CN105171932A - Full-automatic glass drilling machine applied to production and processing of glass - Google Patents

Abstract

The invention discloses a full-automatic glass drilling machine applied to production and processing of glass. The full-automatic glass drilling machine comprises a machine base and a conveying device. The conveying device is located on the machine base. Vertical supporting frames are arranged on the two sides of the conveying device, an upper transverse frame is arranged at the upper ends of the vertical supporting frames, and a lower transverse frame is arranged at the lower ends of the vertical supporting frames. A first guide rail is arranged on the upper transverse frame and connected with an upper drilling mechanism, and the upper drilling mechanism comprises an upper drilling base and an upper drilling frame. A second guide rail is arranged on the lower transverse frame and connected with a lower drilling mechanism, and the lower drilling mechanism comprises a lower drilling base and a lower drilling frame. Glass workpieces are input from the front end of the machine, then the upper drilling mechanism and the lower drilling mechanism are used for drilling in the middle of the machine, and finally the glass workpieces with drilled holes are output from the rear end of the machine through the conveying device. The upper drilling mechanism is mounted on the upper transverse frame, the lower drilling mechanism is mounted on the lower transverse frame, and a drilling space is formed between the upper drilling mechanism and the lower drilling mechanism and used for drilling operation.

Description

A kind of full-automatic glass drilling machine being applied to glass production processing

Technical field

The present invention relates to glass production processing technique field, specifically refer to a kind of full-automatic glass drilling machine being applied to glass production processing.

Background technology

Glass drilling machine is the machine being specifically designed to glass drilling.The bore diameter of glass drilling machine is large, and support overhanging room is large, can machining large-sized glass, is indispensable plant equipment during glass processing is produced.But the drilling machine of prior art is many with unit, this equipment operating more complicated, streamline drilling operation can not be completed by full automation, by several workman by machine on glass platform, needed by glass the position of boring to move to fix below drill bit just can carry out glass drilling, after having bored a hole, if need to bore other hole, need again again to lift glass, retighten glass, and then carry out drilling operation, until complete all boring according to above-mentioned step.Finally also need artificial again being carried off from frame by hole-drilled glass to deposit, cannot automatic transmission and location be carried out, cannot pile line operation be carried out, very inconvenience, and inefficiency, process velocity and precision can not meet the demand of people.

Summary of the invention

The object of the present invention is to provide a kind of full-automatic glass drilling machine being applied to glass production processing, this machine construction is simple, science is convenient, with strong points, automaticity is high, locating and machining is accurate, convenient and swift, increase substantially operating efficiency, solve the drilling problems of glass production processing well.Conveying device is used for transporting glass workpiece, glass pieces is transported between upper borehole drill construction and lower borehole drill construction, carries out bore operation.Conveying device is longitudinally arranged, upper crossbearer and lower cross frame horizontally set, upper borehole drill construction and lower borehole drill construction can on upper crossbearer and lower cross frame moving linearly, like this from the front end input glass pieces of machine, then the centre of machine by borehole drill construction and lower borehole drill construction carry out bore operation, finally hole-drilled glass pieces is passed through conveying device, export in the rear end of machine.Upper borehole drill construction is installed on crossbearer, and lower borehole drill construction is installed on lower cross frame, is provided with borehole space, carries out bore operation between upper borehole drill construction and lower borehole drill construction.

In order to solve the problems of the technologies described above, adopt following technical scheme:

A kind of full-automatic glass drilling machine being applied to glass production processing, comprise support and conveying device, conveying device is positioned on support, the both sides of conveying device are provided with vertical bracing frame, the upper end of vertical bracing frame is provided with crossbearer, upper crossbearer is fixedly installed on vertical bracing frame, the lower end of vertical bracing frame is provided with lower cross frame, lower cross frame is fixedly installed in support, upper crossbearer and lower cross frame horizontally set, conveying device is longitudinally arranged, upper crossbearer is provided with the first guide rail, first guide rail is provided with the first slide block, first guide rail and the first slide block match, first slide block is connected with borehole drill construction, upper borehole drill construction comprises boring seat and upper boring frame, upper boring seat connects the first slide block, upper boring frame is movably installed on boring seat, lower cross frame is provided with the second guide rail, second guide rail is provided with the second slide block, second guide rail and the second slide block match, second slide block is connected with lower borehole drill construction, lower borehole drill construction comprises lower boring seat and lower boring frame, lower boring seat connects the second slide block, lower boring frame is movably installed on boring seat, horizontal mobile device is provided with between upper borehole drill construction and lower borehole drill construction.Conveying device is used for transporting glass workpiece, glass pieces is transported between upper borehole drill construction and lower borehole drill construction, carries out bore operation.Conveying device is longitudinally arranged, upper crossbearer and lower cross frame horizontally set, upper borehole drill construction and lower borehole drill construction can on upper crossbearer and lower cross frame moving linearly, like this from the front end input glass pieces of machine, then the centre of machine by borehole drill construction and lower borehole drill construction carry out bore operation, finally hole-drilled glass pieces is passed through conveying device, export in the rear end of machine.Upper borehole drill construction is installed on crossbearer, and lower borehole drill construction is installed on lower cross frame, is provided with borehole space, carries out bore operation between upper borehole drill construction and lower borehole drill construction.

