CN2879152Y - Measuring device for mould punching force and its center - Google Patents
Measuring device for mould punching force and its center Download PDFInfo
- Publication number
- CN2879152Y CN2879152Y CNU2006200825109U CN200620082510U CN2879152Y CN 2879152 Y CN2879152 Y CN 2879152Y CN U2006200825109 U CNU2006200825109 U CN U2006200825109U CN 200620082510 U CN200620082510 U CN 200620082510U CN 2879152 Y CN2879152 Y CN 2879152Y
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- center
- resistance strain
- pressure
- stamping press
- mould
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Abstract
The utility model is a measuring device for die pressing force and pressing force center measurement. The scheme are effectuated in this way: the device comprises a measuring block connected with the connecting mechanisms of the press and the connecting mechanism of the die; at least three groups of resistance strain gauge are equipped at the side of the measuring block. The measuring device for die pressing force and pressing force center features simple and reasonable structure, good maneuverability, easy to operate and popularize, and capable of providing basis for improvement of pressing tool design, dimension parameters, precision parameters and die installation and calibration of the pressing on the press. Measuring the mechanics parameter with resistance strain gauge measuring method has the advantages of convenience and high precision and can improve the die quality if utilized in die design. The measuring cross-section measured of the device can be set accordingly to different pressing force level and enhance the measurement sensitivity. The resistance strain gauge can be foil plate that has less landscape orientation effect. If high sensitivity is needed, the semi-conductor plate can be utilized.
Description
Technical field
The utility model relates to a kind of mould determinator, relates in particular to a kind of mould stamping press and Center of Pressure determinator.
Background technology
The sheet metal moulding is widely used in industrial circles such as automobile, aviation, electronics, household electrical appliances.In the forming process of sheet metal, mould and pressure and precision are the key factors of decision stamping quality and production efficiency.When carrying out stamping Die Design, the stamping press in the time of must calculating mold work and the position of Mould's Pressure Center (action center that the mould blanking pressure is made a concerted effort).The main foundation of carrying out intensity, Rigidity Calculation and equipment choosing when the stamping press size is the mould design; And the position of Mould's Pressure Center should coincide with the center line of die shank.When carrying out punching press, the center of effort of pressing machine is overlapped with Mould's Pressure Center, the skew of slight Center of Pressure just can cause die clearance inequality, wearing and tearing aggravation, quality to stamping parts exerts an influence, serious Center of Pressure skew also can cause serious eccentric load to pressing machine, consequently mold damage, breaking pressure machine precision, even can damage equipment.So reply stamping press and Center of Pressure are carried out well-designedly when the mould of design punching press profile or the asymmetric part of endoporus, coincide by the die shank axis and with the center line of press ram with the Center of Pressure of guaranteeing punch die.
At present, in stamping Die Design, the method for determining stamping press and Center of Pressure all is empirical estimatings, summary calculating, Practical Formula based on empirical method etc.Though these methods have certain practicality,, when using, often seem accurate inadequately for complicated dies such as the stamping die of some complicated shapes and precision workpiece and the progressive die, compound dies.Though can accurately calculate the position of Center of Pressure with computing machine,, often be difficult to also guarantee that the Center of Pressure of mould overlaps with the center of effort of die shank center and press machine owing to be subjected to the influence of manufacturing accuracy, service condition etc.Therefore, improve the precision of determining stamping press and centre-of-pressure position, particularly determine the positional precision of lathe stamping press center and Mould's Pressure Center, raising punch process precision, prolongation die life are had important use be worth.
Summary of the invention
The utility model is at the existing in prior technology shortcoming, and provide the technical scheme of a kind of mould stamping press and Center of Pressure determinator, this scheme adopts laboratory facilities to measure the position and the stamping press of diel Center of Pressure, for design, manufacturing, adjustment, the use of diel provides reliable foundation.
