TW201105944A - Impact testing device and method - Google Patents

Abstract

This invention relates to an impact testing device and method. The device includes a main body, an impact device, and a multi-axle holding device. About this method, a testing object and an impact testing device are prepared. Then, this testing object is secured on the impact testing device. The user adjusts a desired testing position of the testing object. Finally, this device can perform an impact test for a selective testing position. Therefore, a selective impact test for different position of a product can be achieved. It saves testing time and cost. Its test accuracy is higher. A quantifiable testing result can be obtained which makes data analysis easier.

Description

201105944 VI. Description of the invention: [Technical field to which the invention belongs] There are multiple strikes, saving time and cost, high accuracy and producing "[previous technique] a pre-=====_ sex, material_cutting, inspection When the test piece is placed on the impact tester at a fixed height, the pendulum is free to fall, and then the energy absorbed by the test piece is generated. This value is the material of the heart. In the sixteenth figure, 'the pendulum 9 of the known weight is raised and H1 is released and released, so that it falls freely; when the pendulum 9 P11, then the position can be turned into kinetic energy' to break a test piece 91 After the most = piece. 91 absorbs the 'remaining energy will make the pendulum M 90 continue to rise a b, the pendulum 9 〇 the first height H1 and the second height H difference, J out of the test The energy absorbed by the sheet 91 breaks, and the movement of the material is obtained. However, after the product is made into a product, the shape, appearance and processing may cause different positions of the product to have different impact resistance, so the impact is performed. The impact resistance test of the product, the result is less than that - the general product will also enter after the assembly of the wire ― By trial, including the strength of the test product (for example, the test stone is dropped, but the residual test of the product cannot be accurately applied to the product), so the most accurate test and analysis cannot be obtained. : After the completion of the mobile phone, when the job is dropped, the record is the more prominent part of the county, and it is impossible to accurately control the part to be hit. If the mobile phone does not pass the 201105944, it cannot accurately know the location of the break. Ϊϊ ί ί 进行 进行 进行 , , , 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行It is more inconvenient. Qiu Jun 7 is suitable for the problem. Therefore, it is necessary to develop a new test device to solve the above shortcomings and problems [invention] The direct detection device and method can be impacted by ίίΐί 2 Save time and cost, quasi-mix 2 results, _ inconvenience and no Lin Cong \3 === set, the technical means to solve the above problems is to provide a shock detection device 'body, Having a - reading column and a base; - an impact device, which is pivotally connected to the support column; on the holding device seat, the multi-axis steering central fixed clamp and the water, the ancient / and the equator steering clamping device The adjusting device comprises: a rotation and an angular position, wherein the multi-axis steering clamp is disposed to adjust a horizontal position of the fixing fixture; a ΐϋ: adjusting the position of the fixing fixture; The vertical position of the clamp; the angle. The observer determines the fixture corresponding to the impact device. She follows the following steps: The detection device includes: an object and an impact detecting device; the impact body 'the system has a branch and a base; ] 4 201105944 — impact device, which is pivotally connected to the support column; holding the miscellaneous device 'which is attached to the spine seat, the recording steering device, the vertical moving device [2] step The object to be tested is fixed on the fixing fixture; a pre-ϊϊ χ χ χ 财 财 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻 翻Describe the details of the selected embodiment, , Tian, and the drawings, get a deep understanding.汗 [实^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The column 11 and the shaft dry μ surname impact device 2〇' are pivotally connected to the support column 11; a multi-clip and = temple set 3〇' is attached to the base 12 for adjusting a fixed "" Horizontal, vertical 'rotation and angular position. 30A. The impact test device 'the +' the multi-axis steering clamp device 37 has a horizontal moving device 3A to adjust and fix the fixing jig: a rotating device 33 for adjusting and fixing the fixing The clamp 37 □ +, a vertical moving device 30B is used to adjust and fix the fixed clamp jig 37. For example, the first embodiment of the impact detecting device of the present invention is a first embodiment of the present invention. Column 11 and a base 12; your J-Hui impact i 2 〇 棍 is attached to the pylon 11; the impact device 2 includes an impact element 24; the multi-axis steering clamp 30 is attached thereto On the base 12, it comprises: 5 201105944 = moving == ^ set the movement and the heart of the horizontal shifting area, the field p peach + Mizusaki is removed, and can be used on the vertical height #4__shirt 33, for Carry out the == 2== axis object spot, use

For the detailed assembly structure of the above-mentioned embodiment, reference may be made to the Fig. 1-8, wherein: the f support column 11 has a first pivot portion 111; the Wei strike device 2G has an extension arm. 22, and one of the extending arms 22 is connected to the first pivoting portion ill, so that the impact device 20 is pivoted about the first angle, and the impacting member 24 is disposed on the extending arm 22 ^ The other end; in practice, the impact device 20 has a second pivoting portion and a clamping portion 23 'the second pivoting portion 21 is pivotally connected to the first pivoting portion 11+ ^ making the impact device 2 〇 the first pivoting portion 111 as an axis

