric discharge, long-time use after or other fortuitous events press seal mould surface can be caused to occur the situations such as dirty, damaged, burr, and then affect welding quality and the product appearance of resonator.So manufacturer in order to next cover press seal die welding of the normal service condition of quality regulation of the product that ensures to dispatch from the factory connect 6000-7000 PCS crystal after must change, use could be continued after the press seal mould changed has to pass through reparation.

And present stage repairs the mode two kinds nothing but of press seal mould: lathe and grinding machine.

When using lathe to repair, during beginning, remove dirty, damaged, the burr on press seal mould surface etc. with lathe car.Because car trace and burr can be left on press seal mould surface after being processed press seal mould by lathe, the burr that first must produce with little file finishing, the sand paper re-using No. 1000 is polished, while grinding off press seal mould surface car trace, also must ensure that press seal mould integral smoothness is less than 3 silks.In so complete manual situation, skilled machine maintenance completes the minimum needs of reparation 1 minute of a press seal mould, not only time-consuming but also labour intensity large, if integral smoothness cannot be guaranteed when not having external detection.

The flatness of repairing press seal mould with grinding machine is higher than lathe, but one, grinding machine is larger on Meteorological, higher to the requirement of operative employee in operation, maintenance, maintenance, maintenance, and can not reduce how many in time relative to lathe, but require but greatly to improve.And above two kinds of modes are full manual operations, waste time and energy and do not say, the usability repairing rear mold can not get effective guarantee.

Utility model content

In view of this, be necessary that providing a kind of reduces labour intensity, minimizing producing cost, the raising precision of mould repair and the automatic regrinding machine of efficiency.

The utility model realizes like this, automatic regrinding machine, comprise pay-off and arrangement for grinding, described pay-off comprises feed well, feeding cylinder, feed appliance, pusher cylinder and fixing cylinder, described arrangement for grinding comprises rotating spindle, die fixture and lathe tool device, described feeding cylinder is just to feed appliance, described feed well is between feeding cylinder and feed appliance, and the outlet of feed well and feeding cylinder and feed appliance are on same straight line, described pusher cylinder is connected on feed appliance, and is connected with feed appliance is vertical;

Described rotating spindle is arranged on die fixture, described fixing cylinder is on the axis of rotating spindle, and die fixture is between rotating spindle and fixing cylinder, a segment distance is provided with between described die fixture and fixing cylinder, described distance can hold feed appliance and lathe tool device, the straight line that axis and feeding cylinder and the feed appliance of described rotating spindle are formed parallels, described feed appliance and lathe tool device are on the center line between die fixture and fixing cylinder, and feed appliance and lathe tool device can move along described center line,

Described feed appliance and lathe tool device are located at the both sides of the axis of rotating spindle respectively.

Further, described feed well is horizontal by the inclination angle of 30 ° ~ 60 °.

Further, described feeding cylinder comprises feeding push rod, and described feeding push rod is connected with feeding cylinder is pneumatic.

Further, described feed appliance comprises feeding track, push rod, pusher bar support, first spring and the first spring mountings, described pusher bar support is located at the side of feeding track, push rod is located on pusher bar support, and push rod and feeding track coaxial, one end of push rod is in feeding track, the other end is in the outside of feeding track, first spring mountings is fixed on the end, one end being in the outside of feeding track on push rod, described first spring interts on push rod, and one end is fixed on the first spring mountings, described feeding track and described feeding push rod coaxial.

Further, described pusher cylinder is provided with pusher cylinder fixed block and pusher cylinder balancing bar, described pusher cylinder balancing bar and pusher cylinder are parallel to each other, and pusher cylinder balancing bar and pusher cylinder are vertically connected on feeding track by pusher cylinder fixed block.

Further, described fixing cylinder is provided with fixing cylinder fixed block, fixing cylinder push-rod, fixing cylinder balancing pole and fixing cylinder balance weight, fixing cylinder is fixed on fixing cylinder fixed block, described fixing cylinder push-rod is connected with fixing cylinder is pneumatic, fixing cylinder balance weight is fixed on fixing cylinder push-rod, described fixing cylinder balancing pole and fixing cylinder are parallel to each other, and fixing cylinder balancing pole) be connected with fixing cylinder balance weight through fixing cylinder fixed block.

Further, described die fixture comprises fixed body, mould jaw, die spacer block and the second spring, described mould jaw and rotating spindle are located at the both sides of fixed body respectively, and mould jaw is connected on rotating spindle, the side of the close rotating spindle on mould jaw is provided with the cavity holding described second spring, one end of described second spring is connected to the innermost end of cavity, the other end is connected and fixed die spacer block, described die spacer block is in the middle of mould jaw, described mould jaw and fixing cylinder push-rod coaxial.