Further, upper boring frame is connected with bent axle, one end of upper bent axle is connected with the first lever, the other end of the first lever is connected with the first cylinder, the other end of upper bent axle is connected with upper connecting rod, the other end of upper connecting rod is connected with connecting axle, the other end of upper connecting axle is connected with upper connecting base, upper connecting base is connected with the 3rd slide block, 3rd slide block is connected with the 3rd guide rail, 3rd slide block and the 3rd guide rail match, 3rd guide rail is fixedly installed on boring seat, the lower end of upper connecting base is provided with bore motor, upper bore motor is connected with auger spindle, the other end of upper auger spindle is connected with drill bit.When upper drill bit needs to make upper and lower rectilinear motion at vertical direction, by starting the first cylinder, the first cylinder makes flexible rectilinear motion, drives the first lever to prize crankshaft rotating.Upper boring frame is provided with the through hole (not marking in figure) making upper connecting rod make upper and lower linear slide, finally under the interlock effect of upper connecting axle, drives upper connecting base in the vertical direction to make upper and lower rectilinear motion.Upper boring seat is fixed with the 3rd slide block and the 3rd guide rail, such upper connecting base in the vertical direction is done in the process of upper and lower rectilinear motion, by cooperatively interacting of the 3rd slide block and the 3rd guide rail, upper connecting base in the vertical direction is driven to make upper and lower rectilinear motion better.The driving upper connecting base in the vertical direction of cylinder is adopted to make the mode of upper and lower rectilinear motion, energy-conserving and environment-protective, have that operating rate is fast, stable transmission, maintenance are convenient, cheap, it is little to take up room, action noise is little, power resources are convenient and low power consumption and other advantages.The lower end of upper connecting base is provided with bore motor, drives upper drill bit to make high speed rotary motion, complete bore operation by upper bore motor.

Further, lower boring frame is connected with lower bent axle, one end of lower bent axle is connected with the second lever, the other end of the second lever is connected with the second cylinder, the other end of lower bent axle is connected with lower connecting rod, the other end of lower connecting rod is connected with lower connecting axle, the other end of lower connecting axle is connected with lower connecting base, lower connecting base is connected with Four-slider, Four-slider is connected with the 4th guide rail, Four-slider and the 4th guide rail match, 4th guide rail is fixedly installed on lower boring seat, the upper end of lower connecting base is provided with lower bore motor, lower bore motor is connected with lower auger spindle, the other end of lower auger spindle is connected with lower drill bit.Instantly drill bit needs when vertical direction makes upper and lower rectilinear motion, and by starting the second cylinder, the second cylinder makes flexible rectilinear motion, drives the second lever to prize lower crankshaft rotating.Lower boring frame is provided with the through hole (not marking in figure) making lower connecting rod make upper and lower linear slide, finally under the interlock effect of lower connecting axle, drives lower connecting base in the vertical direction to make upper and lower rectilinear motion.Lower boring seat is fixed with Four-slider and the 4th guide rail, such lower connecting base in the vertical direction is done in the process of upper and lower rectilinear motion, by cooperatively interacting of Four-slider and the 4th guide rail, lower connecting base in the vertical direction is driven to make upper and lower rectilinear motion better.The driving lower connecting base in the vertical direction of cylinder is adopted to make the mode of upper and lower rectilinear motion, energy-conserving and environment-protective, have that operating rate is fast, stable transmission, maintenance are convenient, cheap, it is little to take up room, action noise is little, power resources are convenient and low power consumption and other advantages.The lower end of lower connecting base is provided with lower bore motor, drives lower drill bit to make high speed rotary motion, complete bore operation by lower bore motor.

Further, horizontal mobile device comprises horizontal drive motor, driving shaft, power transmission shaft and drive lead screw, power transmission shaft comprises uploads moving axis and lower drive shaft, drive lead screw comprises upper driving screw mandrel and underdrive screw mandrel, horizontal drive motor is fixedly installed in support, upload that moving axis is vertical with lower drive shaft to be arranged, driving shaft, upper driving screw mandrel and underdrive screw mandrel horizontally set, the centre of upper driving screw mandrel is provided with upper driving nut, upper driving nut is connected with upper driving nut seat, upper driving nut seat to be holed seat on connecting, the two ends of upper driving screw mandrel are provided with upper driving screw mandrel holder, the centre of underdrive screw mandrel is provided with underdrive nut, underdrive nut is connected with underdrive nut seat, underdrive nut seat to be holed seat under connecting, the two ends of underdrive screw mandrel are provided with underdrive screw mandrel holder.

