CN207972469U - Engraving machine and engraving machine setting system - Google Patents

Abstract

A kind of engraving machine of the utility model embodiment offer and engraving machine setting system.Engraving machine includes engraving machine ontology, is fixed on engraving machine ontology portal frame, the multiple Egravers being set on portal frame and it is corresponding with each Egraver to knife structure and with control module that knife structure is electrically connected.Egraver includes slide unit, is set to the main axle structure for being slided on slide unit on slide unit.Include tool setting device and machining center point to knife structure.Control module is slided for controlling corresponding main axle structure on slide unit, and after main axle structure touches corresponding tool setting device calculate main axle structure to knife count value, and corresponding machining center point is moved to knife value and default axle center value control main axle structure according to knife count value, the default of main axle structure, to complete to knife.Using above-mentioned design, it is not necessarily to manual intervention during engraving machine is to knife, greatly improves to, to knife precision and to knife speed, realizing the automatic tool preset of engraving machine during knife.

Description

Engraving machine and engraving machine setting system

Technical field

The utility model is related to technical field of engraving, in particular to a kind of engraving machine and engraving machine setting system.

Background technology

Currently, each head of well-known single head or multi-head engraving machine is all fixed on same metal suspension board, simultaneously The relative position of each head is fixed, is moved up and down simultaneously under the driving of motor, and it is same to carry out bull in batch machining When work.

However, being found in practical study through present inventor, although multi-head engraving machine can improve work with batch machining Make efficiency.But since process tool is consumptive material, often will appear the case where damage needs replacing new cutter, and more renew cutter Need the point of a knife horizontal direction for ensureing each head on a baseline afterwards.The method used at present is that operating personnel estimate each head Point of a knife level after each head height of manual adjustment it is low, adjustment process very complicated take, depend on artificial experience, low precision, in turn Cause the product specification of process to differ, influences product processing quality.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of engraving machine and engraving machine setting system, to solve or Person improves the above problem.

To achieve the goals above, the technical solution that the utility model embodiment uses is as follows：

With reference to first aspect, the utility model embodiment provides a kind of engraving machine, and the engraving machine includes：

Engraving machine ontology；

The portal frame being fixed on the engraving machine ontology；

Multiple Egravers for being set on the portal frame and corresponding with each Egraver to knife structure, In, each Egraver includes slide unit, is set to the main axle structure for being slided on the slide unit on the slide unit, often It is a it is described include tool setting device and machining center point to knife structure；And

With the control module being electrically connected to knife structure, it is corresponding that each Egraver is stored in the control module It presets to knife value and default axle center value, the control module controls corresponding main axle structure in the cunning for responding to knife instruction Slided on platform, and calculate after the main axle structure touches corresponding tool setting device the main axle structure to knife count value, and The main axle structure movement is controlled to knife value and default axle center value to knife count value, the default of the main axle structure according to described To corresponding machining center point, to complete to knife.

Optionally, the slide unit includes：

Main shaft frame；

It is arranged on the main shaft frame, the guide rail for coordinating with the main axle structure；And

It is arranged on the main shaft frame, and is electrically connected with the control module, for the control in the control module The motor that the lower driving main axle structure slides on the guide rail.

Optionally, the main axle structure includes：

For coordinating with the guide rail, the spindle drum for being slided on the guide rail, be provided on the spindle drum with The sliding fit of the guide rail cooperation；

The main shaft fixing piece being fixedly installed on the spindle drum；And

It is set in the main shaft fixing piece, the main shaft for installing process tool.

Optionally, the control module includes：

Knife is instructed to generate the central controller of corresponding motor control instruction for responding；

The multiple electric-motor drive units being electrically connected with the central controller, each electric-motor drive unit respectively with Corresponding motor is electrically connected, and the motor control instruction of generation is sent to corresponding motor and drives list by the central controller Member, so that the electric-motor drive unit drives the main axle structure to be slided on the guide rail according to the motor control instruction.

Optionally, the control module further includes：

With the central controller be electrically connected to knife function key, the central controller detect it is described to slicing technique Energy key generates corresponding motor control instruction when being triggered.

Optionally, the control module further includes：

It is electrically connected with the central controller, for recording institute when the main axle structure touches corresponding tool setting device State the tool setting device numerical value of main axle structure to knife counter.

Optionally, the control module further includes：

It is electrically connected with the central controller, for storing the default to knife value and default axle center value of each engraving structure Memory.

Optionally, the reseting sensor being electrically connected with the central controller is provided on the main shaft frame, it is described multiple Level sensor is positioned close at the position of the guide rail, for being controlled to the center when sensing the main axle structure contact Device processed sends inductive signal, so that the central controller resets knife count value by the main axle structure is current.

