CN214096441U - Collision impact acting force and acting time measuring device - Google Patents
Collision impact acting force and acting time measuring device Download PDFInfo
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- CN214096441U CN214096441U CN202022832967.XU CN202022832967U CN214096441U CN 214096441 U CN214096441 U CN 214096441U CN 202022832967 U CN202022832967 U CN 202022832967U CN 214096441 U CN214096441 U CN 214096441U
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Abstract
The utility model discloses a collision impact acting force and acting time measuring device, which comprises a balance table, a balance table bracket, a hanging weight, a vertical line and a collision block; the right side of the balance table is provided with a vertical through hole, and the left side of the balance table is provided with a hanging screw hole; suspension screw rods are distributed on the suspension screw holes; a supporting shaft is arranged at the upper part of the balance table bracket; the device also comprises a wire switch device and an oscilloscope, wherein the top of the wire switch device is provided with two exposed wire ends; the hanging weights are made of conductive materials and can be movably distributed on the exposed wire ends; the two exposed wire ends are connected with the power supply-resistance module and the oscilloscope, and the hanging weights are communicated with the two exposed wire ends to form a loop. Adopt the utility model has the advantages of detect accurate, convenient, excellent in use effect.
Description
Technical Field
The utility model relates to an automobile test technical field, concretely relates to collision impact force and action time measuring device.
Background
When the automobile runs on a road at a high speed and tires collide with pits, bosses, stones, steps and the like on the road, an instant impact acting force is generated on relevant parts on an engine, such as a machine body, a cylinder cover, a piston and the like. The parts moving at high speed in the engine, such as a valve chain mechanism, a camshaft, a crankshaft and the like, can also generate instantaneous impact acting force in the moving process. The action time of the part on the automobile and the engine is subjected to the instant impact action force and the action time thereof is very short (the actually measured rigid collision action time is about a few milliseconds), so that the measurement and the research are difficult. In practical engineering application, a rocker arm shaft bolt of a four-valve engine often breaks and fails, and analysis shows that overlarge impact force is one of the main reasons. The rocker shaft bolt is used for fixing the rocker shaft, the rocker shaft is a cylindrical shaft, the two sides of the rocker shaft are provided with rocker arms, the middle of the rocker shaft bolt is fastened by the rocker arm shaft bolt, and the rocker arms can swing by taking the axis of the rocker shaft as the center. The front end of the rocker arm is contacted with the valve bridge, and the valve bridge is contacted with the valve; the rear end of the rocker arm is in contact with the push rod, the push rod is in contact with the tappet, the tappet is in contact with the cam shaft bump and is driven by the cam shaft bump, and when the engine works, particularly works at a high rotating speed, the front end of the rocker arm is driven by the cam shaft bump to collide with the valve bridge and the rear end of the rocker arm is in high-speed collision with the push rod, so that collision impact acting force is generated.
Research shows that the combustion impact action stress can be amplified and propagated along a valve in the form of stress waves and can be emitted after reaching a valve bridge, and the valve bridge can be bounced with certain momentum to collide with a rocker arm and generate acting force under certain conditions. When the automobile passes through an uneven road surface (a road surface with pits, bosses, large stones and the like) at high speed, the generated collision impact can be transmitted to an engine valve chain, so that the front end of the rocker arm collides with a valve bridge and a valve or the rear end of the rocker arm collides with a push rod and a tappet violently, and therefore large impact acting force can be generated. The impact acting force generated in the above condition can be superposed under a certain condition, so that the rocker shaft supporting the rocker arm is stressed too much, and finally the bolt of the rocker shaft is broken. The size and the action time of the impact force of the collision can be tested by a special mechanical vibration test bed in the prior art, but various high-precision devices are required, such as an impact loading device, a high strain rate dynamic strain measuring device, a displacement measuring device, a photoelectric speed measuring device, a matched data acquisition and analysis device and the like.