Further, horizontal drive motor is connected with horizontal drive motor output shaft, and horizontal drive motor output shaft is provided with drive pulley, and driving shaft is provided with driven pulley, is provided with driving-belt between drive pulley and driven pulley.

Further, driving shaft is provided with active drive wheel, and the lower end of uploading moving axis is provided with driven driving wheel, and active drive wheel is meshed with upper driven driving wheel, and the upper end of lower drive shaft is provided with lower driven driving wheel, and active drive wheel is meshed with lower driven driving wheel.

Further, the upper end of uploading moving axis is provided with initiative driver, the left end of upper driving screw mandrel is provided with driven transmission wheel, upper initiative driver is meshed with upper driven transmission wheel, the lower end of lower drive shaft is provided with lower initiative driver, the left end of underdrive screw mandrel is provided with lower driven transmission wheel, and lower initiative driver is meshed with lower driven transmission wheel.Horizontal mobile device first provides driving force by horizontal drive motor, drives horizontal drive motor output shaft to make high speed rotary motion.Then the drive pulley being installed on horizontal drive motor output shaft is linked together by driving-belt with the driven pulley being installed on driving shaft, like this under the effect of conveyer belt, transfer a driving force on driving shaft.Then active drive wheel with on driven driving wheel engagement under and active drive take turns and lower driven driving wheel engagement under, driving force is passed to respectively and uploads on the upper and lower power transmission shaft of moving axis.Finally under the engagement of upper initiative driver with upper driven transmission wheel and under the engagement of lower initiative driver and lower driven transmission wheel, driving force is passed to respectively on upper driving screw mandrel and underdrive screw mandrel, like this at upper driving nut with under the effect of underdrive nut, boring seat and lower boring seat just can be driven on the first guide rail and the second guide rail, to make horizontal rectilinear motion respectively, the relative position in a lateral direction of drill bit and lower drill bit in adjustment, thus help upper drill bit and lower drill bit to complete bore operation.Such drive installation mode only needs to install a motor in a lateral direction, just can realize boring seat and lower boring seat makes horizontal rectilinear motion respectively on the first guide rail and the second guide rail, regulate upper drill bit and lower drill bit in a lateral direction simultaneously, not only greatly increase operating efficiency, and decrease a driving arrangement, while realizing identical work, decrease the part of machine, save the energy.

Further, conveying device comprises guide rails fixing support, conveying truss and table top lath, be provided with guide supporting between guide rails fixing support, guide rails fixing support is provided with conveying, and conveying is provided with conveying truss, conveying truss is provided with table top lath, and table top lath is fixedly installed on conveying truss.Conveying device is by conveying truss and table top lath, and table top lath is provided with the fixture (not shown in FIG.) of placing glass, clamping glass workpiece.The lower end of conveying truss is provided with conveying, and conveying makes conveying truss slide in the above, helps transporting glass workpiece.

Further, the side of conveying truss is provided with feed drive device, feed drive device comprises feed drive motor, feed drive motor is connected with conveyance screw mandrel, conveyance screw mandrel is provided with conveyance nut, conveyance nut is provided with conveying Connection Block, and conveying Connection Block connects conveying truss.Make high speed rotary motion by feed drive device feed drive driven by motor conveyance screw mandrel, under the effect of conveyance nut, conveying truss is slided on conveying, help transporting glass workpiece.

Further, the lower end of lower cross frame is provided with the first support, and the lower end of vertical bracing frame is provided with the second support, and the first support and second supports and is all fixedly installed in support.Support by first and the second support, support lower cross frame and vertical bracing frame respectively, make the structure of body more firm.

Owing to adopting technique scheme, there is following beneficial effect:

The present invention is a kind of full-automatic glass drilling machine being applied to glass production processing, this machine construction is simple, science is convenient, with strong points, automaticity is high, and locating and machining is accurate, convenient and swift, increase substantially operating efficiency, solve the drilling problems of glass production processing well.Conveying device is used for transporting glass workpiece, glass pieces is transported between upper borehole drill construction and lower borehole drill construction, carries out bore operation.Conveying device is longitudinally arranged, upper crossbearer and lower cross frame horizontally set, upper borehole drill construction and lower borehole drill construction can on upper crossbearer and lower cross frame moving linearly, like this from the front end input glass pieces of machine, then the centre of machine by borehole drill construction and lower borehole drill construction carry out bore operation, finally hole-drilled glass pieces is passed through conveying device, export in the rear end of machine.Upper borehole drill construction is installed on crossbearer, and lower borehole drill construction is installed on lower cross frame, is provided with borehole space, carries out bore operation between upper borehole drill construction and lower borehole drill construction.

