CN2920660Y - Probe rod type marking machine - Google Patents

Probe rod type marking machine Download PDF

Info

Publication number
CN2920660Y
CN2920660Y CN 200620090984 CN200620090984U CN2920660Y CN 2920660 Y CN2920660 Y CN 2920660Y CN 200620090984 CN200620090984 CN 200620090984 CN 200620090984 U CN200620090984 U CN 200620090984U CN 2920660 Y CN2920660 Y CN 2920660Y
Authority
CN
China
Prior art keywords
injection
assembly
cantilever
control mechanism
servo control
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN 200620090984
Other languages
Chinese (zh)
Inventor
杨光
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN 200620090984 priority Critical patent/CN2920660Y/en
Application granted granted Critical
Publication of CN2920660Y publication Critical patent/CN2920660Y/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Abstract

A probe rod type marking machine, comprises a marking component, an X-axial servomechanism and a Y-axial r servomechanism. The Marking needle is provided with a marking needle. The utility model is characterized in that a Z-axial servomechanism is also provided, the Z-axial servomechanism comprises a probe rod and a cantilever which could be free-swinging upward or downward. The probe of the probe rod keeps at a distance to the end of marking needle. The probe rod and the marking needle unit are arranged on the cantilever. The probe overlaps on the surface of the working part. The utility model has the advantages of that: is suitable for processing different irregular curved working part by X, Y, Z directional automatic servo with accurate positioning and usage, in addition, owing to the smaller volume of the probe rod and marking needle, the utility model can process the working part with minor diameter.

