CN204171490U - Tire-mold flower block punch - Google Patents

Abstract

The utility model discloses a kind of tire-mold flower block punch, comprises workbench, mould bases, flower block wabbler mechanism, installing plate, punch pin wabbler mechanism, column, punch pin parts and bobbin; Described workbench moves along X, Y direction, and described mould bases is articulated in described workbench and is parallel to Y-axis with the pivot joint central shaft of described workbench pivot joint, and described colored block wabbler mechanism drives described mould bases to wave; Described installing plate is articulated in the upper end of described column and is parallel to X-axis with the pivot joint central shaft of described column pivot joint, and described punch pin wabbler mechanism is installed on the upper end of described column and drives described installing plate to wave; Described bobbin is parallel to Z axis and is positioned at the top of described tire-mold, and described punch pin parts to be fixed on described installing plate and to drive described bobbin move up and down along Z-direction and bore a hole to tire-mold.It is easily simple that the utility model tire-mold flower block punch has processing, and labour intensity is little, the advantage that mould yield rate is high.

Description

Tire-mold flower block punch

Technical field

The utility model relates to a kind of tire-mold flower block punch, and particularly relate to a kind of processing easily simple, labour intensity is little, the tire-mold flower block punch that mould yield rate is high.

Background technology

Air-vent on tire-mold flower block is circular arc because of the shape of mould, requires both to have required in process that tire-mold rotated around tire centerline, requires that again mould is around the arcuate rotation of tire cross section, vertical with petal normal direction to ensure the air-vent processed.Current domestic tire-mold device fabrication enterprise many employings common driller coordinates the tooling fixture boring of particular design to realize.This process not only causes machine operation personnel labor intensity large, and very easily causes broken drill because of chip removal difficulty when the Small Holes larger to draw ratio on aluminum alloy material mould carries out bore operation and cause mould waster.

Based on above-mentioned deficiency, need a kind of processing easily simple, labour intensity is little, the tire-mold flower block punch that mould yield rate is high.

Utility model content

It is easily simple that the purpose of this utility model is to provide a kind of processing, and labour intensity is little, the tire-mold flower block punch that mould yield rate is high.

To achieve these goals, the tire-mold flower block punch that the utility model provides comprises workbench, mould bases, flower block wabbler mechanism, installing plate, punch pin wabbler mechanism, column, punch pin parts and bobbin; Described workbench moves along X, Y direction, and described mould bases is articulated in described workbench and is parallel to Y-axis with the pivot joint central shaft of described workbench pivot joint, and described colored block wabbler mechanism to be installed on described workbench and to drive described mould bases to wave; Described tire-mold is fixed on described mould bases; Described installing plate is articulated in the upper end of described column and is parallel to X-axis with the pivot joint central shaft of described column pivot joint, and described punch pin wabbler mechanism is installed on the upper end of described column and drives described installing plate to wave; Described bobbin is parallel to Z axis and is positioned at the top of described tire-mold, and described punch pin parts to be fixed on described installing plate and to drive described bobbin move up and down along Z-direction and bore a hole to tire-mold.

Compared with prior art, because the utility model arranges workbench, described workbench can along X, Y direction moves, the pivot joint central shaft of described mould bases and described workbench is parallel to Y-axis, the pivot joint central shaft of described installing plate and described column is parallel to X-axis, described mould bases is driven to wave in the plane of X-axis by utilizing colored block wabbler mechanism, and by utilizing punch pin wabbler mechanism to drive described punch pin parts to wave in the plane of Y-axis, thus when described tire-mold is installed on described mould bases, can at X, movable in Y-axis, and at X, the plane of Y-axis swings certain angle, tire-mold is enable to aim at the described bobbin of the side of being located thereon rapidly when described mould bases is movable in X, Y-axis, the arcwall face of the cross section of described tire-mold can be made when described mould bases swings in the plane of X-axis to rotate, and then make described tangent line of taking turns the point of the both sides of film die vertical with described bobbin to process the air-vent vertical with petal normal direction, when described punch pin parts swing in the plane of Y-axis, described bobbin can be made adjustably perpendicular to the tangent line of the point at the arc place in the front of described tire-mold, and then process the air-vent vertical with petal normal direction, by above-mentioned structure, adding man-hour, only need the position adjusting described mould bases and punch pin parts simply just can make any point of whole described tire-mold can process air-vent quickly and accurately, process simple and convenient, and labour intensity is little, effectively improve mould yield rate high.