SUMMERY OF THE UTILITY MODEL
The utility model provides a to above-mentioned technical problem provide a collision impact effort and action time measuring device and method after receiving the impact to the engine rocking arm.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a collision impact acting force and acting time measuring device comprises a balance table, a balance table bracket, a hanging weight, a vertical line and a collision block; the right side of the balance table is provided with a vertical through hole, and the left side of the balance table is provided with a hanging screw hole; suspension screw rods are distributed on the suspension screw holes; a supporting shaft is arranged at the upper part of the balance table bracket; the lower plate surface of the balance table is provided with a plurality of strip-shaped grooves corresponding to the support shaft; the balance tables can be movably distributed on the supporting shaft through the strip-shaped grooves; the hanging weights are detachably combined at the lower end of the hanging screw rod through screw rod grooves; the upper end of the vertical line is fixed on a building and distributed through the vertical through hole; the lower end of the vertical line is in a straightening state by hanging a heavy object or connecting a floor; the middle part of the collision block is provided with a vertical line through hole, and the collision block penetrates through the vertical line and is distributed above the balance table;
the device also comprises a wire switch device and an oscilloscope, wherein the top of the wire switch device is provided with two exposed wire ends; the hanging weights are made of conductive materials and can be movably distributed on the exposed wire ends; the two exposed wire ends are connected with the power supply-resistance module and the oscilloscope, and the hanging weights are communicated with the two exposed wire ends to form a loop.
Furthermore, the collision block device also comprises vertical graduated scales, wherein the vertical graduated scales are correspondingly distributed on one side of the collision block, and alignment marked lines are arranged on the collision block.
Further, still include the plummet, the plummet hangs in the lower extreme of perpendicular line.
Furthermore, the right side of the balance table is also provided with a collision table, the middle part of the collision table corresponds to the vertical through hole, is provided with a through hole and is correspondingly combined above the vertical through hole.
Further, the material of the balance table is the same as that of the engine rocker arm to be researched.
Further, the structure of the collision table is the same as the shape of the collision part of the engine rocker arm to be researched, namely the front end or the rear end of the engine rocker arm.
The utility model has the advantages of compared with the prior art: the device of the utility model is simple in structure, design benefit adopts plummet and plumb line to lead and realize that elasticity is spacing, combines balance platform support and oscilloscope and adjustable weight switch module, can reach the beneficial effect that detects accuracy, quick, low cost.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Detailed Description
As shown in figure 1, a collision impact force and action time measuring device comprises a balance table 4, a balance table bracket 1, a hanging weight 18, a vertical line 9 and a collision block 12; the right side of the balance table 4 is provided with a vertical through hole 7, and the left side of the balance table is provided with a hanging screw hole 4-1; suspension screw rods 14 are distributed on the suspension screw holes; certainly, the vertical through hole 7 is a small hole formed, mainly to prevent the inclination of the balance table 4 from being too large after being impacted, the hole diameter of the vertical through hole is formed to match the diameter of the vertical line 9, and the vertical through hole cannot be too small as long as the hanging weight 18 is not interfered to just bounce off the two exposed wire ends 17, so that the hanging weight 18 is not interfered to just bounce off the two exposed wire ends 17, and the oscilloscope 19 is ensured not to be interfered to accurately receive disconnected current signals. The upper part of the balance table bracket 1 is provided with a support shaft 3, the embodiment is mainly provided with a front vertical support arm 2 and a rear vertical support arm 2, and then the support shaft 3 is combined between the two support arms 2; the lower plate surface of the balance table 4 is provided with a plurality of strip-shaped grooves 5 corresponding to the support shaft 3, and the strip-shaped grooves are used for selecting different support points to obtain the required left-right proportion during testing; the balance tables 4 can be movably distributed on the supporting shaft 3 through the strip-shaped grooves 5; the hanging weights 18 are detachably combined at the lower end of the hanging screw 14 through screw grooves 15, the hanging weights 18 are made of conductive materials, and the heights of the hanging weights 18 with the same series and different qualities are generally consistent; the upper end of the vertical line 9 is fixed on a building and distributed through the vertical through hole; the lower extreme of plumb line 9 is the state of flare-outing through hanging the heavy object or connecting the floor, and this embodiment is through being equipped with plumb bob 8, plumb bob 8 hangs the lower extreme of plumb line adopts and hangs the 8 modes of plumb bob, can effectively improve the security, prevents the excessive contact wear of plumb line 9 and vertical through-hole 7 inner chamber that the collision process probably appears. A vertical line through hole 13 is formed in the middle of the collision block and penetrates through the vertical line to be distributed above the balance table; the device also comprises a lead switch device 16 and an oscilloscope 19, wherein the top of the lead switch device is provided with two exposed lead ends 17; and the wire can be movably distributed on the exposed wire end; the two exposed wire ends are connected with the power supply-resistance module and the oscilloscope, and the hanging weights are communicated with the two exposed wire ends to form a loop. The collision block structure further comprises a vertical graduated scale 11, the vertical graduated scale 11 is correspondingly distributed on one side of the collision block, and an alignment marking line 10 is arranged on the collision block 12.