Description

Probe rod type marking machine
Technical field
The utility model relates to a kind of mark machine, particularly a kind of probe rod type marking machine that is adapted at marking on irregular curved surface or the irregular plane.
Background technology
Tradition mark machine is got ready and is formed character or pattern at surface of the work by pneumatic having an injection.Its concrete structure and the course of work as shown in Figure 1, the driving mechanism of having an injection that the assembly 3 of having an injection is made up of elements such as cylinder, valves, its function is to drive to have an injection 2 to move up and down with hundreds of conspicuous frequencies.Rotating chuck 14 can be realized the motion of workpiece 1 in X (circumference) direction, and workpiece is realized to servo control mechanism 6 at the Y that moves through the mark machine of Y (axially) direction.And the assembly of having an injection is in the position of Z axle (vertically) direction, owing to there is not automatic servo mechanism, so will manually adjust the height of the assembly 3 of having an injection by leading screw in advance, workpiece 1 is in have an injection within 2 the stroke.Because the stroke of having an injection is very little, so when workpiece was irregular curved surface, the height of having an injection that fixes in advance can't adapt to the fluctuations of surface of the work, so can't make suitable adjustment.So just require the surface of the work fluctuations to be limited within the stroke range of having an injection, that is to say that to require workpiece very round, and require chuck 14 to be installed with one heart.Therefore limited its scope of application.For the mark of inner surface, because the volume of assembly 3 is bigger, the workpiece use less to diameter is restricted.
Summary of the invention
The purpose of this utility model provides a kind of probe rod type marking machine, and it can overcome existing shortcoming in the prior art, is adapted at marking on irregular curved surface or the irregular plane, can be applied to the workpiece of minor diameter simultaneously.
The purpose of this utility model be achieved in that it comprise have an injection assembly and X to servo control mechanism and Y to servo control mechanism, have an injection to be equipped with on the assembly and have an injection, it is characterized in that it also is provided with Z to servo control mechanism, Z comprises a feeler lever and the cantilever that can upper and lowerly freely swing to servo control mechanism, the probe of feeler lever keeps certain distance with the end of having an injection, the feeler lever and the assembly of having an injection are installed on the cantilever, and probe rides on the surface of the work by deadweight.
The utility model has the advantages that: because automatic servo with X, Y, three directions of Z, so can be fit to process the workpiece of various irregular curved surfaces, and accurate positioning, easy to use, in addition because the feeler lever of the present utility model and the volume of having an injection are little, so can process the workpiece of minor diameter.
Description of drawings
Fig. 1 is the structural representation of existing mark machine.
Fig. 2-the 6th, mark machine structural principle schematic diagram of the present utility model when being used for the marking of workpiece outer surface.
Fig. 7-the 10th, mark machine structural representation of the present utility model when being used for the work piece inner surface marking.
The specific embodiment
With reference to Fig. 2-Fig. 6, as seen process in the mark machine of outer surface, the 3rd, the assembly of having an injection is equipped with below it and has an injection 2.Among the figure 6 be Y to servo control mechanism, the 14th, X is to servo control mechanism.By Fig. 2,4,5 as seen, X is the rotating disk that clamps workpiece to servo control mechanism, and it is fit to be applied in the workpiece on the round surface of processing.And the X shown in Fig. 3,6 is applied to the processing plane workpiece to servo control mechanism, and it is the chuck that can move along dovetail groove.Unidirectional dovetail groove can realize X to servo, and if the dovetail groove of X, Y both direction is installed, then can realize the servo of X, Y both direction.By Fig. 1-Fig. 6 as seen, Z of the present utility model comprises a cantilever 15 to servo control mechanism, and an end of cantilever 15 is installed in the fixing axle sleeve 22, can freely rotate.The other end of cantilever can freely upper and lower swing.The assembly 3 of having an injection is installed in the end of cantilever.Z is installed on the assembly 3 of having an injection to the probe 4 of servo control mechanism, 2 installs side by side with having an injection, and the end of visiting 4 rides on the surface of workpiece by gravity, and and the distance of having an injection between the end remain on (impulse stroke of having an injection is interior) in certain scope.In order to make the adjustable height of axle sleeve 22, on the support member of axle sleeve, leading screw can be installed.In addition, as shown in Figure 5, Y is installed on the support member to servo control mechanism, can alleviates the weight of cantilever front portion.
Fig. 7-Figure 10 has provided the concrete structure signal of the servo control mechanism of X, Y, Z three directions.Wherein X is a rotating disk 14 that is driven by transmission mechanism by stepper motor 13 to servo control mechanism, and workpiece 1 is installed on the rotating disk.
Z is made up of cantilever 15 and feeler lever 4 to servo control mechanism, and an end of cantilever 15 is installed in the axle sleeve 22 of fixed support, and feeler lever then is installed on the cantilever to servo control mechanism by Y.Y shown in Figure 7 comprises a vertical axis 23 that is fixedly mounted on the cantilever to servo control mechanism, and vertical axis is equipped with only rotating axle sleeve 24 outward, is fixedly connected with on axle sleeve and cranks arm 7, and the assembly of having an injection is installed in cranks arm on 7.Feeler lever 4 is installed on the assembly 3 of having an injection, and probe 8 rides over the surface of workpiece 1 by deadweight, and probe 8 and having an injection between 2 apart from necessarily remains in the stroke range of having an injection.During work, probe contacts with surface of the work.When surface of the work was irregular, having an injection all the time rose and fell at surface of the work with probe, remained within the impulse stroke with the distance of surface of the work.Y drives Y to axis servomotor 20 to the stepper motor 9 of servo control mechanism by transmission mechanism, and Y is connected with a rocking arm 16 to the end of axis servomotor, and rocking arm 16 1 ends are equipped with a pulley 10, and pulley 10 7 contacts with cranking arm.Make rocking arm swing by stepper motor 9, forcing cranks arm 7 drives the assembly 3 of having an injection and moves, and realizes the servo of Y direction.Stepper motor 9 and axis servomotor 20 etc. all hang over the end of cantilever 15 by axle sleeve 21.Crank arm 7 and cantilever 15 between extension spring 25 is installed, 7 return is used to crank arm.
As shown in Figure 8, and the difference between the embodiment shown in Figure 7 is that feeler lever 4 is not mounted on the assembly 3 of having an injection, and cranks arm on 7 but be directly installed on, and can play the effect the same with embodiment shown in Figure 7.
As shown in Figure 9, Y is equipped with two axle sleeves 24 to vertical axis 23 outsides of servo control mechanism, be fixedly connected with one on each axle sleeve and crank arm 7, the assembly 3 of having an injection on cranking arm, one of them is installed, feeler lever 4 on cranking arm, another is installed, be provided with stopping means 5 at two between cranking arm, make probe 8 and have an injection 2 to remain within certain distance.
The difference of embodiment shown in Figure 10 and embodiment shown in Figure 9 is: Y includes two vertical axises 23 to servo control mechanism and is installed on the cantilever 15 of servo control mechanism, is separately installed with axle sleeve 24 on each vertical axis, and other is identical with Fig. 9.