Preferably, described workbench comprises base, the first slide unit and the second slide unit, described first slide unit is arranged at the upper surface of described base and is slided along X-direction by slide rail, and described second slide unit is arranged at the upper surface of described first slide unit and is slided along Y direction by slide rail.

Preferably, described colored block wabbler mechanism comprises the first motor, the first worm shaft and the first worm gear, described first worm gear is fixed on the pivot joint central shaft of described mould bases and described workbench pivot joint, described first worm shaft is articulated in described workbench and engages with described first worm gear, and the output of described first motor and one end of described first worm shaft are coaxially fixed.

Preferably, described colored block wabbler mechanism comprises the first handwheel, the first worm shaft and the first worm gear, described first worm gear is fixed on the pivot joint central shaft of described mould bases and described workbench pivot joint, described first worm shaft is articulated in described workbench and engages with described first worm gear, and one end of described first handwheel and described first worm shaft is coaxially fixed.

Preferably, described punch pin wabbler mechanism comprises driving mechanism and rotating shaft, described rotating shaft is articulated in the upper end of described column by bearing block and one end of described rotating shaft and described installing plate are coaxially fixed, and described driving mechanism is installed on the other end of described rotating shaft and drives described axis of rotation.

Particularly, described driving mechanism comprises the second motor, the second worm shaft, the second worm gear and worm gear case, described worm gear case is fixed on described column, described second worm gear is fixed in described rotating shaft, described second worm shaft is articulated in described worm gear case and engages with described second worm gear, and described second motor is fixed on described worm gear case and one end of the output of described second motor and described second worm shaft is coaxially fixed.

Particularly, described driving mechanism comprises the second handwheel, the second worm shaft, the second worm gear and worm gear case, described worm gear case is fixed on described column, described second worm gear is fixed in described rotating shaft, described second worm shaft is articulated in described worm gear case and engages with described second worm gear, and one end of described second handwheel and described second worm shaft is coaxially fixed.

Particularly, described tire-mold flower block punch also comprises locking mechanism, described locking mechanism comprises two latch segments, lock shaft and set lever, latch segment described in two is arranged at the both sides of the cambered surface of described rotating shaft slidably, described lock shaft is threaded with latch segment described in two, the screw thread of latch segment described in two is arranged in contrary, and described set lever is fixed on one end of described lock shaft.

More specifically, described locking mechanism also comprises dowel pin, and the side opening of described lock shaft is provided with the locating slot of annular, and described dowel pin to be arranged in described bearing block and to be inserted in described locating slot.

Preferably, described punch pin parts comprise belt pulley driven unit, screw mandrel, slide block and punch pin, described belt pulley driven unit is installed on described installing plate and one end of driven pulley and described screw mandrel and coaxially fixes, described slide block is threadably connected to described screw mandrel, described punch pin is fixed on described slide block, and described punch pin is fixed in the upper end of described bobbin.

Accompanying drawing explanation

Fig. 1 is the side profile schematic diagram of the utility model tire-mold flower block punch.

Fig. 2 is the structural representation that the utility model mould bases is articulated in workbench.

Fig. 3 is the structural representation that the utility model punch pin parts are installed on installing plate.

Fig. 4 is the sectional view in A-A direction in Fig. 1.

Fig. 5 is the sectional view in B-B direction in Fig. 3.

Fig. 6 is the front section view of punch pin parts, mould bases and workbench.

Detailed description of the invention

For describing technology contents of the present utility model, structural feature, the effect that realizes in detail, accompanying drawing is coordinated to be explained in detail below in conjunction with embodiment.

As shown in Figure 1, the utility model tire-mold flower block punch 100 comprises workbench 1, mould bases 2, flower block wabbler mechanism 3, installing plate 4, punch pin wabbler mechanism 5, column 6, locking mechanism 7, punch pin parts 8 and bobbin 9.Specific as follows:

Refer to Fig. 2, described workbench 1 moves along X, Y direction, and described mould bases 2 is articulated in described workbench 1 and is parallel to Y-axis with the pivot joint central shaft of described workbench 1 pivot joint, and described tire-mold 200 is fixed on described mould bases 2; Particularly, described workbench 1 comprises base (not shown), the first slide unit 11 and the second slide unit 12, described first slide unit 11 is arranged at the upper surface of described base and is slided along X-direction by slide rail, and described second slide unit 12 is arranged at the upper surface of described first slide unit 11 and is slided along Y direction by slide rail.Described mould bases 2 is fixed on described second slide unit 12.