Further, described lathe tool device comprises lathe tool, lathe tool fixed block, horizontal slide rail, longitudinal slide rail and pedestal, and described longitudinal slide rail is located on pedestal, and horizontal slide rail is located on longitudinal slide rail, lathe tool fixed block is located at above horizontal slide rail, and lathe tool is bolted on lathe tool fixed block.

Further, described horizontal slide rail and longitudinal slide rail are respectively provided with a regulating handle.

The advantage of the automatic regrinding machine that the utility model provides is: the utility model is simple and reasonable, by the mutual combination of feed well, feeding cylinder, feed appliance, pusher cylinder, fixing cylinder, rotating spindle, die fixture and lathe tool device, effectively can realize the automation mechanized operation of repairing press seal mould, do not need to drop into a large amount of productivity, reduce labour intensity, effectively can reduce producing cost, the precision improving mould repair and efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model automatic regrinding machine;

Fig. 2 is the structural representation of the feeding cylinder in Fig. 1;

Fig. 3 is the structural representation of feed appliance in Fig. 1 and pusher cylinder;

Fig. 4 is the structural representation of the fixing cylinder in Fig. 1;

Fig. 5 is the structural representation of rotating spindle in Fig. 1 and die fixture;

Fig. 6 is the structural representation of the lathe tool device in Fig. 1.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 1, Fig. 1 is the structural representation of the utility model automatic regrinding machine.

Described automatic regrinding machine, comprise pay-off 100 and arrangement for grinding 200, described pay-off 100 comprises feed well 110, feeding cylinder 120, feed appliance 130, pusher cylinder 140 and fixing cylinder 150, described arrangement for grinding 200 comprises rotating spindle 210, die fixture 220 and lathe tool device 230, described feeding cylinder 120 is just to feed appliance 130, described feed well 110 is between feeding cylinder 120 and feed appliance 130, and the outlet of feed well 110 and feeding cylinder 120 and feed appliance 130 are on same straight line, described pusher cylinder 140 is connected on feed appliance 130, and be connected with feed appliance 130 is vertical,

Described rotating spindle 210 is arranged on die fixture 220, described fixing cylinder 150 is on the axis of rotating spindle 210, and die fixture 220 is between rotating spindle 210 and fixing cylinder 150, a segment distance a is provided with between described die fixture 220 and fixing cylinder 150, described distance a can hold feed appliance 130 and lathe tool device 230, the straight line that axis and feeding cylinder 120 and the feed appliance 130 of described rotating spindle 210 are formed parallels, described feed appliance 130 and lathe tool device 230 are on the center line b between die fixture 220 and fixing cylinder 150, and feed appliance 130 and lathe tool device 230 can move along described center line b,

Described feed appliance 130 and lathe tool device 230 are located at the both sides of the axis of rotating spindle 210 respectively.

Described feed well 110 is horizontal by the inclination angle of 30 ° ~ 60 °.

See also Fig. 2 and Fig. 3, and composition graphs 1, wherein Fig. 2 is the structural representation of the feeding cylinder in Fig. 1; Fig. 3 is the structural representation of feed appliance in Fig. 1 and pusher cylinder.

Described feeding cylinder 120 comprises feeding push rod 121, and described feeding push rod 121 is connected with feeding cylinder 120 is pneumatic.

Described feed appliance 130 comprises feeding track 131, push rod 132, pusher bar support 133, first spring 134 and the first spring mountings 135, described pusher bar support 133 is located at the side of feeding track 131, push rod 132 is located on pusher bar support 133, and push rod 132 is coaxial with feeding track 131, one end of push rod 132 is in feeding track 131, the other end is in the outside of feeding track 131, first spring mountings 135 is fixed on the end, one end being in the outside of feeding track 131 on push rod 132, described first spring 134 interts on push rod 132, and one end is fixed on the first spring mountings 135, described feeding track 131 is coaxial with described feeding push rod 121.

Described pusher cylinder 140 is provided with pusher cylinder fixed block 141 and pusher cylinder balancing bar 142, described pusher cylinder balancing bar 142 is parallel to each other with pusher cylinder 140, and pusher cylinder balancing bar 142 and pusher cylinder 140 are vertically connected on feeding track 131 by pusher cylinder fixed block 141.

See also Fig. 4 and Fig. 5, and composition graphs 1, wherein Fig. 4 is the structural representation of the fixing cylinder in Fig. 1; Fig. 5 is the structural representation of rotating spindle in Fig. 1 and die fixture.

Described fixing cylinder 150 is provided with fixing cylinder fixed block 151, fixing cylinder push-rod 152, fixing cylinder balancing pole 153 and fixing cylinder balance weight 154, fixing cylinder 150 is fixed on fixing cylinder fixed block 151, described fixing cylinder push-rod 152 is connected with fixing cylinder 150 is pneumatic, fixing cylinder balance weight 154 is fixed on fixing cylinder push-rod 152, described fixing cylinder balancing pole 153 is parallel to each other with fixing cylinder 150, and fixing cylinder balancing pole 153 is connected with fixing cylinder balance weight 154 through fixing cylinder fixed block 151.