Swinging of the predetermined range, and the impacting member 24 is disposed on the clamping portion 23; of course, the impact device 20 may further include a load unit 25 (as shown in FIG. 2B) The load unit 25 is coupled to the impact device 2 to adjust the weight of the impact device 2 to change the impact force of the impact member 24. The horizontal moving device 30A is provided with an X-axis moving part 31, a Y-axis moving part 32, at least one first positioning part 313, at least one second positioning part 323 and a second pivoting part 322; the X-sleeve moving part 31 can be moved in an X-axis, the first positioning portion 313 is configured to fix the X-pumping moving portion 31 (as shown in the third figure), and the Y-axis moving portion 32 can be moved in a γ-axis direction. The second positioning portion 323 is for fixing the Y-axis moving portion 32 (as shown in the fourth figure); in practice, the base 12 has an X-axis obstruction portion 12i, and the X-axis moving portion 31. The system has a 201105944 an X-axis engaging portion 311 and a Y-axis engaging portion 312, and the γ-axis moving portion 32 has a Υ-axis engaging portion 321; the X-axis engaging portion 311 is slidably disposed at the X The X-axis moving portion 31 is movable in an X-axis direction on the axial rail portion 121, and the cymbal engaging portion 321 is slidably disposed on the γ-axis directional portion 312 to move the cymbal shaft The portion 32 can be moved in a gamma axial direction. In addition, the angle between the X-axis and the Υ-axis is not limited to 90 degrees, and may be greater than or less than 90 degrees. The rotating device 33 has a fourth pivoting portion 331 and at least one third positioning portion 332. The fourth framed portion 331 is pivotally connected to the third pivoting portion 322, so that the rotating device 33 can be Rotating on the horizontal moving device 30, and the third positioning portion 332 is for fixing the rotating device 33 (as shown in the fifth figure, the third positioning portion 332 is locked by the rotating device 33 and The rotating shaft portion 32 is in close contact with each other, so that the rotating device 33 cannot be rotated. In addition, the rotating device 33 further includes a scale portion 333, a scale viewing portion 334 and an upper assembly tray 335. The scale display on the scale portion 333 is observed by the scale viewing portion 334, and the angle of rotation of the rotating device 33 is further known. The vertical moving device 30 includes a frame portion 34, a shaft moving portion 35 and at least a fourth positioning portion 352; the frame portion 34 is fixed to the rotating device 33 (such as the sixth, sixth, and sixth As shown in the seventh figure, the frame portion 34 is fixed to the rotating device 33 so that the vertical moving device 30B can rotate with the rotating device 33, and the Z-axis moving portion 35 can be moved in a Z-axis direction. The fourth positioning portion 352 is for fixing the cymbal moving portion 35. In practice, the frame portion 34 has a Z-axis traversing portion 341 having a Z-axis engaging portion 351. 'The Z-axis fitting portion 351 is slidably disposed on the Z-axis rail portion 341' to move the cymbal moving portion 35 in a Z-axis direction (as shown in FIGS. 8A and 8B) . The angle adjusting device 36 is disposed on the Z-axis moving portion 35. The angle adjusting portion 36 has a pivoting portion 361, a platform portion 363 and at least a fifth positioning portion 364. The pivoting portion 361 is used for the pivoting portion 361. The inclination angle of the platform portion 363 is changed, and the platform portion 363 is fixed by the fifth positioning portion 364; and the fixing fixture 37 201105944 can be combined and fixed with the platform portion 363. In practice, there are also a 1-sliding groove portion 362 and a plurality of fixing portions 365, and the g ^ is in the pivoting portion 361, and the sliding shaft is disposed on the four portions 363, and the rotating portion 361 is the axis. The change of the angle of the "groove 3" is used; the fifth positioning portion 364 is used to fix the !65/^ - ^. The pivoting portion 361 is the axis, and the angle of the sliding groove is changed by 3 degrees 01 ^ The platform portion 363 is tilted by the first predetermined angle and the angle is detected, and the impact detecting device of the right invention is further provided with a control device 40, and is a device for the interface 41 and an electronic driving device 42. For the user to read the impact data, the electronic driving device 4 is used to drive the impact device 2 and the multi-axis steering device 3, and the invention can be seen as the above-mentioned embodiment. The device 30A, the device is removed, the rotating device 33, and the vertical device are required to be long-term devices 36. The connection between them is not secret, and the combination of the changes can be made according to the actual situation, and the effect and purpose are unchanged. As shown, the present invention further includes an impact detection method, which is a package shock preparation - the object to be tested 7G and - The second body 10' has a branching 11 and a base 12; 2 is a two-way steering device 30, which is attached to the base 12, and includes: a flat moving device 3〇a for moving and positioning the horizontal position; 33, pivoted on the horizontal moving device 3GA, which can be rotated by the mobile device and fixed at a predetermined angle; a vertical moving device 3 〇B, disposed on the rotating device 33 for performing the adjustment and positioning of the vertical height of 201105944; at one angle, the system has a fixed cooling device 37; the angle adjusting device 36 is disposed on the surface straightening operation ±, _ The tilting angle is adjusted and positioned, and the fixed dislocation 37 is turned over to fix the object to be tested 7〇; the fixed dislocation 37 is attached to the angle adjusting device to fix an object to be tested 7〇. [2] Step 2: 52: Fix the object to be tested % to the clamp and 37; [3] Step multi-axis steering and holding device 30 adjusts the object to be measured 7〇 to - pre-squeeze and stand up; After the object to be tested is fixed to the fixing clip 37, the multi-axis steering clamp can be used to move axially. , axial movement, Ζ axial j, horizontal rotation and angle adjustment, and the portion of the object to be tested 70 to be impacted is adjusted to the travel of the impact element 24; [4] Step (5) 54: Use the impact襄2 fixed impact position 1 断 _. ^ ^ μ Ϊ Λ Λ Λ Λ B B B ' ' 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 待 待 待 待 待 待 欲 欲 欲 欲 欲 欲 欲 欲 欲 欲 欲Movement, the z-axis mobility adjustment, the traveling track 241 of the first position 24 of the object to be tested 70, so that the punch (four) wire two, 芏, 1 engine component 24, the impact As shown in Fig. 12, the impact element 24 is squatted, and the first position of the object to be tested 7 is shifted by a third position. The impact element 24 is shot as an explicit element or a cone = ί As shown in the thirteenth figure, the sharp element is an axe surface; as in the fourth drawing, the tapered element is -_ object. Υ , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The housing is fixed by locking or clamping, and the fixing jig 37 is fixed to the fixing portion 365. In more detail, the impact test of the general product cannot accurately perform the numerical display and analysis of the product's different positions because of the most accurate accommodativeness of the product, and the multi-axis device 30 is utilized by the present invention. The X-axis movement, the γ-axis movement, the z-axis movement, the water-direction rotation, and the angle adjustment can be applied to different positions on the product to achieve more accurate impact analysis (any shape can be Impact). Of course, the conventional drop test, because of the inability to accurately measure the palm = test = also = reliable, before the completion of the w, the test can not enter the impact of the impact 'in the detection is less convenient; and the present invention can be σ to carry out different positions The test, and then know that each position can be able to bear the second = test = New, and in the production of pure slave silk, tree day on the test (can be tested in each assembly process), in the inspection of a mobile phone product The test structure, especially the shell structure, passes the "rear cover", and the conventional drop measurement "after" and the mobile phone product assembly is completed, can be carried out === y alone riding each flight Wei Lai , the shot 1' instant to achieve the evaluation of the component. In the case of the bearing & weighing, the ===== knot, for the numerical value display, the standard of 5 "Hr of the technology; for example, the conventional: Γ; the position of the unqualified. As described above, the advantages and effects of the present invention are summarized as follows: π] can be directly carried out by the product. The impact of the technology is 201105944. The material is cut to a predetermined size. Impact, in the movement and angle adjustment for different products, can save time and become more convenient. Before the installation, the product parts can be accurately tested on the product. The impact resistance can be measured after the completion of the different single parts. Therefore, the position of each object can only be determined by pass or fail. The value after the test. The present invention may be described in detail by means of the preferred embodiment of the present invention. Any simple modifications and variations of the present invention may be made without departing from the detailed description of the present invention. This technical expert is eye-catching. [The diagram is simple to say ^] The provisions of the patent law, the invention patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 2 is a schematic exploded view of the multi-axis steering clamping device of the present invention: an exploded view of the body and the impact device of the moon. The schematic diagram of the γ-axis movement of the present invention is a schematic diagram of the γ-axis moving part of the ί ^. The schematic diagram of the horizontal rotation process of the γ-axis is shown in the schematic diagram of the horizontal rotation process of the present invention. The twenty-seventh diagram is a schematic diagram of the horizontal ship of the present invention. ^^八Α图 The schematic diagram of the axial movement of the present invention is a side view of the axial movement of the present invention. The ninth diagram is the angle of the present invention. Adjustment diagram of one S] 201105944