Refer to Fig. 2 again, described colored block wabbler mechanism 3 to be installed on described second slide unit 12 and to drive described mould bases 2 to wave; Particularly, described colored block wabbler mechanism 3 comprises the first motor 31, first worm shaft 32, first worm gear 33 and the first handwheel 34; Described first worm gear 33 is fixed on described mould bases 2 with on the pivot joint central shaft of described workbench 11 pivot joint; The central axis direction of described first worm shaft 32 is arranged along X-direction, and described first worm shaft 32 is engaged with described first worm gear 33 in described workbench 1 by bearing block and bearing hinge joint; The output of described first motor 31 and one end of described first worm shaft 32 are coaxially fixed.Described first handwheel 34 is coaxially fixed with the other end of described first worm shaft 32.Described first worm shaft 33 coordinates with described first worm gear 33 can make described mould bases 2 can wave very little angle, thus the angle that described mould bases 2 is rotated is very accurate.Further, utilize described first motor 31 and the first handwheel 34 to drive, both can utilize control system automatic operation, also can manual human users where necessary, make operation very easy; Certainly, the object that described first motor 31 or described first handwheel 34 also can realize waving described mould bases 2 also can be only set.

Again as shown in Figure 3, described installing plate 4 is articulated in the upper end of described column 6 and is parallel to X-axis with the pivot joint central shaft of described column 6 pivot joint.Described bobbin 9 is parallel to Z axis and is positioned at the top of described tire-mold 200, and described punch pin parts 8 to be fixed on described installing plate 4 and to drive described bobbin 9 move up and down along Z-direction and bore a hole to tire-mold 200.Described punch pin parts 8 comprise belt pulley driven unit 81, screw mandrel 82, slide block 83 and punch pin 84, described belt pulley driven unit 81 is installed on described installing plate 4 and one end of driven pulley and described screw mandrel 82 and coaxially fixes, described screw mandrel 82 is arranged along Z-direction, described slide block 83 is threadably connected to described screw mandrel 82, described punch pin 84 is fixed on described slide block 83, described punch pin 84 is fixed in the upper end of described bobbin 9, and described punch pin 84 can carry out electric discharge processing by described bobbin 9 to described tire-mold 200.

As shown in Figure 4, described punch pin wabbler mechanism 5 is installed on the upper end of described column 6 and drives described installing plate 4 to wave; Described punch pin wabbler mechanism 5 comprises driving mechanism 51 and rotating shaft 52, described rotating shaft 52 by bearing block 521 and bearing hinge joint in the upper end of described column 6 and one end of described rotating shaft 52 and described installing plate 4 coaxially fix, described driving mechanism 51 is installed on the other end of described rotating shaft 52 and drives described rotating shaft 52 to rotate.Particularly, described driving mechanism 51 comprises the second motor 511, second worm shaft 512, second worm gear 513, worm gear case 514 and the second handwheel 515, described worm gear case 514 is fixed on described column 6, described second worm gear 513 is fixed in described rotating shaft 52, described second worm shaft 512 is articulated in described worm gear case 514 and engages with described second worm gear 513, and described second motor 511 is fixed on described worm gear case 514 and one end of the output of described second motor 511 and described second worm shaft 512 is coaxially fixed.Described second handwheel 515 is coaxially fixed with the other end of described second worm shaft 512.Described second worm shaft 512 coordinates with described second worm gear 513 can make described punch pin parts 8 can wave very little angle, thus the angle that described bobbin 9 is rotated is very accurate.Further, utilize described second motor 511 and the second handwheel 515 to drive, both can utilize control system automatic operation, also can manual human users where necessary, make operation very easy; Certainly, the object that described second motor 511 or described second handwheel 515 also can realize waving described punch pin parts 8 also can be only set.

