CN207900810U - Milling machine processes the integrated structure with measurement - Google Patents
Milling machine processes the integrated structure with measurement Download PDFInfo
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- CN207900810U CN207900810U CN201820002860.2U CN201820002860U CN207900810U CN 207900810 U CN207900810 U CN 207900810U CN 201820002860 U CN201820002860 U CN 201820002860U CN 207900810 U CN207900810 U CN 207900810U
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- axis measurement
- milling machine
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- measured
- integrated structure
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Abstract
The utility model provides a kind of integrated structure milling machine processing and measured, it is mainly made of milling machine board, two X-axis measurement groups, two Y-axis measurement groups and Z axis measurement group, it can be before rectangular piece be processed, the size for analyzing rectangular piece length helps the operability and process time efficiency for improving milling machine board.In addition, receiving the data measured by display and showing over the display, self registering convenience is provided, and can effectively achieve the purpose that consistent quality rule matter, quality keyholed back plate and save manpower operation.
Description
Technical field
The utility model is related with planer-type milling machine, particularly relates to a kind of integrated structure milling machine processing and measured.
Background technology
Refering to Figure 1, since 13 required precision of enlarged workpiece constantly improves, especially planer-type milling machine 10 is right
The requirement of machining accuracy is more stringent, since workbench 11 is set to moving linearly on engine base 12, and the workpiece 13
When being processed, which is disposed on the workbench 11, and is the machining accuracy for ensureing the workpiece 13, it is necessary to right
The surface of the workpiece 13 is measured, to avoid defective products is generated.
However, before carrying out the workpiece 13 processing, staff must orient the 13 zero coordinate of workpiece, to make
For the reference point of processing, and rectifying inspection must also be done before operation to measuring tool, will then measure acquired data again
Input computer, it is not only time-consuming and take a lot of work outer, it is possible to because different staff is under using identical measuring tool, amount
Measure different as a result, and above-mentioned is all to be detected by way of human eye, therefore staff is easy because of eyes
Fatigue or erroneous judgement are generated under prolonged observation, not only can labor intensive operation and the cost that increases measuring tool, equivalent
Staff is not easy to find when survey tool changes, and then influences the accuracy rate measured and the efficiency of measurement.In addition, having
Probably due to human factor scratches the outer surface of the workpiece 13 when measuring, presentation quality is influenced.
Therefore, above-mentioned problem of the prior art and defect, as the utility model improved side to be studied how to be solved
To place.
Utility model content
The purpose of this utility model is to provide the integrated structure a kind of milling machine processing and measured, main lift processes matter
Amount and yield and automation control, and can effectively achieve the purpose that consistent quality rule matter, quality keyholed back plate and save manpower operation.
To reach foregoing purpose, the utility model provides a kind of integrated structure milling machine processing and measured, be suitable for measuring with
A rectangular piece is processed, which has a height-measuring face, a pair of length for corresponding and connecting the height-measuring face
Measuring surface and a pair of width measuring face for corresponding and connecting the height-measuring face and the length measuring surface, the milling machine are automatic
The integrated structure measured is processed, including:One milling machine board, including an X-direction, a Y direction and a Z-direction, and have
Have an engine base, two stand be arranged the engine base both sides column, one laterally and can along the Z-direction shift reciprocately be arranged exist
The crossbeam of the column one end, one can be arranged along the Y direction shift reciprocately in the engine base and for rectangular piece setting
Workbench, one can be arranged along the X-direction shift reciprocately is separately positioned on the engine base two in the headstock of the crossbeam and two
End and the sliding rail parallel with the X-direction;Two X-axis measurement groups correspond and can divide along the X-direction shift reciprocately
The X-axis measurement portion that is not arranged on two sliding rail, and the length measuring surface can be measured with one;Two Y-axis measurement groups, mutually
Y-axis measurement portion that is corresponding and being respectively arranged on two column, and the width measuring face can be measured with one;An and Z
Axis measurement group is set to the side of the headstock, and the Z axis measurement portion that can be measured to the height-measuring face with one.
Preferably, it is characterized in that also including a display, the display and X-axis measurement group, Y-axis measurement group and the Z
Axis measurement group is electrically connected, to obtain the metric data in the X-axis measurement portion, the Y-axis measurement portion and the Z axis measurement portion and be shown through this
Show that device is shown.
Preferably, it is characterized in that the X-axis measurement group can be flexible along the Z-direction comprising one and connects the X-axis amount
The pars contractilis in survey portion.