Described die fixture 220 comprises fixed body 221, mould jaw 222, die spacer block 223 and the second spring 224, described mould jaw 222 and rotating spindle 210 are located at the both sides of fixed body 221 respectively, and mould jaw 222 is connected on rotating spindle 210, the side of the close rotating spindle 210 on mould jaw 222 is provided with the cavity 2211 holding described second spring 224, one end of described second spring 224 is connected to the innermost end of cavity 2211, the other end is connected and fixed die spacer block 223, described die spacer block 223 is in the middle of mould jaw 222, described mould jaw 222 is coaxial with fixing cylinder push-rod 152.

Refer to Fig. 6, and composition graphs 1, Fig. 6 is the structural representation of the lathe tool device in Fig. 1.

Described lathe tool device 230 comprises lathe tool 231, lathe tool fixed block 232, horizontal slide rail 233, longitudinal slide rail 234 and pedestal 235, described longitudinal slide rail 234 is located on pedestal 235, horizontal slide rail 233 is located on longitudinal slide rail 234, lathe tool fixed block 232 is located at above horizontal slide rail 233, lathe tool 231 is bolted on lathe tool fixed block 232, and described horizontal slide rail 233 and longitudinal slide rail 234 are respectively provided with a regulating handle 236.

By the mutual combination of feed well 110, feeding cylinder 120, feed appliance 130, pusher cylinder 140, fixing cylinder 150, rotating spindle 210, die fixture 220 and lathe tool device 230, effectively can realize the automation mechanized operation of repairing press seal mould, do not need to drop into a large amount of productivity, reduce labour intensity, effectively can reduce producing cost, the precision improving mould repair and efficiency.

Operation principle of the present utility model is:

First press seal mould to be repaired is put into feed well 110 by successively, because feed well 110 has certain angle of inclination, press seal mould tumbles to feeding track 131 leading portion successively under the influence of gravity, feeding cylinder 120 action, sends press seal mould to be repaired into feeding track 131 by feeding push rod 121.

After press seal mould enters feeding track 131, feeding cylinder 120 is regained feeding push rod 121 and is departed from feeding track 131, keeps in the center and puts, and, be in press seal mould to be repaired in feed well 110 by Gravitational sliding, enter and treat feeding state.

When above action all completes, and after press seal mould enters feeding track 131, pusher cylinder 140 action, overall feeding track 131 is driven to move to rotating spindle 210 direction, here we have installed a pusher cylinder balancing bar 142 additional, mainly carry out balance to the motion process of pusher cylinder 140 and fix.

After pusher cylinder 140 pusher puts in place, fixing cylinder 150 action, drive fixing cylinder push-rod 152 to advance, promote push rod 132 and the press seal mould to be repaired in feeding track 131 is pushed in mould jaw 222, and by the rotation of rotating spindle 210, mould is fixed on mould jaw 222.

In whole pusher and fixation procedure, rely on the fixing motion of cylinder balancing pole 153 to fixing cylinder 150 to carry out balance and fix; After mating mold locating piece 223 makes the various press seal moulds of no matter different length finally fixing by mould jaw 222, plane to be repaired is in same position all the time, so just can effectively monitor the reparation degree of press seal mould.

After mould jaw 222 fixes press seal mould to be repaired, fixing cylinder 150 reclaims fixing cylinder push-rod 152, in the effect Regression original position of the first spring 134.Pusher cylinder 140 drives the rising of overall push feed system to recover initial position.

After above action completes, pusher cylinder 140 and fixing cylinder 150 recover initial position, rotating spindle 210 drives press seal mould to be repaired to carry out High Rotation Speed by mould jaw 222, lathe tool 231 lathe tool fixed block 232 fixing under, by the adjustment of horizontal slide rail 233 and longitudinal slide rail 234, to tram, start the repair to press seal mould to be repaired.By the time, after having repaired, initial position return by horizontal slide rail 233 and longitudinal slide rail 234, and mould jaw 222 unclamps.By means of the dynamics break away from moulds jaw 222 of the second spring 224 in fixed body 221, fall to out downwards in magazine and complete the whole action that repairs a die.