The utility model is realized by following technical measures: it comprise have with the bindiny mechanism of pressing machine and with the test block of the bindiny mechanism of mould, the test block side is provided with at least three group resistance strain gages.By three groups of resistance strain gages respectively meter calculate stamping press P, x directional pressure center offset e
xAnd y directional pressure center offset e
y
The concrete characteristics of this programme also have, at least four every group of three groups of above-mentioned resistance strain gages, and all resistance strain gages are distributed in the surface of test block regularly; Resistance strain gage in every group adopts the full-bridge connected mode of Wheatstone bridge.
Above-mentioned be used to measure the resistance strain gage that calculates stamping press P and specifically can adopt eight, two one groups are totally four groups, adopt the full-bridge connected mode of Wheatstone bridge.
X directional pressure center offset e is calculated in the above-mentioned measurement that is used for
xResistance strain gage have four, adopt the full-bridge connected mode of Wheatstone bridge.
Y directional pressure center offset e is calculated in the above-mentioned measurement that is used for
yResistance strain gage have four, adopt the full-bridge connected mode of Wheatstone bridge.
With the bindiny mechanism of pressing machine be the shank that protrudes in the test block upper surface, with the bindiny mechanism of mould be the patrix mounting hole that is arranged at the test block lower surface, periphery at test block is provided with the trip bolt mounting hole, and the sectional dimension of shank and patrix mounting hole adapts.
The test block body surfaces is cylindrical, the central lines of its center line and shank and patrix mounting hole.
This mould stamping press and Center of Pressure assay device structures advantages of simple, workable, be convenient to promote the use of, can provide foundation for the improvement of the structural design of diel, dimensional parameters, precision parameter and for the Installation and Debugging of diel on pressing machine.With resistance strain gage electrical measuring method ergometry mathematic(al) parameter, have and measure convenient, the higher characteristics of precision, be applied to the mould design, can improve die quality.Be the stamping press that adapts to different magnitudes, the sensitivity that improves measurement, but the cross-sectional area of respective design measurement mechanism measure portion.Foil gauge generally can adopt the less paper tinsel formula foil gauge of transversal effect.Highly sensitive as if requiring, can adopt semiconductor gauge.
Description of drawings
Fig. 1 is the utility model embodiment user mode scheme of installation.
Fig. 2 is the front view of the utility model embodiment.
Fig. 3 is the vertical view of the utility model embodiment.
Fig. 4 is that the layout of the resistance strain gage in the utility model embodiment is launched synoptic diagram.
Fig. 5 connects the bridge schematic diagram for the survey stamping press in the utility model embodiment.
Fig. 6 connects the bridge schematic diagram for the survey x directional pressure center offset in the utility model embodiment.
Fig. 7 connects the bridge schematic diagram for the survey y directional pressure center offset in the utility model embodiment.
Among the figure, 1. press ram, 2. test block, 3. patrix, 4. shank, 5. patrix mounting hole, 6~21. resistance strain gages, 22. trip bolts, 23. counterdies.
Embodiment
For clearly demonstrating the technical characterstic of this programme,, and, this programme is set forth in conjunction with its accompanying drawing below by an embodiment.It comprises have with pressing machine on the test block 2 of the shank 4 that protrudes in test block 2 upper surfaces that is connected of slide block 1, test block 2 lower surfaces are provided with patrix mounting hole 5, periphery at test block 2 is provided with trip bolt 22 mounting holes, trip bolt 22 can pass test block 2 bodies and compress patrix 3, and patrix 3 is fixed.Shank 4 adapts with the sectional dimension of patrix mounting hole 5, and test block 2 main body outside surfaces are cylindrical, the central lines of its center line and shank 4 and patrix mounting hole 5.Test block 2 sides are provided with at least three group resistance strain gages, and three groups of resistance strain gages are concrete, and what adopt is to be used to measure the resistance strain gage 6,7,10,11,14,15,18,19 that calculates stamping press P, to be used for measuring and to calculate x directional pressure center offset e
x Resistance strain gage 8,9,16,17, be used for measure calculating y directional pressure center offset e
y Resistance strain gage 12,13,20,21; Resistance strain gage in every group adopts the full-bridge connected mode of Wheatstone bridge, wherein is used to measure the resistance strain gage that calculates stamping press P and specifically can adopts eight, and two one groups are totally four groups, adopts the full-bridge connected mode of Wheatstone bridge; Be used for measuring calculating x directional pressure center offset e
xResistance strain gage have four, adopt the full-bridge connected mode of Wheatstone bridge; Be used for measuring calculating y directional pressure center offset e
yResistance strain gage have four, adopt the full-bridge connected mode of Wheatstone bridge.Above-mentioned resistance strain gage 6~21 is arranged regularly according to Fig. 4.