The right side of balancing stand still is equipped with collision platform 6, 6 middle parts of collision platform correspond vertical through-hole has seted up the through-hole, and corresponds the combination and be in vertical through-hole's top, this embodiment collision platform 6 can with balancing stand 4 integrated into one piece preparation or detachable assembly.
Further, the material of the balance table is the same as that of the engine rocker arm to be researched.
Further, the structure of the collision table is the same as the shape of the collision part of the engine rocker arm to be researched, namely the front end or the rear end of the engine rocker arm.
The method for testing by adopting the device for measuring the impact acting force and the acting time comprises the following steps:
(1) selecting a balance table with a corresponding model according to the model of an engine rocker arm to be researched, and enabling the distance between the center of the vertical through hole and the center of the suspension screw hole to be the same as the distance between the front end collision center and the rear end collision center of the engine rocker arm to be researched;
(2) selecting the collision block made of the same material and the same mass according to the research objects, namely an engine valve bridge and a valve or a push rod and a tappet;
(3) correspondingly adjusting the support shafts to be distributed on the corresponding strip-shaped grooves according to the left-right proportion of a rocker shaft for supporting the rocker arm of the engine to be researched, so that the left-right proportion of the balance table corresponds to the proportion;
(4) after the measuring device is installed as required, when the collision block does not act on the balance table, the balance table is in a horizontal state, and the bottom of the suspended weight is in contact with the two exposed wire ends, so that the oscilloscope is ensured to display normally;
(5) assuming that the front end of the object to be investigated is collided by a part with mass m and velocity v, a collision mass with mass m is selected and set to be at height H-v from the collision table2The position of 2g vertically falls along the vertical line, and the speed is just v when the collision block collides with the collision table according to a free fall formula;
(6) observing the waveform of the oscilloscope circuit, if the oscilloscope displays that the current waveform is not disconnected, the weight is overweight, the hanging weight with the same height and lighter weight is needed to be used for re-measurement, and the hanging weight with the current just disconnected is marked as a standard hanging weight after collision is found;
if the oscilloscope displays that the current waveform is disconnected, the fact that the hanging weight which is possibly selected is too light is indicated, the hanging weight which is slightly heavier and has the same height needs to be used for re-measurement, the hanging weight which is not disconnected in current is marked as the hanging weight to be determined after the collision is found, then the hanging weight which is slightly heavier than the hanging weight to be determined is used for re-measurement, and the hanging weight which is just disconnected in current after the collision is found is marked as the standard hanging weight;
(7) recording the mass M of the standard suspended weight which can just cut off the current after collision, and considering that the standard suspended weight needs to be researchedAfter one end of the image is impacted, the equivalent acting force generated at the other end is F1=Mg;
(8) The distance from the center of the suspended weight to the pivot of the balance table is set as L1The distance from the center of the collision table to the fulcrum of the balance table is L2(ii) a Let F be the equivalent acting force of the collision table after collision impact2According to the lever principle, F1L1=F2L2I.e. F2=F1L1/L2=Mg L1/L2(ii) a Resultant force F ═ F received by fulcrum1+F2=Mg+Mg L1/L2The resultant force is the equivalent acting force of the fastening bolt of the object to be researched after the part with mass m and speed v collides and impacts;
