CN204965203U - Height sensing survey control device - Google Patents

Abstract

The utility model belongs to the technical field of sculpture equipment and specifically relates to a height sensing survey control device, include height measurement slider and data processing control system with Z axial slip table sliding fit, the height measurement slider is for the free up -and -down motion of Z axial slip table, the laminating of height measurement slider is on by carving facet, the height measurement slider is along with the curved surface up -and -down motion by carving facet, the height measurement slider is close to the sculpture head, near being carved facet height data then feeding back to data processing control system of sculpture head is gathered in real time to the height measurement slider, data processing control system adjustment Z axle coordinate at zero point height, make Z axle coordinate at zero point along with by carving body surface face altitude variation and change, automatic compensation the work piece curved surface that is needed by carving body air spots or technology, and the difference in height due to the mechanical tolerance of lathe itself.

Description

A kind of height measurement of inductance control device

Technical field

The utility model relates to engraving equipment field, particularly relates to a kind of height measuring equipment for engraving equipment.

Background technology

Present engraving machine has been widely used in the industries such as technique engraving, advertisement, mould, furniture, and engraving machine runs and all relies on manual operation control Z axis height to regulate carving depth all the time.But then need to regulate carving depth manually for the carved object such as stone material or timber surface out-of-flatness phenomenon, waste time and energy, precision is also difficult to ensure, the curved surface engraving high to technological requirement, existing engraving machine accurately can not be carved and even can not carve.And along with development in science and technology, require more and more higher to Carving Machining craft precision, current ultrasound wave, infrared ray, laser distance measuring technique are also difficult to the accuracy class reaching engraving machine operation needs, optical three-coordinate formula is measured too high being difficult to of cost and popularize use on engraving machine, and the telescopic measurement of magnetic also needs survey block to be positioned over testee surface and could measure.

Utility model content

The purpose of this utility model overcomes the defect that prior art exists, provide a kind of easy to operate, automaticity is high and control accurate carving depth self-checking device.

The utility model solves the technical scheme that its technical matters adopts:

Height measurement of inductance control device of the present utility model, be arranged on the Z-axis direction slide unit of engraving machine, Z-axis direction slide unit is also provided with engraving member, described height measurement of inductance control device comprises the elevation carrection slide block be slidably matched with Z-axis direction slide unit, the stepper motor driving Z-axis direction slide unit to slide up and down and data processing and control system, described elevation carrection slide block freely moves up and down relative to Z-axis direction slide unit, described elevation carrection slide block is fitted in carved and goes up and close engraving member, then carved altitude information near described elevation carrection slide block Real-time Collection engraving member feed back to data processing and control system, data processing and control system presses altitude information adjustment Z-axis direction slide unit coordinate at the zero point height that elevation carrection slide block feedback is come in real time.

Engraving machine described in the utility model is provided with crossbeam, crossbeam is installed the X axis slide unit be slidably matched with crossbeam, X axis slide unit is installed Z-axis direction slide unit, X axis slide unit and Z-axis direction slide unit are slidably matched, and Z-axis direction slide unit is slided up and down by the driving stepper motor be fixed on X axis slide unit.

Data processing and control system described in the utility model comprises data processor and controller, the altitude information collected is transferred to described data processor by described elevation carrection slide block, and described data processor controls described stepper motor adjustment Z-axis direction slide unit coordinate at zero point height by controller.

Z-axis direction slide unit described in the utility model is provided with the support be slidably matched with described Z-axis direction slide unit, one end of described support is arranged on Z-axis direction slide unit by sliding matching structure, described elevation carrection slide block is installed in one end in addition, and the elevation carrection slide block on described support freely moves up and down relative to described Z-axis direction slide unit.

Z-axis direction slide unit described in the utility model is provided with support, one end of described support is fixed on Z-axis direction slide unit, the elevation carrection slide block coordinated with described bracket slide is installed in one end in addition, and the elevation carrection slide block on described support freely moves up and down relative to described Z-axis direction slide unit.

Data processor described in the utility model is electronic ruler, displacement transducer, gravity sensor, photoelectric sensor switch, accurate two-direction switch or proximity switch.