Again as shown in Figure 5, described locking mechanism 7 comprises two latch segments 71, lock shaft 72, set lever 73 and dowel pin 74, described bearing block 521 offers lock hole 521a along Y-axis and makes the cambered surface 522 of described rotating shaft 52 protrude in described lock hole 521a, latch segment 71 described in two to be placed in slidably in described lock hole 521a and to lay respectively at the both sides of the cambered surface 522 of described rotating shaft 52, described lock shaft 72 to be socketed in described lock hole 521a and to be threaded with latch segment described in two 71, the screw thread of latch segment 71 described in two is arranged in contrary, described set lever 73 is fixed on one end of described lock shaft 72.By arranging latch segment 71 described in two and described lock shaft 72, make latch segment 71 described in two be provided with rightabout screw thread, thus make described lock shaft 72 can drive latch segment 71 described in two in opposite directions or opposing and go; When latch segment described in two 71 goes in the same direction and described rotating shaft 52 inconsistent and stop rotating shaft 52 unintentional rotation, and then realize object that described rotating shaft 52 is positioned.The side opening of described lock shaft 72 is provided with the locating slot 721 of annular, and described dowel pin 74 to be arranged in described bearing block 521 and to be inserted in described locating slot 721.Described dowel pin 74 can prevent described lock shaft 72 to be shifted, thus ensures the effective contact of described latch segment 71 to described rotating shaft 52.

Comprehensively above-mentioned, and composition graphs 6, during work, manually or use other driving mechanisms to promote described first slide unit 11 and the second slide unit 12 moves along X, Y direction respectively, described workbench 1 is made to drive described tire-mold 200 to be positioned at immediately below described bobbin 9, start described first motor 31, described first motor 31 drives described first worm gear 33 to rotate by described first worm shaft 32, and described first worm gear 33 drives described mould bases 2 in the plane rocking θ angle of X-axis; Start the second motor 511, described second motor 511 drives described rotating shaft 52 to rotate, and described rotating shaft 52 drives described installing plate 4 in the plane rocking β angle of Y-axis; Drive described screw mandrel 82 by described belt pulley driven unit 81 again, make described slide block 83 drive described punch pin 84 and bobbin 9 to move down along Z axis, thus electric discharge processing is carried out to described tire-mold 200.

Compared with prior art, because the utility model arranges workbench 1, described workbench 1 can along X, Y direction moves, described mould bases 2 is parallel to Y-axis with the pivot joint central shaft of described workbench 1, described installing plate 4 is parallel to X-axis with the pivot joint central shaft of described column 6, described mould bases 2 is driven to wave in the plane of X-axis by utilizing colored block wabbler mechanism 3, and by utilizing punch pin wabbler mechanism 5 to drive described punch pin parts 8 to wave in the plane of Y-axis, thus when described tire-mold 200 is installed on described mould bases 2, can at X, movable in Y-axis, and at X, the plane of Y-axis swings certain angle, make tire-mold 200 can aim at the described bobbin 9 of the side of being located thereon rapidly when described mould bases 2 is movable in X, Y-axis, the arcwall face of the cross section of described tire-mold 200 can be made when described mould bases 2 swings in the plane of X-axis to rotate, and then make described tangent line of taking turns the point of the both sides of film die 200 vertical with described bobbin 9 to process the air-vent vertical with petal normal direction, when described punch pin parts 8 swing in the plane of Y-axis, described bobbin 9 can be made adjustably perpendicular to the tangent line of the point at the arc place in the front of described tire-mold 200, and then process the air-vent vertical with petal normal direction, by above-mentioned structure, adding man-hour, only need the position adjusting described mould bases 2 and punch pin parts 8 simply just can make any point of whole described tire-mold 200 can process air-vent quickly and accurately, process simple and convenient, and labour intensity is little, effectively improve mould yield rate high.

Electric discharge process principle involved by the utility model tire-mold flower block punch and structure are well known to those of ordinary skill in the art, are no longer described in detail at this.

Above disclosedly be only preferred embodiments of the present utility model, certainly can not limit the interest field of the utility model with this, therefore according to the equivalent variations that the utility model claim is done, still belong to the scope that the utility model is contained.