Optionally, the control module further includes：

With the central controller be electrically connected reset switch, it is described center control control for detect it is described multiple It is sent to each electric-motor drive unit when bit switch is triggered and resets control instruction, so that each electric-motor drive unit control Corresponding motor drives the main axle structure to slide into the reseting sensor.

In conjunction with second aspect, the utility model embodiment also provides a kind of engraving machine setting system, and the engraving machine is to knife System to knife terminal and with it is described to knife terminal communication connection above-mentioned engraving machine.

In terms of existing technologies, the utility model has the advantages that：

A kind of engraving machine of the utility model embodiment offer and engraving machine setting system.Engraving machine include engraving machine ontology, The portal frame that is fixed on engraving machine ontology, multiple Egravers being set on portal frame and corresponding with each Egraver To knife structure and with control module that knife structure is electrically connected.Egraver includes slide unit, be set on slide unit for The main axle structure slided on slide unit.Include tool setting device and machining center point to knife structure.Control module is for controlling corresponding master Axle construction is slided on slide unit, and calculate after main axle structure touches corresponding tool setting device main axle structure to knife count value, And according to knife count value, the default of main axle structure is moved to knife value and default axle center value control main axle structure corresponding add Work central point, to complete to knife.Using above-mentioned design, since each Egraver corresponds to independent to knife structure, pass through control Module carries out independent automatic tool preset to each Egraver, and manual intervention is not necessarily to during engraving machine is to knife, is greatly improved To, to knife precision and to knife speed, realizing the automatic tool preset of engraving machine during knife.

Description of the drawings

It, below will be to required use in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram for the engraving machine that the utility model embodiment provides；

Fig. 2 is the enlarged structure schematic diagram of the parts I shown in Fig. 1；

Fig. 3 is the structural schematic diagram for the slide unit that the utility model embodiment provides；

Fig. 4 is the structural schematic diagram for the main axle structure that the utility model embodiment provides；

Fig. 5 is the engraving machine that the utility model embodiment provides to one of knife principle schematic；

Fig. 6 is the engraving machine that the utility model embodiment provides to the two of knife principle schematic；

Fig. 7 is the engraving machine that the utility model embodiment provides to the three of knife principle schematic；

Fig. 8 is the engraving machine that the utility model embodiment provides to the four of knife principle schematic；

Fig. 9 is the engraving machine that the utility model embodiment provides to the five of knife principle schematic.

Icon：100- engraving machines；110- engraving machine ontologies；120- portal frames；130- Egravers；132- slide units；1322- Main shaft frame；1324- guide rails；1326- motors；1328- reseting sensors；134- main axle structures；1341- spindle drums；1342- is slided Counterpart；1343- main shaft fixing pieces；1344- main shafts；1345- process tools；140- is to knife structure；142- tool setting devices；144- Machining center point；151- central controllers；152- electric-motor drive units；153- is to knife function key；154- is to knife counter； 155- reset switches；156- memories.

Specific implementation mode

Present inventor has found that each head of current multi-head engraving machine is all fixed on same gold in practical study Belong on hanging plate, while the relative position of each head is fixed, is moved up and down simultaneously under the driving of motor, in batch machining Bull can be carried out to work at the same time.Likelihood can improve working efficiency with batch machining.But since process tool is consumptive material, often It will appear the case where damage needs replacing new cutter, and need to ensure the point of a knife horizontal direction of each head one after more renewing cutter On baseline.The method used at present is that each head height of manual adjustment is low after operating personnel estimate the point of a knife level of each head, adjustment Process very complicated takes, and depends on artificial experience, low precision, and then the product specification of process is caused to differ, influences to produce Product processing quality.

Defect present in the above scheme in the prior art, is that inventor is obtaining after putting into practice and carefully studying As a result, therefore, what the discovery procedure of the above problem and hereinafter the utility model embodiment were proposed regarding to the issue above Solution all should be the contribution that inventor makes the utility model during the utility model.

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment 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.Usually here described in attached drawing and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiments of the present invention to providing in the accompanying drawings is not intended to limit requirement below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, all other embodiment that those of ordinary skill in the art are obtained without creative efforts, all Belong to the range of the utility model protection.

It should be noted that：Similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent attached drawing in a attached drawing.

In the description of the present invention, it should be noted that the orientation or positional relationship of the instructions such as term "upper", "lower" For be based on the orientation or positional relationship shown in the drawings or the utility model product using when the orientation or position usually put Relationship is merely for convenience of describing the present invention and simplifying the description, and does not indicate or imply the indicated device or element must There must be specific orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can Can also be electrical connection to be mechanical connection；It can be directly connected, can also indirectly connected through an intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in utility model.