When upper drill bit needs to make upper and lower rectilinear motion at vertical direction, by starting the first cylinder, the first cylinder makes flexible rectilinear motion, drives the first lever to prize crankshaft rotating.Upper boring frame is provided with the through hole (not marking in figure) making upper connecting rod make upper and lower linear slide, finally under the interlock effect of upper connecting axle, drives upper connecting base in the vertical direction to make upper and lower rectilinear motion.Upper boring seat is fixed with the 3rd slide block and the 3rd guide rail, such upper connecting base in the vertical direction is done in the process of upper and lower rectilinear motion, by cooperatively interacting of the 3rd slide block and the 3rd guide rail, upper connecting base in the vertical direction is driven to make upper and lower rectilinear motion better.The driving upper connecting base in the vertical direction of cylinder is adopted to make the mode of upper and lower rectilinear motion, energy-conserving and environment-protective, have that operating rate is fast, stable transmission, maintenance are convenient, cheap, it is little to take up room, action noise is little, power resources are convenient and low power consumption and other advantages.The lower end of upper connecting base is provided with bore motor, drives upper drill bit to make high speed rotary motion, complete bore operation by upper bore motor.Instantly drill bit needs when vertical direction makes upper and lower rectilinear motion, and by starting the second cylinder, the second cylinder makes flexible rectilinear motion, drives the second lever to prize lower crankshaft rotating.Lower boring frame is provided with the through hole (not marking in figure) making lower connecting rod make upper and lower linear slide, finally under the interlock effect of lower connecting axle, drives lower connecting base in the vertical direction to make upper and lower rectilinear motion.Lower boring seat is fixed with Four-slider and the 4th guide rail, such lower connecting base in the vertical direction is done in the process of upper and lower rectilinear motion, by cooperatively interacting of Four-slider and the 4th guide rail, lower connecting base in the vertical direction is driven to make upper and lower rectilinear motion better.The driving lower connecting base in the vertical direction of cylinder is adopted to make the mode of upper and lower rectilinear motion, energy-conserving and environment-protective, have that operating rate is fast, stable transmission, maintenance are convenient, cheap, it is little to take up room, action noise is little, power resources are convenient and low power consumption and other advantages.The lower end of lower connecting base is provided with lower bore motor, drives lower drill bit to make high speed rotary motion, complete bore operation by lower bore motor.

Horizontal mobile device first provides driving force by horizontal drive motor, drives horizontal drive motor output shaft to make high speed rotary motion.Then the drive pulley being installed on horizontal drive motor output shaft is linked together by driving-belt with the driven pulley being installed on driving shaft, like this under the effect of conveyer belt, transfer a driving force on driving shaft.Then active drive wheel with on driven driving wheel engagement under and active drive take turns and lower driven driving wheel engagement under, driving force is passed to respectively and uploads on the upper and lower power transmission shaft of moving axis.Finally under the engagement of upper initiative driver with upper driven transmission wheel and under the engagement of lower initiative driver and lower driven transmission wheel, driving force is passed to respectively on upper driving screw mandrel and underdrive screw mandrel, like this at upper driving nut with under the effect of underdrive nut, boring seat and lower boring seat just can be driven on the first guide rail and the second guide rail, to make horizontal rectilinear motion respectively, the relative position in a lateral direction of drill bit and lower drill bit in adjustment, thus help upper drill bit and lower drill bit to complete bore operation.Such drive installation mode only needs to install a motor in a lateral direction, just can realize boring seat and lower boring seat makes horizontal rectilinear motion respectively on the first guide rail and the second guide rail, regulate upper drill bit and lower drill bit in a lateral direction simultaneously, not only greatly increase operating efficiency, and decrease a driving arrangement, while realizing identical work, decrease the part of machine, save the energy.

Conveying device is by conveying truss and table top lath, and table top lath is provided with the fixture (not shown in FIG.) of placing glass, clamping glass workpiece.The lower end of conveying truss is provided with conveying, and conveying makes conveying truss slide in the above, helps transporting glass workpiece.Make high speed rotary motion by feed drive device feed drive driven by motor conveyance screw mandrel, under the effect of conveyance nut, conveying truss is slided on conveying, help transporting glass workpiece.Support by first and the second support, support lower cross frame and vertical bracing frame respectively, make the structure of body more firm.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the invention will be further described:

Fig. 1 is a kind of structural representation being applied to the full-automatic glass drilling machine of glass production processing in the present invention;

Fig. 2 is that in the present invention, upper borehole drill construction is installed on the perspective view on crossbearer;

Fig. 3 is that in the present invention, the first guide rail and upper driving screw mandrel are installed on the perspective view on crossbearer;

Fig. 4 is that in the present invention, the second guide rail and underdrive screw mandrel are installed on the perspective view on lower cross frame;

Fig. 5 is the perspective view of conveying device in the present invention;

Fig. 6 is the structural representation of upper borehole drill construction in the present invention;

Fig. 7 is the structural representation of lower borehole drill construction in the present invention;

Fig. 8 is that in the present invention, upper connecting base is installed on the structural representation on boring seat;

Fig. 9 be in the present invention in Fig. 8 A to structural representation;

Figure 10 is that in the present invention, lower connecting base is installed on the structural representation on lower boring seat;

Figure 11 be in the present invention in Figure 10 B to structural representation;

Figure 12 is the structural representation of upper boring frame in the present invention;

Figure 13 is the structural representation of upper bent axle in the present invention;

Figure 14 is the structural representation of horizontal mobile device in the present invention.