Claims (10)

1. a tire-mold flower block punch, is characterized in that: comprise workbench, mould bases, flower block wabbler mechanism, installing plate, punch pin wabbler mechanism, column, punch pin parts and bobbin; Described workbench moves along X, Y direction, and described mould bases is articulated in described workbench and is parallel to Y-axis with the pivot joint central shaft of described workbench pivot joint, and described colored block wabbler mechanism to be installed on described workbench and to drive described mould bases to wave; Described tire-mold is fixed on described mould bases; Described installing plate is articulated in the upper end of described column and is parallel to X-axis with the pivot joint central shaft of described column pivot joint, and described punch pin wabbler mechanism is installed on the upper end of described column and drives described installing plate to wave; Described bobbin is parallel to Z axis and is positioned at the top of described tire-mold, and described punch pin parts to be fixed on described installing plate and to drive described bobbin move up and down along Z-direction and bore a hole to tire-mold.

2. tire-mold flower block punch as claimed in claim 1, it is characterized in that: described workbench comprises base, the first slide unit and the second slide unit, described first slide unit is arranged at the upper surface of described base and is slided along X-direction by slide rail, and described second slide unit is arranged at the upper surface of described first slide unit and is slided along Y direction by slide rail.

3. tire-mold flower block punch as claimed in claim 1, it is characterized in that: described colored block wabbler mechanism comprises the first motor, the first worm shaft and the first worm gear, described first worm gear is fixed on the pivot joint central shaft of described mould bases and described workbench pivot joint, described first worm shaft is articulated in described workbench and engages with described first worm gear, and the output of described first motor and one end of described first worm shaft are coaxially fixed.

4. tire-mold flower block punch as claimed in claim 1, it is characterized in that: described colored block wabbler mechanism comprises the first handwheel, the first worm shaft and the first worm gear, described first worm gear is fixed on the pivot joint central shaft of described mould bases and described workbench pivot joint, described first worm shaft is articulated in described workbench and engages with described first worm gear, and one end of described first handwheel and described first worm shaft is coaxially fixed.

5. tire-mold flower block punch as claimed in claim 1, it is characterized in that: described punch pin wabbler mechanism comprises driving mechanism and rotating shaft, described rotating shaft is articulated in the upper end of described column by bearing block and one end of described rotating shaft and described installing plate are coaxially fixed, and described driving mechanism is installed on the other end of described rotating shaft and drives described axis of rotation.

6. tire-mold flower block punch as claimed in claim 5, it is characterized in that: described driving mechanism comprises the second motor, the second worm shaft, the second worm gear and worm gear case, described worm gear case is fixed on described column, described second worm gear is fixed in described rotating shaft, described second worm shaft is articulated in described worm gear case and engages with described second worm gear, and described second motor is fixed on described worm gear case and one end of the output of described second motor and described second worm shaft is coaxially fixed.

7. tire-mold flower block punch as claimed in claim 5, it is characterized in that: described driving mechanism comprises the second handwheel, the second worm shaft, the second worm gear and worm gear case, described worm gear case is fixed on described column, described second worm gear is fixed in described rotating shaft, described second worm shaft is articulated in described worm gear case and engages with described second worm gear, and one end of described second handwheel and described second worm shaft is coaxially fixed.

8. tire-mold flower block punch as claimed in claim 5, it is characterized in that: described tire-mold flower block punch also comprises locking mechanism, described locking mechanism comprises two latch segments, lock shaft and set lever, latch segment described in two is arranged at the both sides of the cambered surface of described rotating shaft slidably, described lock shaft is threaded with latch segment described in two, the screw thread of latch segment described in two is arranged in contrary, and described set lever is fixed on one end of described lock shaft.

9. tire-mold flower block punch as claimed in claim 8, it is characterized in that: described locking mechanism also comprises dowel pin, the side opening of described lock shaft is provided with the locating slot of annular, and described dowel pin to be arranged in described bearing block and to be inserted in described locating slot.

10. tire-mold flower block punch as claimed in claim 1, it is characterized in that: described punch pin parts comprise belt pulley driven unit, screw mandrel, slide block and punch pin, described belt pulley driven unit is installed on described installing plate and one end of driven pulley and described screw mandrel and coaxially fixes, described slide block is threadably connected to described screw mandrel, described punch pin is fixed on described slide block, and described punch pin is fixed in the upper end of described bobbin.