CN208484053U - A kind of glass carving machine with gauge head - Google Patents

Abstract

The utility model discloses a kind of glass carving machine with gauge head, including head sliding assembly, touch trigger probe, slide assemblies, stylus, tool setting gauge, slide assemblies are installed in the front of head sliding assembly, touch trigger probe is installed on slide assemblies by mounting base, stylus is connected with touch trigger probe, and tool setting gauge is installed on the table.The utility model structure is simple, pass through the setting of tool setting gauge, the length of tool setting gauge automatic tool preset tool measures, real-time wear monitoring can be carried out to the lesser cutter of diameter, the loss of cutter is effectively reduced, and it avoids that product is caused to damage due to tool wear, influence product quality, pass through the setting of touch trigger probe, centering is carried out to workpiece before processing, whether the geometrical characteristic monitored in real time on workpiece in process is overproof, effective auxiliary glass carving machine is processed, reduce the period of processing, reduce the cost of production and the rejection rate of workpiece, substantially increase the precision of processing and the efficiency of production.

Description

A kind of glass carving machine with gauge head

Technical field

The utility model relates to glass carving machine technical fields, are to be related to a kind of glass essence with gauge head more specifically Carving machine.

Background technique

With the development of Modern Manufacturing Technology, enterprise is increasingly strict for the quality of production and production efficiency of product, pursues The lower processing and manufacturing of cost, it is efficient, convenient to become currently manufactured development trend.In existing glass carving machine, do not have mostly There is installation ancillary equipment, need to carry out before processing to knife, mostly by manually carrying out to knife centering, in process, work It the handling centering of part and the non-cutting times such as adjustment of cutter, accounts for that the process-cycle is longer, considerably increases the time in process, Meanwhile the leveling and adjusting consuming time of workpiece is longer, labour's consumption is larger, and is easy to appear centering inaccuracy and generates operation The phenomenon that error, detects knife, workpiece centering and off line by carrying out manually, so that equipment is in standby state for a long time, Greatly reduce the working efficiency of equipment and the efficiency that comes into force, meanwhile, to the more demanding of operator, it is inaccurate to be easy to appear positioning The phenomenon that, influence the quality of production of product.

Utility model content

The purpose of the utility model is to overcome drawbacks described above in the prior art, provide a kind of real-time monitoring tool wear Situation, reduces the loss of cutter, at the same can real-time monitoring workpiece geometrical characteristic, the machining accuracy and production of workpiece is effectively ensured The glass carving machine with gauge head of efficiency.

To achieve the above object, the utility model provides a kind of glass carving machine with gauge head, including pedestal, column, Crossbeam, control cabinet, workbench, tool magazine, cutter transmission component and head sliding assembly, the column are respectively installed in above pedestal The left and right sides on, the left and right ends of the crossbeam are connected with corresponding column respectively, and with corresponding column be integrally formed, The control cabinet is installed in the rear of crossbeam, and the workbench is installed on pedestal, and the tool magazine is installed in the lower section of crossbeam, institute The front that head sliding assembly is installed in crossbeam is stated, the cutter transmission component is installed on head sliding assembly, and is arranged The top of workbench further includes workpiece sensing component, and the workpiece sensing component is installed in the front of head sliding assembly, described Workpiece sensing component includes cylinder, slide assemblies, mounting base, touch trigger probe and stylus, and the slide assemblies are installed in head The front of sliding assembly, the touch trigger probe are connected to a fixed by mounting base and slide assemblies, the stylus and trigger-type Gauge head is connected, and the cylinder is installed in the front of head sliding assembly by support base, and is sequentially connected with mounting base, thus Drive installation seat pumping on slide assemblies drives pumping for touch trigger probe, the work with this Make to be provided with the tool setting gauge for measuring cutter length on platform.

Preferably, the slide assemblies include third sliding rail and third sliding block, the third sliding rail is installed in head On sliding assembly, the third sliding block is slidably connected with third sliding rail, and the mounting base is connected to a fixed with third sliding block, described Cylinder and mounting base are sequentially connected, so that drive installation seat pumps, drive third sliding block in third sliding rail with this On pump.

Preferably, the cutter transmission component includes electro spindle, the electro spindle is installed in head sliding assembly Front.

Preferably, being provided with annular water jet below the electro spindle, it is provided with out on the annular water jet The mouth of a river, the water outlet are uniformly circumferentially positioned at the lower section of electro spindle.