The beneficial effect of height measurement of inductance control device of the present utility model is: height measurement of inductance control device of the present utility model comprises the elevation carrection slide block and data processing and control system that are slidably matched with Z-axis direction slide unit, elevation carrection slide block freely moves up and down relative to Z-axis direction slide unit, elevation carrection slide block is fitted on carved, elevation carrection slide block moves up and down along with the curved surface of carved, elevation carrection slide block is near engraving member, then carved altitude information near elevation carrection slide block Real-time Collection engraving member feed back to data processing and control system, data processing and control Systematical control adjustment Z-axis direction slide unit coordinate at zero point height, zero point coordinate is changed with carved object surface height change, the curve surface of workpiece that the uneven or technique in auto-compensation carved object surface needs, and the difference in height caused by the mechanical tolerance of lathe itself.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is height measurement of inductance control device one-piece construction schematic diagram of the present utility model;

Fig. 2 is bracket slide fit structure schematic diagram of the present utility model.

Wherein: X axis slide unit 1, Z-axis direction slide unit 2, engraving member 3, elevation carrection slide block 4, stepper motor 5, support 6.

Embodiment

Embodiment one:

As shown in Figure 1-2, the height measurement of inductance control device of the present embodiment is arranged on engraving machine, engraving machine is provided with crossbeam, crossbeam is along the horizontal slide anteroposterior of Y-axis, crossbeam is installed the X axis slide unit 1 be slidably matched with crossbeam, X axis slide unit 1 moves left and right relative to crossbeam level, X axis slide unit 1 is installed the Z-axis direction slide unit 2 be slidably matched with X axis slide unit 1, Z-axis direction slide unit 2 vertically moves up and down relative to X axis slide unit 1, Z-axis direction slide unit 2 is provided with engraving member 3, engraving machine is carved by engraving member 3, engraving member 3 can move freely engraving in three dimensions.In order to realize curved surface engraving, the height of automatic adjustment engraving member 3, Z-axis direction slide unit 2 is provided with height measurement of inductance control device, height measurement of inductance control device comprises the elevation carrection slide block 4, stepper motor 5 and the computer disposal control system that are slidably matched with Z-axis direction slide unit 2, computer disposal control system comprises data processor and controller, elevation carrection slide block 4 freely moves up and down relative to Z-axis direction slide unit 2, Z-axis direction slide unit 2 is driven by the stepper motor 5 be arranged on X axis slide unit 1, and stepper motor 5 is controlled by controller.During engraving, elevation carrection slide block 4 is fitted on carved all the time, elevation carrection slide block 4 moves up and down along with the curved surface of carved, elevation carrection slide block 4 is near engraving member 3, then carved altitude information near elevation carrection slide block 4 Real-time Collection engraving member 3 feed back to data processor, data processor computed altitude data, show that Z-axis direction slide unit 2 coordinate at zero point needs the height of adjustment, then controller is transferred to, controller controls adjustment Z-axis direction slide unit 2 coordinate at zero point height by stepper motor 5, Z-axis direction slide unit 2 coordinate at zero point is changed with carved object surface height change, then data processing and control system with adjustment after zero point coordinate for benchmark, control engraving member 3 according to the engraving path data of input to move in three dimensions engraving.

As shown in Figure 2, the concrete structure that elevation carrection slide block 4 freely moves up and down relative to Z-axis direction slide unit 2 is, Z-axis direction slide unit 2 is provided with the support 6 be slidably matched with Z-axis direction slide unit 2, one end of support 6 is arranged on Z-axis direction slide unit 2 by sliding matching structure, one end setting height(from bottom) measures slide block 4 in addition, elevation carrection slide block 4 on support 6 freely moves up and down relative to Z-axis direction slide unit 2, and such elevation carrection slide block 4 can slide up and down relative to Z-axis direction slide unit 2 but can not swing by left-right and front-back.

The structure that elevation carrection slide block 4 also can adopt support 6 and elevation carrection slide block 4 to be slidably matched relative to the concrete structure that Z-axis direction slide unit 2 freely moves up and down, particularly, Z-axis direction slide unit 2 is provided with support 6, one end of support 6 is fixed on Z-axis direction slide unit 2, the elevation carrection slide block 4 be slidably matched with support 6 is installed in one end in addition, such as in bracket end, orienting lug is installed, elevation carrection slide block 4 is installed the gathering sill coordinated with orienting lug, thus elevation carrection slide block 4 freely can move up and down relative to Z-axis direction slide unit 2.As long as elevation carrection slide block 4 therefore can be made freely to move up and down relative to Z-axis direction slide unit 2, concrete structure can do various deformation, is not restricted this.

Data processor in the present embodiment is electronic ruler, displacement transducer, gravity sensor, photoelectric sensor switch, accurate two-direction switch or proximity switch, all can use as long as accuracy class reaches standard.