Detailed description of the invention

As shown in Fig. 1 to Figure 14, a kind of full-automatic glass drilling machine being applied to glass production processing, comprise support 1 and conveying device 3, conveying device 3 is positioned on support 1.The both sides of conveying device 3 are provided with vertical bracing frame 2, and the upper end of vertical bracing frame 2 is provided with crossbearer 9, and upper crossbearer 9 is fixedly installed on vertical bracing frame 2, and the lower end of vertical bracing frame 2 is provided with lower cross frame 10, and lower cross frame 10 is fixedly installed in support 1.The lower end of lower cross frame 10 is provided with the first support 8, and the lower end of vertical bracing frame 2 is provided with the second support 5, first support 8 and the second support 5 is all fixedly installed in support 1.Support 8 and second by first and support 5, support lower cross frame 10 and vertical bracing frame 2 respectively, make the structure of body more firm.Upper crossbearer 9 and lower cross frame 10 horizontally set, conveying device 3 is longitudinally arranged.Upper crossbearer 9 is provided with the first guide rail 11, first guide rail 11 and is provided with the first slide block 13, first guide rail 11 and the first slide block 13 matches, and the first slide block 13 is connected with borehole drill construction 4.Lower cross frame 10 is provided with the second guide rail 12, second guide rail 12 and is provided with the second slide block 14, second guide rail 12 and the second slide block 14 matches, and the second slide block 14 is connected with lower borehole drill construction 6.Glass pieces, for transporting glass workpiece, is transported between upper borehole drill construction 4 and lower borehole drill construction 6, carries out bore operation by conveying device 3.Conveying device 3 is longitudinally arranged, upper crossbearer 9 and lower cross frame 10 horizontally set, upper borehole drill construction 4 and lower borehole drill construction 6 can on upper crossbearer 9 and lower cross frame 10 moving linearly, like this from the front end input glass pieces of machine, then on the centre of machine is passed through, borehole drill construction 4 and lower borehole drill construction 6 carry out bore operation, finally hole-drilled glass pieces is passed through conveying device 3, export in the rear end of machine.Upper borehole drill construction 4 is installed on crossbearer 9, and lower borehole drill construction 6 is installed on lower cross frame 10, is provided with borehole space, carries out bore operation between upper borehole drill construction 4 and lower borehole drill construction 6.

Upper borehole drill construction 4 comprises boring seat 41 and upper boring frame 42, and upper boring seat 41 connects the first slide block 13, and upper boring frame 42 is movably installed on boring seat 41.Upper boring frame 42 is connected with bent axle 43, one end of upper bent axle 43 is connected with the first lever 45, the other end of the first lever 45 is connected with the first cylinder 46, the other end of upper bent axle 43 is connected with upper connecting rod 44, the other end of upper connecting rod 44 is connected with connecting axle 47, the other end of upper connecting axle 47 is connected with upper connecting base 48, upper connecting base 48 is connected with the 3rd slide block 53, 3rd slide block 53 is connected with the 3rd guide rail 52, 3rd slide block 53 and the 3rd guide rail 52 match, 3rd guide rail 52 is fixedly installed on boring seat 41, the lower end of upper connecting base 48 is provided with bore motor 49, upper bore motor 49 is connected with auger spindle 50, the other end of upper auger spindle 50 is connected with drill bit 51.When upper drill bit 51 needs to make upper and lower rectilinear motion at vertical direction, making flexible rectilinear motion by starting the first cylinder 46, first cylinder 46, driving the first lever 45 to prize bent axle 43 and rotating.Upper boring frame 42 is provided with the through hole (not marking in figure) making upper connecting rod 44 make upper and lower linear slide, finally under the interlock effect of upper connecting axle 47, drives upper connecting base 48 in the vertical direction to make upper and lower rectilinear motion.Upper boring seat 41 is fixed with the 3rd slide block 53 and the 3rd guide rail 52, such upper connecting base 48 in the vertical direction is done in the process of upper and lower rectilinear motion, by cooperatively interacting of the 3rd slide block 53 and the 3rd guide rail 52, upper connecting base 48 in the vertical direction is driven to make upper and lower rectilinear motion better.Driving upper connecting base 48 in the vertical direction of cylinder is adopted to make the mode of upper and lower rectilinear motion, energy-conserving and environment-protective, have that operating rate is fast, stable transmission, maintenance are convenient, cheap, it is little to take up room, action noise is little, power resources are convenient and low power consumption and other advantages.The lower end of upper connecting base 48 is provided with bore motor 49, drives upper drill bit 51 to make high speed rotary motion, complete bore operation by upper bore motor 49.