Preferably, the head sliding assembly includes movable plate, slides laterally component and longitudinal sliding motion component, it is described The front that component is installed in crossbeam is slid laterally, the longitudinal sliding motion component, which is installed in, to be slid laterally on component, the movable plate It is installed on longitudinal sliding motion component, the cutter transmission component is installed on movable plate, and the workpiece sensing component is installed in work On movable plate.

Preferably, the component that slides laterally includes that the first sliding rail, the first sliding block, the first screw rod and the first screw rod pass It takes offence cylinder, first sliding rail is respectively installed in the upper and lower ends in front of crossbeam, and first sliding block is respectively with corresponding first Sliding rail is slidably connected, and first screw rod is installed in the front of crossbeam, and is sequentially connected with the first sliding block, the longitudinal sliding motion group Part is connected to a fixed with corresponding first sliding block, and the first screw rod transmission cylinder is installed in front of crossbeam, and with the first screw rod Transmission connection drives bilateral reciprocation of first sliding block on the first sliding rail so that the first screw rod of driving rotates with this, To drive the bilateral reciprocation of longitudinal sliding motion component.

Preferably, the longitudinal sliding motion component includes mounting plate, the second sliding rail, the second sliding block, the second screw rod and Two screw rod transmission cylinders, the mounting plate are connected to a fixed with the first sliding block, and second sliding rail is respectively installed in mounting plate Left and right ends, second sliding block are slidably connected with corresponding second sliding rail respectively, and second screw rod is installed on a mounting board, And be slidably connected with corresponding second sliding block, the movable plate is connected to a fixed with corresponding second sliding block, second screw rod Drive cylinder is installed on a mounting board, and is connect with the second screw rod transmission, so that the second screw rod of driving rotates, is driven with this Second sliding block pumping on the second sliding rail, to drive pumping for movable plate.

Compared with prior art, the utility model has the beneficial effects that:

The utility model structure is simple, including head sliding assembly, touch trigger probe, slide assemblies, stylus, tool setting gauge, Slide assemblies are installed in the front of head sliding assembly, and touch trigger probe is installed on slide assemblies by mounting base, stylus with Touch trigger probe is connected, and tool setting gauge is installed on the table, and before withdrawing tool magazine after the completion of tool sharpening, tool setting gauge is automatically right The length of cutter measures, if normal wear occurs, is automatically updated abrasion numerical value, if overlength abrasion occurs, Automatically cutter is considered as damaged progress tool changing or autostop carries out warning note operator and carries out tool changing, it can be smaller to diameter Cutter carry out real-time wear monitoring, the loss of cutter is effectively reduced, and avoid causing to damage to product due to tool wear, Product quality is influenced, the abrasion of cutter is effectively avoided to damage operator, meanwhile, by the setting of touch trigger probe, add Centering is carried out to workpiece before work, whether the geometrical characteristic monitored in real time on workpiece in process is overproof, effective auxiliary glass essence Carving machine is processed, and the period of processing is reduced, and is reduced the cost of production and the rejection rate of workpiece, is substantially increased processing The efficiency of the production of precision.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is this Some embodiments of utility model, for those of ordinary skill in the art, without creative efforts, also Other drawings may be obtained according to these drawings without any creative labor.

Fig. 1 is a kind of overall structure diagram of glass carving machine with gauge head provided by the utility model；

Fig. 2 is a kind of mechanical-optical setup schematic diagram of glass carving machine with gauge head provided by the utility model；

Fig. 3 is a kind of partial structural diagram of glass carving machine with gauge head provided by the utility model.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

Fig. 1, Fig. 2 and Fig. 3 are please referred to, the embodiments of the present invention provide a kind of glass carving machine with gauge head, packet Head sliding assembly 8, touch trigger probe 13, slide assemblies 11, stylus 14, tool setting gauge 16 are included, slide assemblies 11 are installed in head The front of sliding assembly 8, touch trigger probe 13 are installed on slide assemblies 11 by mounting base 12, stylus 14 and touch trigger probe 13 are connected, and tool setting gauge 16 is installed on the table, and the present embodiment is described in detail with reference to the accompanying drawing.