Preferably, it is characterized in that the X-axis measurement portion, Y-axis measurement portion and the Z axis measurement portion are laser or probe, with right
The rectangular piece is measured.
Accordingly, the utility model provides a kind of processing of milling machine and the integrated structure measured, mainly by milling machine board,
Two X-axis measurement groups, two Y-axis measurement groups and Z axis measurement group are formed, and can analyze rectangle before rectangular piece is processed
The size of workpiece length helps the operability and process time efficiency for improving milling machine board.In addition, being received by display
The data of measurement are simultaneously shown over the display, provide self registering convenience, and can effectively reach that quality rule matter is consistent, quality control
Pipe and the purpose for saving manpower operation.
Description of the drawings
Fig. 1 is the structure chart of the milling machine of the prior art;
Fig. 2 is the vertical view of the utility model embodiment;
Fig. 3 is the stereogram of the utility model embodiment, and display Z axis measurement portion is probe;
Fig. 4 is the stereogram of the utility model embodiment, and display Z axis measurement portion is laser;
Fig. 5 is the stereogram of the utility model embodiment, the state that display X-axis measurement group is stretched out;
Fig. 6 is the stereogram of the utility model embodiment, the state that display X-axis measurement group is retracted;
Fig. 7 is the structure chart of the utility model embodiment, shows the picture of display;
Fig. 8 is the flow chart of the utility model embodiment.
Reference sign.
The prior art:
Planer-type milling machine 10
Workbench 11
Engine base 12
Workpiece 13;
The utility model:
X-direction X
Y direction Y
Z-direction Z
Rectangular piece 20
Height-measuring face 21
Length measuring surface 22
Width measuring face 23
Milling machine board 30
Engine base 31
Column 32
Crossbeam 33
Workbench 34
Headstock 35
Sliding rail 36.
X-axis measurement group 40
X-axis measurement portion 41
Pars contractilis 42
Y-axis measurement group 50
Y-axis measurement portion 51
Z axis measurement group 60
Z axis measurement portion 61
Display 70.
Specific implementation mode
About the aforementioned of the utility model and other technology contents, feature and effect, in following cooperation refer to the attached drawing
In the detailed description of preferred embodiment, can clearly it present.
It please refers to shown in Fig. 2 to Fig. 3, is a kind of integrated structure milling machine processing and measured of the utility model, is suitable for amount
Surveying with one rectangular piece 20 of processing, the rectangular piece 20 there is a height-measuring face 21, a pair to correspond and connect the height
The length measuring surface 22 of measuring surface 21 and a pair of width for corresponding and connecting the height-measuring face 21 and the length measuring surface 22
Spend measuring surface 23, which processes the integrated structure of measurement automatically, mainly by a milling machine board 30, two X-axis measurement groups 40,
Two Y-axis measurement groups 50 and a Z axis measurement group 60 are formed, wherein:
The milling machine board 30, including an X-direction X, a Y direction Y and a Z-direction Z, and there is an engine base 31, two
The column 32, one of the both sides that the engine base 31 is arranged of standing laterally and can be arranged along Z-direction Z shift reciprocatelies in the column
The crossbeam 33, one of 32 one end can be arranged in the engine base 31 along Y direction Y shift reciprocatelies and be arranged for the rectangular piece 20
Workbench 34, one headstock 35 in the crossbeam 33 can be set along X-direction X shift reciprocatelies, make the milling machine board
30 are separately positioned on 31 both ends of engine base and the sliding rail parallel with X-direction X with three for the axial displacement in space and two
36;In the present embodiment, which is positioned on the workbench 34, and the mistake being processed by way of automatically controlling
Journey.Wherein, which slides onto the Working position of the headstock 35 to carry out milling operation on the workbench 34.
The two X-axis measurement group 40 is corresponded and can be separately positioned on along X-direction X shift reciprocatelies and respectively should
On sliding rail 36, and the X-axis measurement portion 41 that the respectively length measuring surface 22 can be measured with one, pass through the X-axis measurement portion 41
It measures, obtains the length data of the length measuring surface 22;In the present embodiment, which runs face-to-face, realization pair
Two opposite faces of the same rectangular piece 20 are measured, and are greatly shortened and are measured the time, and improve working efficiency;In addition, should
The both ends that two X-axis measurement groups 40 are mounted on the milling machine board 30 also greatly reduce the space in dealer factory;Please refer to Fig. 5
Shown in Fig. 6, unlike above-mentioned implementation state, in the present embodiment, respectively the X-axis measurement group 40 can be along the Z comprising one
Axis direction is flexible and connects the pars contractilis 42 in the X-axis measurement portion, by the upper and lower flexible of the pars contractilis 42, can avoid the X-axis amount
Survey group 40 is damaged because of collision, and height can be freely adjusted with the position of the rectangular piece 20, has the facility used
Property, mobility the effect of, when the milling machine board 30 stop milling operation when, which will be automatically adjusted to be pre-positioned
It sets, the safety used is substantially improved;In addition, in the present embodiment, for which lifts laser, but not limited to this,
The mode that probe telescoping can also be adopted, to be measured to the rectangular piece 20.