Below in conjunction with the accompanying drawings, it elaborates to some embodiments of the utility model.In the absence of conflict, under Feature in the embodiment and embodiment stated can be combined with each other.

Referring to Fig. 1, the structural schematic diagram of the engraving machine 100 provided for the utility model embodiment.In the present embodiment, institute State engraving machine 100 include engraving machine ontology 110, the portal frame 120 being fixed on the engraving machine ontology 110, be set to it is described Multiple Egravers 130 on portal frame 120, it is corresponding with each Egraver 130 to knife structure 140 and with it is described To the control module that knife structure 140 is electrically connected, namely each engraving structure have it is corresponding individually to knife structure 140。

Shown in Fig. 2, each Egraver 130 may include slide unit 132 and be set on the slide unit 132 Main axle structure 134 for being slided on the slide unit 132.Each described includes in tool setting device 142 and processing to knife structure 140 Heart point 144.It is corresponding default to knife value and default axis that each Egraver 130 is stored in the control module (not shown) Center value, the control module slide the corresponding main axle structure of knife instruction control 134 for responding on the slide unit 132, and Calculated after the main axle structure 134 touches corresponding tool setting device 142 main axle structure 134 to knife count value, and root The main axle structure is controlled to knife value and default axle center value to knife count value, the default of the main axle structure 134 according to described 134 are moved to corresponding machining center point 144, to complete to knife.

In specific implementation process, when the cutter on some main axle structure 134 needs replacing, new cutter need to only be pacified Carry out aim at tool operation after the main axle structure 134, control module responds after receiving being instructed to knife of the cutter to knife Instruction controls the main axle structure 134 and is slided on the slide unit 132, and touches in the main axle structure 134 corresponding to knife Calculated after device 142 main axle structure 134 by initial position slide into tool setting device 142 to knife count value.Due to the main shaft The default of structure 134 is steady state value to knife value and default axle center value, presets the main axle structure 134 when to knife value namely manufacture Cutter is slided into the walking numerical value of tool setting device 142 by initial position, the knife of the main axle structure 134 when presetting axle center value namely manufacture Tool is slided into the walking numerical value of 144 position of machining center point by 142 position of tool setting device.After replacing cutter, the main axle structure 134 calculate the default difference to knife value to knife count value and the main axle structure 134 first, then according to the difference The walking numerical value that the main axle structure 134 is moved to corresponding machining center point 144 is calculated with default axle center value, then controls institute It states main axle structure 134 and is moved to corresponding machining center point 144, to complete to knife.

As a result, due to each Egraver 130 correspond to it is independent to knife structure 140, by control module to each engraving Mechanism 130 carries out independent automatic tool preset, and manual intervention is not necessarily to during engraving machine 100 is to knife, is greatly improved to knife mistake In journey to knife precision and to knife speed, realize the automatic tool preset of engraving machine 100.

Optionally, the slide unit 132 a kind of structure referring to Fig. 3, the slide unit 132 may include main shaft frame 1322, Guide rail 1324 and motor 1326, the guide rail 1324 are arranged on the main shaft frame 1322, are used for and the main axle structure 134 Cooperation.The motor 1326 is arranged on the main shaft frame 1322, and is electrically connected with the control module, for described The main axle structure 134 is driven to be slided on the guide rail 1324 under the control of control module, it is thus achieved that the main shaft knot Structure 134 automatically controls, without artificial sliding.

Optionally, a kind of structure of the main axle structure 134 is referring to Fig. 4, the main axle structure 134 may include spindle drum 1341, main shaft fixing piece 1343 and main shaft 1344.The spindle drum 1341 coordinates with the guide rail 1324, for being led described It is slided on rail 1324, the sliding fit 1342 coordinated with the guide rail 1324 is provided on the spindle drum 1341.The master Axis fixing piece 1343 is fixedly installed on the spindle drum 1341, and the main shaft 1344 is set to the main shaft fixing piece 1343 In, for installing process tool 1345.

As an implementation, the engraving machine 100 illustrates knife principle with reference to Fig. 5.The control Molding block may include central controller 151 and multiple electric-motor drive units 152.The central controller 151 is for responding to knife To generate 1326 control instruction of corresponding motor, multiple electric-motor drive units 152 are electrical with the central controller 151 for instruction Connection, each electric-motor drive unit 152 are electrically connected with corresponding motor 1326 respectively.The central controller 151 can 1326 control instruction of motor of generation is sent to corresponding electric-motor drive unit 152, so as to the electric-motor drive unit 152 The main axle structure 134 is driven to be slided on the guide rail 1324 according to 1326 control instruction of the motor.Then, when the main shaft When structure 134 slides into tool setting device 142, the central controller 151 calculates the sliding count value of the main axle structure 134.