As shown in Figure 1, Figure 2 and Figure 3, column 2 is respectively installed on the left and right sides of 1 top of pedestal, the left and right two of crossbeam 3 End is connected with corresponding column 2 respectively, and is integrally formed with corresponding column 2, and control cabinet 4 is installed in the rear of crossbeam 3, work Make platform 5 to be installed on pedestal 1, tool magazine 6 is installed in the lower section of crossbeam 3, and head sliding assembly 8 is installed in the front of crossbeam 3, knife Tool transmission component 7 is installed on head sliding assembly 8, and the top of workbench 5 is arranged in, wherein further includes workpiece sensing group Part 9, workpiece sensing component 9 are installed in the front of head sliding assembly 8, and workpiece sensing component 9 includes cylinder 10, slide assemblies 11, mounting base 12, touch trigger probe 13 and stylus 14, slide assemblies 11 are installed in the front of head sliding assembly 8, trigger-type Gauge head 13 is connected to a fixed by mounting base 12 with slide assemblies 11, and stylus 14 is connected with touch trigger probe 13, and cylinder 10 is logical The front that support base 15 is installed in head sliding assembly 8 is crossed, and is sequentially connected with mounting base 12, so that drive installation seat 12 is in cunning Pumping on dynamic component 11, drives pumping for touch trigger probe 13 with this, is arranged on workbench 5 useful In the tool setting gauge 16 measured to cutter length, before withdrawing tool magazine 6 after the completion of tool sharpening, 16 automatic tool preset of tool setting gauge tool Length measure, if occur normal wear, automatically will abrasion numerical value be updated, if occur overlength abrasion, automatically Cutter is considered as damaged progress tool changing or autostop carries out warning note operator and carries out tool changing, it can be to the lesser knife of diameter Tool carries out real-time wear monitoring, the loss of cutter is effectively reduced, and avoid causing to damage to product due to tool wear, influences Product quality effectively avoids the abrasion of cutter from damaging operator, meanwhile, pass through the setting of touch trigger probe 13, processing Preceding to carry out centering to workpiece, whether the geometrical characteristic monitored in real time on workpiece in process is overproof, effective auxiliary glass finishing impression Machine is processed, and the period of processing is reduced, and reduces the cost of production and the rejection rate of workpiece, substantially increases the essence of processing The efficiency of the production of degree.

Wherein, slide assemblies 11 include third sliding rail 111 and third sliding block 112, and it is sliding that third sliding rail 111 is installed in head On holder assembly 8, third sliding block 112 is slidably connected with third sliding rail 111, and mounting base 12 is connected to a fixed with third sliding block 112, gas Cylinder 10 and mounting base 12 are sequentially connected, so that drive installation seat 12 pumps, drive third sliding block 112 the with this Mounting base 12 is effectively ensured by the setting of third sliding rail 111 and third sliding block 112 in pumping on three sliding rails 111 It remains movement straight down, and makes the up and down motion of mounting base 12 more steady.

As shown in figure 3, cutter transmission component 7 includes electro spindle 71, before electro spindle 71 is installed in head sliding assembly 8 Side is rotated by electro spindle band cutter, is processed to workpiece.

Preferably, the lower section of electro spindle 71 is provided with annular water jet 17, it is provided with water outlet on annular water jet 17, out The mouth of a river is uniformly circumferentially positioned at the lower section of electro spindle 71, and after processing is completed, annular water jet sprays water to 17 workpiece, will process The dust remained on workpiece is cleaned out.

In the present embodiment, as shown in Fig. 2, head sliding assembly 8 includes movable plate 81, slides laterally component 82 and longitudinally slide Dynamic component 83, slides laterally the front that component 82 is installed in crossbeam 3, longitudinal sliding motion component 83, which is installed in, slides laterally component 82 On, movable plate 81 is installed on longitudinal sliding motion component 83, and cutter transmission component 7 is installed on movable plate 81, workpiece sensing component 9 are installed on movable plate 81, wherein sliding laterally component 82 includes the first sliding rail 821, the first sliding block 822, the first screw rod 823 With the first screw rod transmission cylinder 824, the first sliding rail 821 is respectively installed in the upper and lower ends in 3 front of crossbeam, and the first sliding block 822 divides It is not slidably connected with corresponding first sliding rail 821, the first screw rod 823 is installed in the front of crossbeam 3, and passes with the first sliding block 822 Dynamic connection, longitudinal sliding motion component 83 are connected to a fixed with corresponding first sliding block 822, and the first screw rod transmission cylinder 824 is installed in The front of crossbeam 3, and be sequentially connected with the first screw rod 823, so that the first screw rod 823 of driving rotates, first is driven with this Bilateral reciprocation of the sliding block on 822 first sliding rails 821 is indulged to drive the bilateral reciprocation of longitudinal sliding motion component 83 It include mounting plate 831, the second sliding rail 832, the second sliding block, the second screw rod 833 and the second screw rod transmission cylinder to slide assemblies 83 834, mounting plate 834 is connected to a fixed with the first sliding block 822, and the second sliding rail 832 is respectively installed in the left and right two of mounting plate 831 End, the second sliding block are slidably connected with corresponding second sliding rail 832 respectively, and the second screw rod 833 is installed on mounting plate 831, and with Corresponding second sliding block is slidably connected, and movable plate 81 is connected to a fixed with corresponding second sliding block, the second screw rod transmission cylinder 834 It is installed on mounting plate 831, and is sequentially connected with the second screw rod 833, so that the second screw rod 833 of driving rotates, with this band Dynamic second sliding block pumping on the second sliding rail 832, to drive pumping for movable plate 81, by the The side-to-side movement of one screw rod transmission cylinder, 824 drive installation plate 831, the second screw rod transmission cylinder 834 drive the upper of movable plate 81 Lower movement is reached designated position, is processed to workpiece with this movement up and down with cutter transmission component 7.