The two Y-axis measurement group 50 is corresponded and is respectively arranged on respectively two column 32, and can be to the width with one
The Y-axis measurement portion 51 that degree measuring surface 23 measures obtains the width in the width measuring face 23 by the measurement in the Y-axis measurement portion 51
Data;In the present embodiment, which realizes with above-mentioned mentioned two X-axis measurement group 40 to the same square
Two opposite faces of shape workpiece 20 are measured, and are greatly shortened and are measured the time, and improve working efficiency;In addition, in the present embodiment, it should
Y-axis measurement portion 51 lift laser for, but not limited to this, can also adopt the mode of probe telescoping, with to the rectangular piece 20 into
Row measures.
It please refers to shown in Fig. 3, which is set to the side of the headstock 35, due to the group of the headstock 35
Conjunction state and motion mode are all same as the prior art, also non-the utility model emphasis, therefore for the detailed knot of such component
Structure is no longer described in detail with motion mode, which has a Z axis measurement portion that can be measured to the height-measuring face 21
61, by the measurement in the Z axis measurement portion 61, obtain the altitude information in the height-measuring face 21, in the present embodiment, which measures
For probe is lifted in portion 61, but not limited to this, please refers to shown in Fig. 4, can also adopt the mode of laser, with to the rectangular piece 20
It is measured.
Therefore, when the X-axis measurement portion 41, the Y-axis measurement portion 51 or the Z axis measurement portion 61 are probe, above-mentioned component is just
Respectively there is a telescopic rod, please refer to shown in Fig. 5 to Fig. 6, in the present embodiment, it is for popping one's head in lift the Z axis measurement portion 61, this is flexible
Bar is extending and contacts on the face to be measured of rectangular piece 20, to carry out metrology operation automatically, completely without staff
Operation, compared to the prior art, the utility model can mitigate the operating cost of staff, and can increase control really before processing
The rectangular piece 20 measures the precision of size.
It is noted that please referring to shown in Fig. 7, the utility model further includes a display 70, the display 70 and the X
Axis measurement group 40, Y-axis measurement group 50 and the Z axis measurement group 60 are electrically connected, to obtain the X-axis measurement portion 41, the Y-axis measurement portion
51 and the Z axis measurement portion 61 metric data and through the display 70 show;In addition, the display 70 assigns the convenience of record
Property, such as uncommon defect can be recorded and be stored in the storage module of the display 70(Do not show in figure), due to existing
Technology is all to be recorded by the way of artificial, and the above-mentioned record is sequentially input in computer, causes to waste many people
The work operating time.Therefore the utility model is capable of each defect of record of easily and effectively rate, and does not have the anxiety of omission,
For every month or each week already recorded data, periodically make meeting self-criticism, reaches and promote the efficiency that product improves.
It please refers to shown in Fig. 8, is the flow chart of the utility model, processing automatic first, which starts, to be started, the milling machine board 30
X-axis measurement group 40, Y-axis measurement group 50 and Z axis measurement group 60 just start that the rectangular piece 20 is started to measure, with obtain should
The length of rectangular piece 20, the data of width and height, after the data of length, width and height obtain, the X-axis amount
Survey group 40, Y-axis measurement group 50 and Z axis measurement group 60 then stop acting, meanwhile, the data of above-mentioned length, width and height are just
Integrate and converge whole output to above each axis of the milling machine board 30, each axis just therefore start running with it is mobile, at this point, the milling
Bed board 30 enters Milling Process operation procedure;Since the utility model can automate operation and setting correction value, therefore, it is possible to
The measurement error caused by manual working and input error are avoided, and can reach the short time to be efficiently processed precision
It measures and corrects.
By above-mentioned explanation it is seen that the advantages of the utility model, it is the two of the engine base 31 described in the utility model
End, the respectively side of the column 32 and the side of the headstock 35, the 20 different sides amount of progress of rectangular piece can be directed to by more adding
The measurement group of survey can also provide the milling machine board 30 more polynary processing kenel other than the Milling Process just having originally,
And coordinate the mode integration process automatically controlled and measure, and it is more functional so that planer-type milling machine is had.In addition, can substantially carry
High efficiency improves the stability of product testing result, reduces the labour of staff, saves human cost.