Lower borehole drill construction 6 comprises lower boring seat 61 and lower boring frame 62, and lower boring seat 61 connects the second slide block 14, and lower boring frame 62 is movably installed on boring seat 41.Lower boring frame 62 is connected with lower bent axle 63, one end of lower bent axle 63 is connected with the second lever 65, the other end of the second lever 65 is connected with the second cylinder 66, the other end of lower bent axle 63 is connected with lower connecting rod 64, the other end of lower connecting rod 64 is connected with lower connecting axle 67, the other end of lower connecting axle 67 is connected with lower connecting base 68, lower connecting base 68 is connected with Four-slider 93, Four-slider 93 is connected with the 4th guide rail 92, Four-slider 93 and the 4th guide rail 92 match, 4th guide rail 92 is fixedly installed on lower boring seat 61, the upper end of lower connecting base 68 is provided with lower bore motor 69, lower bore motor 69 is connected with lower auger spindle 70, the other end of lower auger spindle 70 is connected with lower drill bit 91.Instantly drill bit 91 needs when vertical direction makes upper and lower rectilinear motion, making flexible rectilinear motion, driving the second lever 65 to prize lower bent axle 63 and rotating by starting the second cylinder 66, second cylinder 66.Lower boring frame 62 is provided with the through hole (not marking in figure) making lower connecting rod 64 make upper and lower linear slide, finally under the interlock effect of lower connecting axle 67, drives lower connecting base 68 in the vertical direction to make upper and lower rectilinear motion.Lower boring seat 61 is fixed with Four-slider 93 and the 4th guide rail 92, such lower connecting base 68 in the vertical direction is done in the process of upper and lower rectilinear motion, by cooperatively interacting of Four-slider 93 and the 4th guide rail 92, lower connecting base 68 in the vertical direction is driven to make upper and lower rectilinear motion better.Driving lower connecting base 68 in the vertical direction of cylinder is adopted to make the mode of upper and lower rectilinear motion, energy-conserving and environment-protective, have that operating rate is fast, stable transmission, maintenance are convenient, cheap, it is little to take up room, action noise is little, power resources are convenient and low power consumption and other advantages.The lower end of lower connecting base 68 is provided with lower bore motor 69, drives lower drill bit 91 to make high speed rotary motion, complete bore operation by lower bore motor 69.

Horizontal mobile device 7 is provided with between upper borehole drill construction 4 and lower borehole drill construction 6.Horizontal mobile device 7 comprises horizontal drive motor 71, driving shaft 76, power transmission shaft and drive lead screw, power transmission shaft comprises uploads moving axis 77 and lower drive shaft 78, drive lead screw comprises upper driving screw mandrel 79 and underdrive screw mandrel 80, horizontal drive motor 71 is fixedly installed in support 1, upload that moving axis 77 is vertical with lower drive shaft 78 to be arranged, driving shaft 76, upper driving screw mandrel 79 and underdrive screw mandrel 80 horizontally set, the centre of upper driving screw mandrel 79 is provided with upper driving nut 83, upper driving nut 83 is connected with upper driving nut seat 85, upper driving nut seat 85 connects upper boring seat 41, the two ends of upper driving screw mandrel 79 are provided with upper driving screw mandrel holder 81, the centre of underdrive screw mandrel 80 is provided with underdrive nut 84, underdrive nut 84 is connected with underdrive nut seat 86, underdrive nut seat 86 connects lower boring seat 61, the two ends of underdrive screw mandrel 80 are provided with underdrive screw mandrel holder 82.Horizontal drive motor 71 is connected with horizontal drive motor output shaft 72, and horizontal drive motor output shaft 72 is provided with drive pulley 73, and driving shaft 76 is provided with driven pulley 75, is provided with driving-belt 74 between drive pulley 73 and driven pulley 75.Driving shaft 76 is provided with active drive wheel 95, the lower end of uploading moving axis 77 is provided with driven driving wheel 96, active drive wheel 95 is meshed with upper driven driving wheel 96, and the upper end of lower drive shaft 78 is provided with lower driven driving wheel 87, and active drive wheel 95 is meshed with lower driven driving wheel 87.The upper end of uploading moving axis 77 is provided with initiative driver 88, the left end of upper driving screw mandrel 79 is provided with driven transmission wheel 89, upper initiative driver 88 is meshed with upper driven transmission wheel 89, the lower end of lower drive shaft 78 is provided with lower initiative driver 97, the left end of underdrive screw mandrel 80 is provided with lower driven transmission wheel 98, and lower initiative driver 97 is meshed with lower driven transmission wheel 98.Horizontal mobile device 7 first provides driving force by horizontal drive motor 71, drives horizontal drive motor output shaft 72 to make high speed rotary motion.Then the drive pulley 73 being installed on horizontal drive motor output shaft 72 is linked together by driving-belt 74 with the driven pulley 75 being installed on driving shaft 76, like this under the effect of conveyer belt, transfer a driving force on driving shaft 76.Then active drive wheel 95 with on driven driving wheel 96 engagement under and active drive take turns 95 and lower driven driving wheel 87 engagement under, driving force is passed to respectively and uploads on the upper and lower power transmission shaft 78 of moving axis 77.Finally under upper initiative driver 88 with the engagement of upper driven transmission wheel 89 and under the engagement of lower initiative driver 97 and lower driven transmission wheel 98, driving force is passed to respectively on upper driving screw mandrel 79 and underdrive screw mandrel 80, like this at upper driving nut 83 with under the effect of underdrive nut 84, boring seat 41 and lower boring seat 61 just can be driven on the first guide rail 11 and the second guide rail 12, to make horizontal rectilinear motion respectively, the relative position in a lateral direction of drill bit 51 and lower drill bit 91 in adjustment, thus help upper drill bit 51 and lower drill bit 91 to complete bore operation.Such drive installation mode only needs to install a motor in a lateral direction, just can realize boring seat 41 and lower boring seat 61 makes horizontal rectilinear motion respectively on the first guide rail 11 and the second guide rail 12, regulate upper drill bit 51 and lower drill bit 91 in a lateral direction simultaneously, not only greatly increase operating efficiency, and decrease a driving arrangement, while realizing identical work, decrease the part of machine, save the energy.