The course of work of the present utility model is as follows: test block is installed between press ram and the patrix, to be used to measure resistance strain gage 6,7 polyphones that calculate stamping press P respectively, resistance strain gage 10,11 polyphones, resistance strain gage 14,15 polyphones, resistance strain gage 18,19 polyphone is divided into four groups and form Wheatstone bridge; Be used for measuring calculating x directional pressure center offset e
x Resistance strain gage 8,9,16,17 form Wheatstone bridges; Be used for measuring calculating y directional pressure center offset e
y Resistance strain gage 12,13,20,21 form Wheatstone bridges.Three above-mentioned Wheatstone bridge output lines link to each other with electric wire strain gauge, connect the power supply of electric wire strain gauge, the opening pressure machine obtains stamping press thereby patrix 3 is contacted with counterdie 23, and the stamping press of gained promptly can be used as mould strength, rigidity Design and selects the foundation of pressing equipment for use.Also can obtain Center of Pressure side-play amount e
xAnd e
y, just can revise the position of die shank 4, make die shank center and mould stamping press center Chong Huai.Overlap with the die shank center as if Mould's Pressure Center, then e
xAnd e
yBe zero.
The demarcation of measurement mechanism 2 mainly is the demarcation of doing stamping press, promptly calibrates the unit strain that electric wire strain gauge records and is equivalent to great stamping press.
Staking-out work can be carried out on universal testing machine, by universal testing machine measurement mechanism is applied known pressure P
Mark, connect with Fig. 5 electric bridge, read from electric wire strain gauge and demarcate strain value e
Mark, then calibration coefficient K is: K=P
Mark/ e
Mark(N/1 microstrain); When carrying out the stamping press measurement, read the measurement strain stress from electric wire strain gauge
Survey(microstrain) is as long as with ε
SurveyMultiply by calibration coefficient K, just can obtain the stamping press P:P=K ε that surveys
Survey(N);
Survey x directional pressure center offset e
x, can be connected into full bridge measurement as schematic diagram 6, directly measure the measurement strain stress that demonstration obtains this electric bridge by electric wire strain gauge
Survey xBy ε
Survey xAnd stamping press P, according to formula e
x=M/P=W σ/P=WE ε
Survey x/ 4P can calculate actual stamping press action center and the desirable pressure action center offset distance e in the x direction
x
Survey y directional pressure center offset e
yCan be connected into full bridge measurement as Fig. 7, directly measure the measurement strain stress that demonstration obtains this electric bridge by electric wire strain gauge
Survey yBy recording strain value ε
Survey yWith stamping press P, according to formula e
y=M/P=W σ/P=WE ε
Survey y/ 4P calculates actual stamping press action center and the desired pressure center offset distance e in the y direction
y
In view of the above, can obtain stamping press P, Mould's Pressure Center offset distance e at x and two coordinate directions of y
xAnd e
y, be used for mould design and pressing machine debugging.Dependent variable ε wherein
Survey xAnd ε
Survey yDirectly measure demonstration by electric wire strain gauge and obtain, be the direct reading of measuring bridge; W is a bending resistant section square amount, and E is an elasticity modulus of materials, and after physical dimension and material were determined, W and E were known quantity.
The utility model can pass through existing techniques in realizing without the technical characterictic of describing, and does not repeat them here.