In the present embodiment, the central controller 151 can use one or more general processors and/or dedicated processes Device is realized.The example of processor includes microprocessor, microcontroller, dsp processor and the other electricity for being able to carry out software Road.It should be noted that software should be broadly interpreted as to indicate instruction, data or its arbitrary combination, regardless of being by it Referred to as software, firmware, middleware, microcode, hardware description language or other.

Optionally, referring to Fig. 6, the control module may include being electrically connected with the central controller 151, respectively It is corresponding with each main axle structure 134 to knife function key 153, when the cutter on some main axle structure 134 needs replacing, user It is corresponding to knife function key 153 that the main axle structure 134 need to only be triggered, the central controller 151 detect it is described to slicing technique Energy key 153 generates 1326 control instruction of corresponding motor when being triggered, to drive the main axle structure 134 sliding to execute to knife Operation.

Optionally, referring to Fig. 7, the control module may also include and the electric connection of the central controller 151, use In 142 numerical value of tool setting device for recording the main axle structure 134 when the main axle structure 134 touches corresponding tool setting device 142 To knife counter 154.

Optionally, it referring to Fig. 3, is also provided with and the central controller 151 on the main shaft frame 1322 The reseting sensor 1328 of electric connection, the reseting sensor 1328 are positioned close at the position of the guide rail 1324, are used In sending inductive signal to the central controller 151 when sensing that the main axle structure 134 is contacted, so that the center control Device 151 processed resets knife count value by the main axle structure 134 is current.Fig. 8 is please referred to, the control module may be used also To include the reset switch 155 being electrically connected with the central controller 151, the center control control is for detecting It states to send to each electric-motor drive unit 152 when reset switch 155 is triggered and resets control instruction, so that each motor drives Moving cell 152 controls corresponding motor 1326 and the main axle structure 134 is driven to slide into the reseting sensor 1328.

By above-mentioned setting, before manufacture, after installing cutter on each main axle structure 134, user can pass through operation Reset switch 155, it is automatically multiple that control module controls each main axle structure 134 when detecting that the reset switch 155 is triggered Stop behind position to reseting sensor 1328, the travel distance numerical value of each main axle structure 134 is reset at this time.When user's operation is to knife When, each main axle structure 134 declines when touching tool setting device 142 automatically, triggers respective recording this to knife counter 154 at once When walking numerical value.Then each main axle structure 134 is controlled again and drops to machining center point 144, and axle center numerical value is at this time by knife Counter 154 records.

Further, referring to Fig. 9, the control module can also include being electrically connected with the central controller 151, The default memory 156 to knife value and default axle center value for storing each engraving structure, it is default to knife when thus dispatching from the factory Value and default axle center value are just saved permanently in the memory 156 of control module.The engraving machine 100 has automatically at this time To knife function, when any one main axle structure 134 needs replacing cutter when practical application, only need to by new Cutting tool installation manner it is good after, grasp Make corresponding to knife function key 153, corresponding main axle structure 134 automatically resets to reseting sensor 1328, numerical value of advancing at this time It is 0, then main axle structure 134, which declines, contacts corresponding tool setting device 142 and obtain to knife count value, and control module just work as by basis It is preceding that new cutter is calculated automatically to the distance values of machining center point 144 to knife count value and original factory-said value, it completes automatic To knife.

Since existing multi-head engraving machine 100 then needs the height of operator's manual adjustment engraving member or cutter to seize on both sides by the arms Length, the result is that it is approximate consistent, it is prodigious in practice for error for numerical control device.In batch machining, it should same Product, it is actually of different sizes, be not suitable for high-precision and the very high product of coherence request processing.And use the present embodiment The technical solution of offer, bull is fast at high speed to knife precision, and all processes are automated digital control, need not manually do In advance, it greatly improves to, to knife precision and to knife speed, realizing the automatic tool preset of engraving machine 100 during knife.

Further, the utility model embodiment also provides a kind of 100 setting system of engraving machine, and the engraving machine 100 is right Knife system to knife terminal and with it is described to knife terminal communication connection above-mentioned engraving machine 100.