Conveying device 3 comprises guide rails fixing support 31, conveying truss 33 and table top lath 34, guide supporting 38 is provided with between guide rails fixing support 31, guide rails fixing support 31 is provided with conveying 32, conveying 32 is provided with conveying truss 33, conveying truss 33 is provided with table top lath 34, and table top lath 34 is fixedly installed on conveying truss 33.Conveying device 3 is by conveying truss 33 and table top lath 34, and table top lath 34 is provided with the fixture (not shown in FIG.) of placing glass, clamping glass workpiece.The lower end of conveying truss 33 is provided with conveying 32, and conveying 32 makes conveying truss 33 slide in the above, helps transporting glass workpiece.The side of conveying truss 33 is provided with feed drive device, feed drive device comprises feed drive motor 39, feed drive motor 39 is connected with conveyance screw mandrel 37, conveyance screw mandrel 37 is provided with conveyance nut 35, conveyance nut 35 is provided with conveying Connection Block 36, and conveying Connection Block 36 connects conveying truss 33.Drive conveyance screw mandrel 37 to make high speed rotary motion by feed drive device feed drive motor 39, under the effect of conveyance nut 35, conveying truss 33 is slided on conveying 32, help transporting glass workpiece.

A kind of operation principle being applied to the full-automatic glass drilling machine of glass production processing of the present invention: when starting to carry out glass drilling operation, first glass pieces is fixed on conveying truss 33, start feed drive motor 39, glass pieces is transported between upper borehole drill construction 4 and lower borehole drill construction 6 by conveying device 3 from the front end of machine, then by horizontal mobile device 7, borehole drill construction 4 and lower borehole drill construction 6 is made on the first guide rail 11 and the second guide rail 12, to make horizontal rectilinear motion respectively, drill bit 51 and lower drill bit 91 and the relative position in the horizontal direction of glass pieces in adjustment.Then the first cylinder 46 and the second cylinder 66 is started respectively, drive upper borehole drill construction 4 and the rectilinear motion of lower borehole drill construction 6 on upper boring seat 41 and lower boring seat 61 on vertical direction respectively, in adjustments drill bit 51 and lower drill bit 91 and glass pieces vertical direction on relative position.To be regulated when going up well relative position with glass pieces of drill bit 51 and lower drill bit 91, in startup, bore motor 49 and lower bore motor 69, carry out bore operation, completes a drilling operation.Above-mentioned method is finally installed, completes the bore operation of other position in glass pieces respectively.After all drilling operations to be done, by conveying device 3, the glass pieces completing boring is exported by the rear end of machine, thus completes whole bore operation.

These are only specific embodiments of the invention, but technical characteristic of the present invention is not limited thereto.Any based on the present invention, for solving substantially identical technical problem, realize substantially identical technique effect, done ground simple change, equivalent replacement or modification etc., be all covered by among protection scope of the present invention.

Claims (10)

1. one kind is applied to the full-automatic glass drilling machine of glass production processing, comprise support and conveying device, described conveying device is positioned on described support, it is characterized in that: the both sides of described conveying device are provided with vertical bracing frame, the upper end of described vertical bracing frame is provided with crossbearer, described upper crossbearer is fixedly installed on described vertical bracing frame, the lower end of described vertical bracing frame is provided with lower cross frame, described lower cross frame is fixedly installed in described support, described upper crossbearer and described lower cross frame horizontally set, described conveying device is longitudinally arranged, described upper crossbearer is provided with the first guide rail, described first guide rail is provided with the first slide block, described first guide rail and described first slide block match, described first slide block is connected with borehole drill construction, upper borehole drill construction comprises boring seat and upper boring frame, described upper boring seat connects described first slide block, described upper boring frame is movably installed on described upper boring seat, described lower cross frame is provided with the second guide rail, described second guide rail is provided with the second slide block, described second guide rail and described second slide block match, described second slide block is connected with lower borehole drill construction, described lower borehole drill construction comprises lower boring seat and lower boring frame, described lower boring seat connects described second slide block, described lower boring frame is movably installed on described upper boring seat, horizontal mobile device is provided with between described upper borehole drill construction and described lower borehole drill construction.