The ninth B diagram is the sound adjustment diagram of the angle adjustment of the present invention. The tenth diagram is the diagram of the impact detection method of the present invention. The second diagram is the schematic diagram of the impact position adjustment of the present invention, and the eleventh diagram is the impact diagram of the present invention. The tenth f diagram is a schematic diagram of the impact process of the present invention. The thirteenth diagram is the intention of the impact element of the present invention, and the fourteenth diagram is the impact element of the present invention. The sound diagram of the object ^10', the diagram is a schematic diagram of the impact test of the prior art, [main description of the symbol] 10 body 111 first pivoting portion 121 X axial track portion 21 second drag portion 23 clip Holding portion 25 load unit 30 Α horizontal movement 31 31 X-axis moving portion 312 Υ axial track portion 32 Υ axis moving portion 322 third pivoting portion 33 rotating device 332 third positioning portion 334 scale observation portion 34 frame portion 35 Ζ axis Moving portion 352 苐 four positioning portion 361 pivoting portion 363 platform portion 363 Α rotating shaft 11 supporting column 12 base 20 impact device 22 extending arm 24 impacting member 30 multi-axis steering clamping device 30 Β vertical moving device 31 IX shaft engaging portion 313 first Positioning portion 321 配合 shaft fitting portion 323 The second positioning portion 331, the fourth pivoting portion 333, the scale portion 335, the assembly disk 341, the axial direction portion 351, the shaft engagement portion 36, the angle adjustment device 362, the sliding groove portion 364, the fifth positioning portion 363, the sliding axis f S1 12 201105944 365 fixing portion 40 control device 42 electronic driving device 52 step two 54 step four P1 first position P3 third position 91 test piece H1 first height 37 fixing jig 41 electronic operation interface 51 step one 53 step three 01 first predetermined angle P2 Second position 90 pendulum P11 lowest point position H2 second height