In conclusion above-described embodiment and attached drawing are only the preferred embodiment of the utility model, when cannot be limited with this
Determine the range of the utility model implementation, all equivalent variations made according to the patent scope of the utility model and modification, belongs to
The range that the utility model patent covers.
Claims (4)
1. a kind of integrated structure milling machine processing and measured, being suitable for measuring has with one rectangular piece of processing, the rectangular piece
One height-measuring face a pair of correspond and connects the length measuring surface in the height-measuring face and a pair is corresponded and connected
The width measuring face in the height-measuring face and the length measuring surface, the milling machine process the integrated structure of measurement automatically, and feature exists
In, including:
One milling machine board, including an X-direction, a Y direction and a Z-direction, and standing setting with an engine base, two should
Crossbeam, an energy in the column one end can be arranged laterally and along the Z-direction shift reciprocately in the column of the both sides of engine base, one
It is enough along the Y direction shift reciprocately be arranged the engine base and for the workbench of rectangular piece setting, one can be along the X-axis
Direction shift reciprocately is arranged is separately positioned on the engine base both ends and parallel with the X-direction in the headstock of the crossbeam and two
Sliding rail;
Two X-axis measurement groups are corresponded and can be separately positioned on along the X-direction shift reciprocately on two sliding rail, and
The X-axis measurement portion that the length measuring surface can be measured with one;
Two Y-axis measurement groups are corresponded and are respectively arranged on two column, and can be measured to the width measuring face with one
Y-axis measurement portion;And
One Z axis measurement group is set to the side of the headstock, and can be measured to the Z axis that the height-measuring face measures with one
Portion.
2. the integrated structure as described in claim 1 milling machine processing and measured, which is characterized in that also include a display, it should
Display is electrically connected with the X-axis measurement group, the Y-axis measurement group and the Z axis measurement group, to obtain X-axis measurement portion, the Y-axis amount
The metric data in survey portion and the Z axis measurement portion is simultaneously shown through the display.
3. the integrated structure as described in claim 1 milling machine processing and measured, which is characterized in that the X-axis measurement group includes one
The pars contractilis in the X-axis measurement portion can be stretched and connected along the Z-direction.
4. the integrated structure as described in claim 1 milling machine processing and measured, which is characterized in that X-axis measurement portion, the Y-axis amount
Survey portion and the Z axis measurement portion are laser or probe, to be measured to the rectangular piece.
Priority Applications (1)
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CN201820002860.2U CN207900810U (en) | 2018-01-02 | 2018-01-02 | Milling machine processes the integrated structure with measurement |
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CN201820002860.2U CN207900810U (en) | 2018-01-02 | 2018-01-02 | Milling machine processes the integrated structure with measurement |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109341506A (en) * | 2018-11-16 | 2019-02-15 | 武汉理工大学 | Three direction displacement measuring device |
CN109986410A (en) * | 2018-01-02 | 2019-07-09 | 东莞市鑫国丰机械有限公司 | Integrated structure milling machine processing and measured |
CN110548908A (en) * | 2019-10-14 | 2019-12-10 | 吉林大学 | gantry type coarse-fine composite five-axis precision machine tool and machining method |
CN111360584A (en) * | 2020-04-28 | 2020-07-03 | 中南大学 | Large-size revolving body workpiece surface detection device and method |
-
2018
- 2018-01-02 CN CN201820002860.2U patent/CN207900810U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109986410A (en) * | 2018-01-02 | 2019-07-09 | 东莞市鑫国丰机械有限公司 | Integrated structure milling machine processing and measured |
CN109341506A (en) * | 2018-11-16 | 2019-02-15 | 武汉理工大学 | Three direction displacement measuring device |
CN109341506B (en) * | 2018-11-16 | 2020-01-14 | 武汉理工大学 | Three-dimensional displacement measuring device |
CN110548908A (en) * | 2019-10-14 | 2019-12-10 | 吉林大学 | gantry type coarse-fine composite five-axis precision machine tool and machining method |
CN110548908B (en) * | 2019-10-14 | 2024-04-12 | 吉林大学 | Gantry type coarse-fine composite five-axis precision machine tool and machining method |
CN111360584A (en) * | 2020-04-28 | 2020-07-03 | 中南大学 | Large-size revolving body workpiece surface detection device and method |
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