2. according to claim 1 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: described upper boring frame is connected with bent axle, one end of described upper bent axle is connected with the first lever, the other end of described first lever is connected with the first cylinder, the other end of described upper bent axle is connected with upper connecting rod, the other end of described upper connecting rod is connected with connecting axle, the other end of described upper connecting axle is connected with upper connecting base, described upper connecting base is connected with the 3rd slide block, described 3rd slide block is connected with the 3rd guide rail, described 3rd slide block and described 3rd guide rail match, described 3rd guide rail is fixedly installed on described upper boring seat, the lower end of described upper connecting base is provided with bore motor, described upper bore motor is connected with auger spindle, the other end of described upper auger spindle is connected with drill bit.

3. according to claim 1 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: described lower boring frame is connected with lower bent axle, one end of described lower bent axle is connected with the second lever, the other end of described second lever is connected with the second cylinder, the other end of described lower bent axle is connected with lower connecting rod, the other end of described lower connecting rod is connected with lower connecting axle, the other end of described lower connecting axle is connected with lower connecting base, described lower connecting base is connected with Four-slider, described Four-slider is connected with the 4th guide rail, described Four-slider and described 4th guide rail match, described 4th guide rail is fixedly installed on described lower boring seat, the upper end of described lower connecting base is provided with lower bore motor, described lower bore motor is connected with lower auger spindle, the other end of described lower auger spindle is connected with drill bit.

4. according to claim 1 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: described horizontal mobile device comprises horizontal drive motor, driving shaft, power transmission shaft and drive lead screw, described power transmission shaft comprises uploads moving axis and lower drive shaft, described drive lead screw comprises upper driving screw mandrel and underdrive screw mandrel, described horizontal drive motor is fixedly installed in described support, describedly upload that moving axis is vertical with described lower drive shaft to be arranged, described driving shaft, described upper driving screw mandrel and described underdrive screw mandrel horizontally set, the centre of described upper driving screw mandrel is provided with upper driving nut, described upper driving nut is connected with upper driving nut seat, described upper driving nut seat connects described upper boring seat, the two ends of described upper driving screw mandrel are provided with upper driving screw mandrel holder, the centre of described underdrive screw mandrel is provided with underdrive nut, described underdrive nut is connected with underdrive nut seat, described underdrive nut seat connects described lower boring seat, the two ends of described underdrive screw mandrel are provided with underdrive screw mandrel holder.

5. according to claim 4 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: described horizontal drive motor is connected with horizontal drive motor output shaft, described horizontal drive motor output shaft is provided with drive pulley, described driving shaft is provided with driven pulley, is provided with driving-belt between described drive pulley and described driven pulley.

6. according to claim 4 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: described driving shaft is provided with active drive wheel, described lower end of uploading moving axis is provided with driven driving wheel, described active drive wheel is meshed with described driven driving wheel, the upper end of described lower drive shaft is provided with lower driven driving wheel, and described active drive wheel is meshed with described lower driven driving wheel.

7. according to claim 4 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: described in upload moving axis upper end be provided with initiative driver, the left end of described upper driving screw mandrel is provided with driven transmission wheel, described upper initiative driver is meshed with described upper driven transmission wheel, the lower end of described lower drive shaft is provided with lower initiative driver, the left end of described underdrive screw mandrel is provided with lower driven transmission wheel, and described lower initiative driver is meshed with described lower driven transmission wheel.

8. according to claim 1 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: described conveying device comprises guide rails fixing support, conveying truss and table top lath, guide supporting is provided with between described guide rails fixing support, described guide rails fixing support is provided with conveying, described conveying is provided with described conveying truss, and described conveying truss is provided with described table top lath, and described table top lath is fixedly installed on described conveying truss.

9. according to claim 8 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: the side of described conveying truss is provided with feed drive device, described feed drive device comprises feed drive motor, described feed drive motor is connected with conveyance screw mandrel, described conveyance screw mandrel is provided with conveyance nut, described conveyance nut is provided with conveying Connection Block, and described conveying Connection Block connects described conveying truss.

10. according to claim 1 a kind of be applied to glass production processing full-automatic glass drilling machine, it is characterized in that: the lower end of described lower cross frame is provided with the first support, the lower end of described vertical bracing frame is provided with the second support, and described first support and described second supports and is all fixedly installed in described support.