Claims (8)

1, probe rod type marking machine, it comprise have an injection assembly and X to servo control mechanism and Y to servo control mechanism, have an injection to be equipped with on the assembly and have an injection, it is characterized in that it also is provided with Z to servo control mechanism, Z comprises a feeler lever and the cantilever that can upper and lowerly freely swing to servo control mechanism, the probe of feeler lever keeps certain distance with the end of having an injection, and the feeler lever and the assembly of having an injection are installed on the cantilever, and probe rides on the surface of the work by deadweight.
2, according to the said mark machine of claim 1, it is characterized in that X is the chuck that a rotary chuck or can move along the plane chute to servo control mechanism, workpiece is installed on the chuck.
3, according to the said mark machine of claim 1, it is characterized in that X is a chuck that can move in X, Y two directions along chute to servo control mechanism and Y to servo control mechanism, workpiece is installed on the chuck.
4, according to the said mark machine of claim 1, it is characterized in that the feeler lever and the assembly of having an injection are installed on the cantilever to servo control mechanism by Y, Y comprises the vertical axis that is fixedly mounted on the cantilever to servo control mechanism, vertical axis is set with the axle sleeve that can only rotate outward, be installed with on the axle sleeve and crank arm, on the feeler lever and the assembly of having an injection are installed in and crank arm, by Y to watching a stepper motor driven Y is fixed with an end band pulley on axis servomotor rocking arm; rocking arm with the cranking arm of assembly of having an injection be installed contact; the end of cantilever and Y are fixedly connected on Y on the axle sleeve of watching width of cloth axle to watching width of cloth stepper motor, and having an injection in installation is equipped with extension spring between cranking arm of assembly and the cantilever.
5, according to the said mark machine of claim 4, it is characterized in that being installed with on the cantilever vertical axis, the assembly of having an injection is installed on the cranking arm of fixedlying connected with vertical axle sleeve, and feeler lever is installed on the assembly of having an injection side by side with having an injection.
6, according to the said mark machine of claim 4, it is characterized in that being installed with on the cantilever vertical axis, the assembly of having an injection is installed on the cranking arm of fixedlying connected with vertical axle sleeve side by side with feeler lever.
7, according to the said mark machine of claim 4, it is characterized in that being installed with on the cantilever vertical axis, two independently axle sleeves are installed on vertical axis, being equipped with one on each axle sleeve cranks arm, the feeler lever and the assembly of having an injection be installed in respectively two crank arm on, stopping means is installed at two between cranking arm.
8, according to the said mark machine of claim 4, it is characterized in that being installed with on the cantilever two vertical axises, be installed with one on the axle sleeve of each vertical axis and crank arm, the feeler lever and the assembly of having an injection be installed in respectively two crank arm on, stopping means is installed at two between cranking arm.
CN 200620090984 2006-05-26 2006-05-26 Probe rod type marking machine Expired - Fee Related CN2920660Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 200620090984 CN2920660Y (en) 2006-05-26 2006-05-26 Probe rod type marking machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 200620090984 CN2920660Y (en) 2006-05-26 2006-05-26 Probe rod type marking machine

Publications (1)

Publication Number Publication Date
CN2920660Y true CN2920660Y (en) 2007-07-11

Family

ID=38253138

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 200620090984 Expired - Fee Related CN2920660Y (en) 2006-05-26 2006-05-26 Probe rod type marking machine

Country Status (1)

Country Link
CN (1) CN2920660Y (en)

Similar Documents

Publication Publication Date Title
CN100418781C (en) Probe rod type marking machine
CN202779019U (en) Rotary clamping cleaning device
CN102019614A (en) Mechanical arm mechanism used for picking and choosing wafer
CN103278060A (en) Comprehensive bounce detecting machine with disk hub
CN102445128A (en) Mechanism for quickly withdrawing detection pin
CN107756198B (en) Jar external wall high efficiency grinding device
CN2920660Y (en) Probe rod type marking machine
CN103465073B (en) A kind of engine cylinder block bore locating device
CN203061608U (en) Automatic shaft body straightening machine
CN205703759U (en) The bear inner ring grooved railway of full automatic bearing ring grinds the mill ditch detection device of super all-in-one
CN105690259B (en) The bear inner ring grooved railway of full automatic bearing ring grinds the mill ditch detection means of super all-in-one
CN208906528U (en) A kind of machinery cutting machine
CN205414640U (en) Well minute trailing type electrode support device's drive mechanism
CN105414952B (en) Valve core direction selecting and aligning device
CN107907214A (en) Adjustable pinhole device
CN101085520A (en) Bearing outside dimension choosing robot
CN109291701B (en) High-precision drawing device
CN210211422U (en) Breathable film welding machine
CN104209721B (en) Automotive trim lamp lamp socket erecting device
CN207873838U (en) Equipment for finishing workpiece
CN110549767A (en) Automatic assembly machine for pencil holder counter weight
CN205257455U (en) Pick up fender brick mechanism of brick machine
CN213136662U (en) Tool capable of achieving coordinate adjustment for production and assembly of platform frame of electrostatic navigator
CN217122252U (en) Pneumatic welded anchor clamps
CN103350378A (en) Edge polishing machine replacing manpower

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
C19 Lapse of patent right due to non-payment of the annual fee
CF01 Termination of patent right due to non-payment of annual fee