Claims (8)
1. mould stamping press and Center of Pressure determinator is characterized in that: it comprise have with the bindiny mechanism of pressing machine and with the test block of the bindiny mechanism of mould, the test block side is provided with at least three group resistance strain gages.
2. mould stamping press according to claim 1 and Center of Pressure determinator is characterized in that: at least four every group of described three groups of resistance strain gages, all resistance strain gages are distributed in the surface of test block regularly.
3. mould stamping press according to claim 1 and 2 and Center of Pressure determinator is characterized in that: described three groups of resistance strain gages are respectively and are used to measure the resistance strain gage that calculates stamping press P, are used for measuring and calculate x directional pressure center offset dependent variable e
xResistance strain gage, be used for measure calculating y directional pressure center offset e
yResistance strain gage; Resistance strain gage in every group adopts the full-bridge connected mode of Wheatstone bridge.
4. mould stamping press according to claim 3 and Center of Pressure determinator is characterized in that: describedly be used to measure the resistance strain gage that calculates stamping press P and have eight, two one groups are totally four groups, adopt the full-bridge connected mode of Wheatstone bridge.
5. mould stamping press according to claim 3 and Center of Pressure determinator is characterized in that: the described measurement calculating x directional pressure center offset e that is used for
xResistance strain gage have four, adopt the full-bridge connected mode of Wheatstone bridge.
6. mould stamping press according to claim 3 and Center of Pressure determinator is characterized in that: the described measurement calculating y directional pressure center offset e that is used for
yResistance strain gage have four, adopt the full-bridge connected mode of Wheatstone bridge.
7. according to claim 1 or 2 or 4 or 5 or 6 described mould stamping press and Center of Pressure determinators, it is characterized in that: with the bindiny mechanism of pressing machine be the shank that protrudes in the test block upper surface, with the bindiny mechanism of mould be the patrix mounting hole that is arranged at the test block lower surface, periphery at test block is provided with the trip bolt mounting hole, and the sectional dimension of shank and patrix mounting hole adapts.
8. according to claim 1 or 2 or 4 or 5 or 6 described mould stamping press and Center of Pressure determinators, it is characterized in that: the test block body surfaces is cylindrical, the central lines of its center line and shank and patrix mounting hole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2006200825109U CN2879152Y (en) | 2006-03-31 | 2006-03-31 | Measuring device for mould punching force and its center |
Applications Claiming Priority (1)
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---|---|---|---|
CNU2006200825109U CN2879152Y (en) | 2006-03-31 | 2006-03-31 | Measuring device for mould punching force and its center |
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CN2879152Y true CN2879152Y (en) | 2007-03-14 |
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CNU2006200825109U Expired - Fee Related CN2879152Y (en) | 2006-03-31 | 2006-03-31 | Measuring device for mould punching force and its center |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101789031B (en) * | 2009-01-22 | 2011-09-14 | 江苏华富精密高速模具工程技术研究有限公司 | Progressive die belt designing system based on pressure center optimization |
CN106626503A (en) * | 2016-12-27 | 2017-05-10 | 银川西部大森数控技术有限公司 | Built-in force sensor capable of directly measuring force |
CN109500252A (en) * | 2018-12-29 | 2019-03-22 | 国营第六六厂 | A kind of composite die of the asymmetric locked spacer of abnormity for high-power diesel engine |
-
2006
- 2006-03-31 CN CNU2006200825109U patent/CN2879152Y/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101789031B (en) * | 2009-01-22 | 2011-09-14 | 江苏华富精密高速模具工程技术研究有限公司 | Progressive die belt designing system based on pressure center optimization |
CN106626503A (en) * | 2016-12-27 | 2017-05-10 | 银川西部大森数控技术有限公司 | Built-in force sensor capable of directly measuring force |
CN109500252A (en) * | 2018-12-29 | 2019-03-22 | 国营第六六厂 | A kind of composite die of the asymmetric locked spacer of abnormity for high-power diesel engine |
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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 |