(9) the rigid collision can be regarded as momentum conservation, the collision block freely falls from the position with the height H, rebounds to the height H after colliding with the collision table, the height H is observed and recorded through the vertical graduated scale or is shot and recorded by a high-speed camera and is compared with the vertical graduated scale for measurement, and then the velocity v of the collision block during rebounding is measuredInverse direction=(2gh)1/2And if the action time of the collision between the collision block and the collision table is t, according to the law of conservation of momentum: mv-mvInverse direction=F2t, available time of collision t ═ m (v-v)Inverse direction)/F2=m((2gH)1/2-(2gh)1/2)/(Mg L1/L2)。
Claims (6)
1. The utility model provides a collision impact effort and time of action measuring device which characterized in that: the device comprises a balance table, a balance table bracket, a hanging weight, a vertical line and a collision block; the right side of the balance table is provided with a vertical through hole, and the left side of the balance table is provided with a hanging screw hole; suspension screw rods are distributed on the suspension screw holes; a supporting shaft is arranged at the upper part of the balance table bracket; the lower plate surface of the balance table is provided with a plurality of strip-shaped grooves corresponding to the support shaft; the balance tables can be movably distributed on the supporting shaft through the strip-shaped grooves; the hanging weights are detachably combined at the lower end of the hanging screw rod through screw rod grooves; the upper end of the vertical line is fixed on a building and distributed through the vertical through hole; the lower end of the vertical line is in a straightening state by hanging a heavy object or connecting a floor; the middle part of the collision block is provided with a vertical line through hole, and the collision block penetrates through the vertical line and is distributed above the balance table;
the device also comprises a wire switch device and an oscilloscope, wherein the top of the wire switch device is provided with two exposed wire ends; the hanging weights are made of conductive materials and can be movably distributed on the exposed wire ends; the two exposed wire ends are connected with the power supply-resistance module and the oscilloscope, and the hanging weights are communicated with the two exposed wire ends to form a loop.
2. The apparatus as claimed in claim 1, wherein the impact force and action time measuring device comprises: the collision block is characterized by further comprising vertical graduated scales, wherein the vertical graduated scales are correspondingly distributed on one side of the collision block, and alignment marked lines are arranged on the collision block.
3. The apparatus as claimed in claim 1, wherein the impact force and action time measuring device comprises: still include the plummet, the plummet hangs the lower extreme of plumb line.
4. The apparatus as claimed in claim 1, wherein the impact force and action time measuring device comprises: the right side of the balance table is also provided with a collision table, the middle part of the collision table corresponds to the vertical through hole and is provided with a through hole, and the collision table is correspondingly combined above the vertical through hole.
5. The apparatus as claimed in claim 1, wherein the impact force and action time measuring device comprises: the balance table is made of the same material as that of the engine rocker arm to be researched.
6. The apparatus as claimed in claim 4, wherein the impact force and action time measuring device comprises: the collision platform has the same structure as the collision part of the engine rocker arm to be researched, namely the front end or the rear end of the engine rocker arm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022832967.XU CN214096441U (en) | 2020-11-30 | 2020-11-30 | Collision impact acting force and acting time measuring device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202022832967.XU CN214096441U (en) | 2020-11-30 | 2020-11-30 | Collision impact acting force and acting time measuring device |
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| Publication Number | Publication Date |
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| CN214096441U true CN214096441U (en) | 2021-08-31 |
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| CN202022832967.XU Active CN214096441U (en) | 2020-11-30 | 2020-11-30 | Collision impact acting force and acting time measuring device |
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| CN (1) | CN214096441U (en) |
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- 2020-11-30 CN CN202022832967.XU patent/CN214096441U/en active Active
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