The above-mentioned concrete using method of height measurement of inductance control device is as follows: during work, be electrified, if good mechanical coordinate initial point, open elevation carrection slide block 4, and input engraving path, to data processing and control system, then starts engraving machine.During engraving, then carved altitude information near elevation carrection slide block 4 Real-time Collection engraving member 3 be transferred to data processing and control system, data processing and control system controls adjustment Z-axis direction slide unit 2 coordinate at zero point height by stepper motor 5, Z-axis direction slide unit 2 coordinate at zero point is changed with carved object surface height change, then data processing and control system with zero point coordinate for benchmark, control engraving member 3 according to the engraving path data of input and to move in three dimensions engraving.Such as: during engraving, initial carved altitude information is transferred to data processing and control system by elevation carrection module, elemental height data are Z-axis direction slide unit 2 motion initial zero coordinate, when carving convex place, elevation carrection slide block 4 is along with convex surface rising certain distance, then the altitude information after rising is transferred to data processor by elevation carrection slide block 4, data processor computed altitude data, show that Z-axis direction slide unit 2 coordinate at zero point needs the height of adjustment, then controller is transferred to, controller controls adjustment Z-axis direction slide unit 2 coordinate at zero point height by stepper motor 5, lifting Z-axis direction slide unit 2, Z-axis direction slide unit 2 coordinate at zero point is made highly to raise with carved and raise, then data processing and control system continues to carve according to engraving path clustering engraving member 3, otherwise when being carved into recess then, the curve surface of workpiece that complete auto-compensation carved injustice or technique need, and the difference in height caused by the mechanical tolerance of lathe itself.

In whole engraving process, X axis slide unit 1 is horizontally slipped by data processing and control Systematical control level, and crossbeam is by data processing and control Systematical control slide anteroposterior.

Should be appreciated that specific embodiment described above only for explaining the utility model, and be not used in restriction the utility model.Still be among protection domain of the present utility model by spirit institute's apparent change of extending out of the present utility model or change.

Claims (6)

1. a height measurement of inductance control device, be arranged on the Z-axis direction slide unit (2) of engraving machine, Z-axis direction slide unit (2) is also provided with engraving member (3), it is characterized in that: described height measurement of inductance control device comprises the elevation carrection slide block (4) be slidably matched with Z-axis direction slide unit (2), the stepper motor driving Z-axis direction slide unit (2) to slide up and down and data processing and control system, described elevation carrection slide block (4) freely moves up and down relative to Z-axis direction slide unit (2), described elevation carrection slide block (4) is fitted in carved and goes up and close engraving member (3), carved altitude information near described elevation carrection slide block (4) Real-time Collection engraving member (3) then feeds back to data processing and control system, data processing and control system presses altitude information adjustment Z-axis direction slide unit (2) coordinate at the zero point height that elevation carrection slide block (4) feedback is come in real time.

2. height measurement of inductance control device according to claim 1, it is characterized in that: described engraving machine is provided with crossbeam, crossbeam is installed the X axis slide unit (1) be slidably matched with crossbeam, X axis slide unit (1) is upper installs Z-axis direction slide unit (2), X axis slide unit (1) and Z-axis direction slide unit (2) are slidably matched, and Z-axis direction slide unit (2) is driven by the stepper motor (5) be fixed on X axis slide unit (1) and slides up and down.

3. height measurement of inductance control device according to claim 1, it is characterized in that: described data processing and control system comprises data processor and controller, the altitude information collected is transferred to described data processor by described elevation carrection slide block (4), and described data processor controls described stepper motor (5) adjustment Z-axis direction slide unit (2) coordinate at zero point height by controller.

4. height measurement of inductance control device according to claim 1, it is characterized in that: described Z-axis direction slide unit (2) is provided with the support (6) be slidably matched with described Z-axis direction slide unit (2), one end of described support (6) is arranged on Z-axis direction slide unit (2) by sliding matching structure, described elevation carrection slide block (4) is installed in one end in addition, and the elevation carrection slide block (4) on described support (6) freely moves up and down relative to described Z-axis direction slide unit (2).

5. height measurement of inductance control device according to claim 1, it is characterized in that: described Z-axis direction slide unit (2) is provided with support (6), one end of described support (6) is fixed on Z-axis direction slide unit (2), the elevation carrection slide block (4) be slidably matched with described support (6) is installed in one end in addition, and the elevation carrection slide block (4) on described support (6) freely moves up and down relative to described Z-axis direction slide unit (2).

6. height measurement of inductance control device according to claim 3, is characterized in that: described data processor is electronic ruler, displacement transducer, gravity sensor, photoelectric sensor switch, accurate two-direction switch or proximity switch.