When equipment works, before work pieces process starts, control system output signal drive control cylinder 10, cylinder 10 drives peace Dress seat 12 is moved downward along third sliding rail 111, and driving touch trigger probe 13, linear motion reaches designated position downwards, to workpiece table Face shape measures, when touch trigger probe 13 measures centering to workpiece, 14 deflection of stylus, inside touch trigger probe 13 Active circuit equipped with closure, the circuit are connected with a special trigger mechanism, and trigger mechanism generates trigger action, cause Circuit state changes and issues sound and light signal, indicates the working condition of stylus 14, and the electric signal is sent to control cabinet, Calculating and amendment are biased to workpiece automatically by control system, after the completion of amendment, cylinder 10 drives touch trigger probe 13 upward Movement resets, and electro spindle 7 drives cutter to process workpiece, pair before tool sharpening finishes and puts back to tool magazine, on workbench 5 Knife instrument 16 measures cutter length, carries out real-time monitoring to the abrasion of cutter, so far completes complete movement.

In conclusion the utility model structure is simple, including head sliding assembly 8, touch trigger probe 13, slide assemblies 11, stylus 14, tool setting gauge 16, slide assemblies 11 are installed in the front of head sliding assembly 8, and touch trigger probe 13 passes through installation Seat 12 is installed on slide assemblies 11, and stylus 14 is connected with touch trigger probe 13, and tool setting gauge 16 is installed on workbench 5, Before withdrawing tool magazine 6 after the completion of tool sharpening, the length of 16 automatic tool preset of tool setting gauge tool is measured, if normal wear occurs, Automatically abrasion numerical value is updated, if overlength abrasion occurs, cutter is considered as damaged progress tool changing or autostop automatically It carries out warning note operator and carries out tool changing, real-time wear monitoring can be carried out to the lesser cutter of diameter, knife is effectively reduced The loss of tool, and avoid that product is caused to damage due to tool wear, product quality is influenced, effectively avoids the abrasion of cutter to behaviour Author damages, meanwhile, by the setting of touch trigger probe 13, centering carried out to workpiece before processing, in process in real time Whether the geometrical characteristic monitored on workpiece is overproof, and effective auxiliary glass carving machine is processed, and reduces the period of processing, reduces The cost of production and the rejection rate of workpiece, substantially increase the precision of processing and the efficiency of production.

Above-described embodiment is the preferable embodiment of the utility model, but the embodiments of the present invention is not by above-mentioned The limitation of embodiment, it is made under other any spiritual essence and principles without departing from the utility model to change, modify, replacing In generation, simplifies combination, should be equivalent substitute mode, is included within the protection scope of the utility model.