In conclusion a kind of engraving machine of the utility model embodiment offer and engraving machine setting system.Engraving machine includes carving Quarter machine ontology, the portal frame being fixed on engraving machine ontology, multiple Egravers for being set on portal frame and with each engraving Mechanism it is corresponding to knife structure and with control module that knife structure is electrically connected.Egraver includes slide unit, is set to cunning Main axle structure on platform for being slided on slide unit.Include tool setting device and machining center point to knife structure.Control module is for controlling It makes corresponding main axle structure to slide on slide unit, and calculates pair of main axle structure after main axle structure touches corresponding tool setting device Knife count value, and knife value and default axle center value control main axle structure are moved according to knife count value, the default of main axle structure To corresponding machining center point, to complete to knife.Using above-mentioned design, due to each Egraver correspond to it is independent to knife knot Structure carries out independent automatic tool preset, without artificial dry during engraving machine is to knife by control module to each Egraver In advance, it greatly improves to, to knife precision and to knife speed, realizing the automatic tool preset of engraving machine during knife.

It is obvious to a person skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and And without departing substantially from the spirit or essential attributes of the utility model, it can realize that this practicality is new in other specific forms Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this practicality is new The range of type is indicated by the appended claims rather than the foregoing description, it is intended that containing in the equivalent requirements of the claims will be fallen All changes in justice and range are embraced therein.Any reference numeral in claim should not be considered as limitation Involved claim.

Claims (10)

1. a kind of engraving machine, which is characterized in that the engraving machine includes：

Engraving machine ontology；

The portal frame being fixed on the engraving machine ontology；

Multiple Egravers for being set on the portal frame and corresponding with each Egraver to knife structure, wherein Each Egraver includes slide unit, is set to the main axle structure for being slided on the slide unit on the slide unit, each Described includes tool setting device and machining center point to knife structure；And

With the control module being electrically connected to knife structure, it is corresponding default that each Egraver is stored in the control module To knife value and default axle center value, the control module controls corresponding main axle structure in the slide unit for responding to knife instruction Sliding, and calculate after the main axle structure touches corresponding tool setting device the main axle structure to knife count value, and according to It is described that knife count value, the default of the main axle structure are controlled by the main axle structure to knife value and default axle center value are moved to pair The machining center point answered, to complete to knife.

2. engraving machine according to claim 1, which is characterized in that the slide unit includes：

Main shaft frame；

It is arranged on the main shaft frame, the guide rail for coordinating with the main axle structure；And

It is arranged on the main shaft frame, and is electrically connected with the control module, for is driven under the control of the control module Move the motor that the main axle structure slides on the guide rail.

3. engraving machine according to claim 2, which is characterized in that the main axle structure includes：

For coordinating with the guide rail, the spindle drum for being slided on the guide rail, be provided on the spindle drum with it is described The sliding fit of guide rail cooperation；

The main shaft fixing piece being fixedly installed on the spindle drum；And

It is set in the main shaft fixing piece, the main shaft for installing process tool.

4. engraving machine according to claim 2, which is characterized in that the control module includes：

Knife is instructed to generate the central controller of corresponding motor control instruction for responding；

The multiple electric-motor drive units being electrically connected with the central controller, each electric-motor drive unit respectively with it is corresponding Motor be electrically connected, the motor control instruction of generation is sent to corresponding electric-motor drive unit by the central controller, with Toilet states electric-motor drive unit and drives the main axle structure to be slided on the guide rail according to the motor control instruction.

5. engraving machine according to claim 4, which is characterized in that the control module further includes：

With the central controller be electrically connected to knife function key, the central controller detect it is described to knife function key Corresponding motor control instruction is generated when being triggered.

6. engraving machine according to claim 4, which is characterized in that the control module further includes：

It is electrically connected with the central controller, for recording the master when the main axle structure touches corresponding tool setting device The tool setting device numerical value of axle construction to knife counter.

7. engraving machine according to claim 4, which is characterized in that the control module further includes：

It is electrically connected with the central controller, knife value and default axle center value is deposited for storing each the default of engraving structure Reservoir.

8. engraving machine according to claim 4, which is characterized in that be provided on the main shaft frame and the central controller The reseting sensor of electric connection, the reseting sensor is positioned close at the position of the guide rail, for sensing Inductive signal is sent to the central controller when stating main axle structure contact, so that the central controller is by the main axle structure Current resets knife count value.

9. engraving machine according to claim 8, which is characterized in that the control module further includes：

With the central controller be electrically connected reset switch, it is described center control control for detect it is described reset open It is sent to each electric-motor drive unit when pass is triggered and resets control instruction, so that each electric-motor drive unit control corresponds to Motor drive the main axle structure to slide into the reseting sensor.

10. a kind of engraving machine setting system, which is characterized in that the engraving machine setting system is to knife terminal and with described to knife Engraving machine described in any one of claim 1-9 of terminal communication connection.