[S] 13

Claims (1)

201105944 VII. Patent application scope: 1 · An impact detection device, comprising: a / body 'the system, has a - branch # column and - base; an impact device, the rest of the JUT column; on the steering base 'and Multi-axis 2. As described in the first paragraph of the patent application scope, "striking detection: ί夹ί中. The impact 妓 system includes - impact element locating position". ίϊ33ί side of the horizontal position of the crane and positioning; Ίίΐϊϊί horizontally moving the device, and the water height system is disposed on the rotating device for performing vertical line=25=on the vertical moving device, and the measuring fixture is disposed on the angle adjusting device The impact detecting device according to the item 2, wherein: the '^ branch> has a first pivoting portion; the v, the β-impact I has an extension arm, And the connection to the first pivotal portion, the impact, the pivot, the portion; the X-axis moving portion can be used as the axial movement of the shaft, the γ-axis moving portion Used to fix the γ-axis moving portion; the shaft and the impact element Another ^ is lang to:; L, at least - the second positioning portion and the upper rotation of the rotation of the fixing device, and the third positioning portion is - ϊ ί 3 包括 包括 包括 包括 包括a 2-axis moving portion and at least (four) plus two, the s-heling portion is fixed to the rotating device, and the z-le moving portion can be used to fix the movement of the moving portion (4), and the fine The positioning portion is configured to be disposed on the cymbal moving portion, and the angle adjustment, the swaying portion, the platform portion, and the slanting angle of the platform portion are changed by the fifth predetermined # ϊ! ί There is a hung-turning portion, - "five positioning portion = fixed flat (10) again: the solid: ΐ and; = 4 * ^ 5 The impact detecting device according to item 2, wherein the = one scale portion, one scale view The viewing portion and the upper assembly portion are used for the user to observe the scale on the scale portion, thereby observing the rotation angle of the rotating device. 6. The impact detecting device of claim 4, further comprising a control device having an electronic operation interface and an electrical f drive device for the user The impact data is read and the electronic drive wire is placed on the side to drive the impact shaft to the clamping device. 7. The impact detecting device of claim 2, wherein the impact element is one of a sharp element and a tapered element; the sharp element is an axe, and the tapered element It is a cone. 8 . The impact detection method comprises the following steps: [1] Step 1· Preparing an object to be tested and an impact detecting device; wherein the impact detecting device comprises: a body having a support column and a base; an impact device pivotally connected to the support column; s] 15 to the clamping device, which is mounted on the base, the multi-axis vertical movement device L a horizontal moving device a rotating device, a [2] step 2 and 2 angle adjusting device and a fixing fixture; [3] Step 3: ^ The object to be tested is fixed on the fixing fixture; to a predetermined impact position] the multi-axis steering clamp Holding the device to adjust the position of the object to be tested, and performing the impact detection method according to the predetermined impact item of the object to be tested, wherein: the ^ h衮 system comprises an impact element; Moving and positioning; the horizontal moving device is horizontally moved, and the water leveling device is disposed on the rotating device for performing a vertical device mounted on the vertical moving device for adjusting the tilt angle and Position; adjustment back 'line clamp piece goods "in ④ Xiao of the device for fixing the object to be measured. The impact detecting method according to claim 8, wherein the impact device is capable of performing a predetermined angular range swing-axis.