All idiographic flows being exactly automatic die repair machine and completing the repairing of single mould above; what the removing of whole process started put into mould and last tidy up mould by outside manual completing; all the other are all completed automatically by equipment; without the need to staff on duty; without the need to the skill operation of special specialty; greatly reduce manual operation intensity, decrease production cost, improve whole production efficiency.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (9)

1. automatic regrinding machine, it is characterized in that, comprise pay-off (100) and arrangement for grinding (200), described pay-off (100) comprises feed well (110), feeding cylinder (120), feed appliance (130), pusher cylinder (140) and fixing cylinder (150), described arrangement for grinding (200) comprises rotating spindle (210), die fixture (220) and lathe tool device (230), described feeding cylinder (120) is just to feed appliance (130), described feed well (110) is between feeding cylinder (120) and feed appliance (130), and the outlet of feed well (110) and feeding cylinder (120) and feed appliance (130) are on same straight line, described pusher cylinder (140) is connected on feed appliance (130), and be connected with feed appliance (130) is vertical,

Described rotating spindle (210) is arranged on die fixture (220), described fixing cylinder (150) is on the axis of rotating spindle (210), and die fixture (220) is between rotating spindle (210) and fixing cylinder (150), a segment distance (a) is provided with between described die fixture (220) and fixing cylinder (150), described distance (a) can hold feed appliance (130) and lathe tool device (230), the straight line that axis and feeding cylinder (120) and the feed appliance (130) of described rotating spindle (210) are formed parallels, described feed appliance (130) and lathe tool device (230) are on the center line (b) between die fixture (220) and fixing cylinder (150), and feed appliance (130) can be mobile along described center line (b) with lathe tool device (230),

Described feed appliance (130) and lathe tool device (230) are located at the both sides of the axis of rotating spindle (210) respectively.

2. automatic regrinding machine according to claim 1, is characterized in that, described feed well (110) is horizontal by the inclination angle of 30 ° ~ 60 °.

3. automatic regrinding machine according to claim 1, is characterized in that, described feeding cylinder (120) comprises feeding push rod (121), and described feeding push rod (121) is connected with feeding cylinder (120) is pneumatic.

4. automatic regrinding machine according to claim 3, it is characterized in that, described feed appliance (130) comprises feeding track (131), push rod (132), pusher bar support (133), first spring (134) and the first spring mountings (135), described pusher bar support (133) is located at the side of feeding track (131), push rod (132) is located on pusher bar support (133), and push rod (132) is coaxial with feeding track (131), one end of push rod (132) is in feeding track (131), the other end is in the outside of feeding track (131), first spring mountings (135) is fixed on the end, one end being in the outside of feeding track (131) on push rod (132), described first spring (134) is interted on push rod (132), and one end is fixed on the first spring mountings (135), described feeding track (131) is coaxial with described feeding push rod (121).

5. automatic regrinding machine according to claim 4, it is characterized in that, described pusher cylinder (140) is provided with pusher cylinder fixed block (141) and pusher cylinder balancing bar (142), described pusher cylinder balancing bar (142) and pusher cylinder (140) are parallel to each other, and pusher cylinder balancing bar (142) and pusher cylinder (140) are vertically connected on feeding track (131) by pusher cylinder fixed block (141).

6. automatic regrinding machine according to claim 1, it is characterized in that, described fixing cylinder (150) is provided with fixing cylinder fixed block (151), fixing cylinder push-rod (152), fixing cylinder balancing pole (153), with fixing cylinder balance weight (154), fixing cylinder (150) is fixed on fixing cylinder fixed block (151), described fixing cylinder push-rod (152) is connected with fixing cylinder (150) is pneumatic, fixing cylinder balance weight (154) is fixed on fixing cylinder push-rod (152), described fixing cylinder balancing pole (153) and fixing cylinder (150) are parallel to each other, and fixing cylinder balancing pole (153) is connected with fixing cylinder balance weight (154) through fixing cylinder fixed block (151).

7. automatic regrinding machine according to claim 6, it is characterized in that, described die fixture (220) comprises fixed body (221), mould jaw (222), die spacer block (223) and the second spring (224), described mould jaw (222) and rotating spindle (210) are located at the both sides of fixed body (221) respectively, and mould jaw (222) is connected on rotating spindle (210), the side of the close rotating spindle (210) on mould jaw (222) is provided with the cavity (2211) holding described second spring (224), one end of described second spring (224) is connected to the innermost end of cavity (2211), the other end is connected and fixed die spacer block (223), described die spacer block (223) is in the middle of mould jaw (222), described mould jaw (222) is coaxial with fixing cylinder push-rod (152).

8. automatic regrinding machine according to claim 1, it is characterized in that, described lathe tool device (230) comprises lathe tool (231), lathe tool fixed block (232), horizontal slide rail (233), longitudinal slide rail (234) and pedestal (235), described longitudinal slide rail (234) is located on pedestal (235), horizontal slide rail (233) is located on longitudinal slide rail (234), lathe tool fixed block (232) is located at horizontal slide rail (233) top, and lathe tool (231) is bolted on lathe tool fixed block (232).

9. automatic regrinding machine according to claim 8, is characterized in that, described horizontal slide rail (233) and longitudinal slide rail (234) are respectively provided with a regulating handle (236).