Claims (7)

1. a kind of glass carving machine with gauge head, including pedestal (1), column (2), crossbeam (3), control cabinet (4), workbench (5), Tool magazine (6), cutter transmission component (7) and head sliding assembly (8), the column (2) are respectively installed in the left side above pedestal (1) On right two sides, the left and right ends of the crossbeam (3) are connected with corresponding column (2) respectively, and integrated with corresponding column (2) Molding, the control cabinet (4) are installed in the rear of crossbeam (3), and the workbench (5) is installed on pedestal (1), the tool magazine (6) it is installed in the lower section of crossbeam (3), the head sliding assembly (8) is installed in the front of crossbeam (3), the cutter transmission group Part (7) is installed on head sliding assembly (8), and is arranged in the top of workbench (5), it is characterised in that: further includes workpiece inspection It surveys component (9), the workpiece sensing component (9) is installed in the front of head sliding assembly (8), the workpiece sensing component (9) Including cylinder (10), slide assemblies (11), mounting base (12), touch trigger probe (13) and stylus (14), the slide assemblies (11) it is installed in the front of head sliding assembly (8), the touch trigger probe (13) passes through mounting base (12) and slide assemblies (11) it is connected to a fixed, the stylus (14) is connected with touch trigger probe (13), and the cylinder (10) passes through support base (15) It is installed in the front of head sliding assembly (8), and is sequentially connected with mounting base (12), so that drive installation seat (12) is in Slide Group Pumping on part (11) drives pumping for touch trigger probe (13) with this, sets on the workbench (5) It is equipped with the tool setting gauge (16) for measuring to cutter length.

2. a kind of glass carving machine with gauge head according to claim 1, it is characterised in that: slide assemblies (11) packet Third sliding rail (111) and third sliding block (112) are included, the third sliding rail (111) is installed on head sliding assembly (8), described Third sliding block (112) is slidably connected with third sliding rail (111), and the mounting base (12) is connected to a fixed with third sliding block (112), The cylinder (10) and mounting base (12) are sequentially connected, so that drive installation seat (12) pump, drive the with this Three sliding blocks (112) pumping on third sliding rail (111).

3. a kind of glass carving machine with gauge head according to claim 1, it is characterised in that: the cutter transmission component It (7) include electro spindle (71), the electro spindle (71) is installed in the front of head sliding assembly (8).

4. a kind of glass carving machine with gauge head according to claim 3, it is characterised in that: under the electro spindle (71) Side is provided with annular water jet (17), is provided with water outlet, the water outlet uniform ring winding on the annular water jet (17) Set the lower section in electro spindle (71).

5. a kind of glass carving machine with gauge head according to claim 1, it is characterised in that: the head sliding assembly (8) include movable plate (81), slide laterally component (82) and longitudinal sliding motion component (83), it is described to slide laterally component (82) installing In the front of crossbeam (3), the longitudinal sliding motion component (83), which is installed in, to be slid laterally on component (82), movable plate (81) dress It is located on longitudinal sliding motion component (83), the cutter transmission component (7) is installed on movable plate (81), the workpiece sensing component (9) it is installed on movable plate (81).

6. a kind of glass carving machine with gauge head according to claim 5, it is characterised in that: described to slide laterally component (82) described including the first sliding rail (821), the first sliding block (822), the first screw rod (823) and the first screw rod transmission cylinder (824) First sliding rail (821) is respectively installed in the upper and lower ends in front of crossbeam (3), and first sliding block (822) is respectively with corresponding One sliding rail (821) is slidably connected, and first screw rod (823) is installed in the front of crossbeam (3), and passes with the first sliding block (822) Dynamic connection, the longitudinal sliding motion component (83) are connected to a fixed with corresponding first sliding block (822), the first screw rod transmission gas Cylinder (824) is installed in front of crossbeam (3), and is sequentially connected with the first screw rod (823), so that driving the first screw rod (823) occurs Rotation, drives bilateral reciprocation of the first sliding block (822) on the first sliding rail (821) with this, to drive longitudinal sliding motion group The bilateral reciprocation of part (83).

7. a kind of glass carving machine with gauge head according to claim 6, it is characterised in that: the longitudinal sliding motion component It (83) include mounting plate (831), the second sliding rail (832), the second sliding block, the second screw rod (833) and the second screw rod transmission cylinder (834), the mounting plate (831) is connected to a fixed with the first sliding block (822), and second sliding rail (832) is respectively installed in peace The left and right ends of loading board (831), second sliding block are slidably connected with corresponding second sliding rail (832) respectively, and described second Bar (833) is installed on mounting plate (831), and is slidably connected with corresponding second sliding block, the movable plate (81) with it is corresponding Second sliding block is connected to a fixed, and the second screw rod transmission cylinder (834) is installed on mounting plate (831), and with the second screw rod (833) it is sequentially connected, so that driving the second screw rod (833) rotates, drives the second sliding block on the second sliding rail (832) with this Pump, to drive pumping for movable plate (81).