CN208671904U - A kind of tool structure of hollow stabilizing rod cubing and a kind of hollow stabilizing rod cubing - Google Patents

Abstract

Need test of many times that can adjust bending machine to solve the prior art, to produce standard compliant hollow stabilizing rod, elapsed time is long and needs to waste more tubing problem, the utility model provide a kind of hollow stabilizing rod cubing tool structure and a kind of hollow stabilizing rod cubing, including the first measuring block, first measuring block is equipped with standard cell, it is characterized by: first measuring block is additionally provided with the open slot to intersect vertically with standard cell, the second measuring block is provided in the open slot, second measuring block is equipped with the U-lag for placing hollow stabilizing rod and gasket, the width of the U-lag is greater than standard groove width.The utility model is provided with the U-lag for being exclusively used in debugging, and the amount of bow of hollow stabilizing rod is adjusted by increasing and decreasing gasket on U-lag, to in the anti-deformation for showing that bending machine should compensate hollow stabilizing rod, it is tested without wasting a large amount of tubing, also saves multiple pilot production tubing and time for consuming while saving tubing.

Description

A kind of tool structure of hollow stabilizing rod cubing and a kind of hollow stabilizing rod cubing

Technical field

The utility model relates to the hollow stabilizing rod production field of automobile, especially a kind of tooling of hollow stabilizing rod cubing Structure and a kind of hollow stabilizing rod cubing.

Background technique

Hollow stabilizing rod is a kind of conventional components in automobile manufacturing field, and production hollow stabilizing rod needs will be hollow steady Fixed pole is handled by bending machine, then by the process of quenching and tempering；Since hollow stabilizing rod have passed through quenching and cooling etc. Process can generate certain deflection (mainly amount of bow or bending angle produces relatively large deviation) later, thus needs pair The size of hollow stabilizing rod is detected after cooling, complies with geomery required by drawing.Currently, existing cubing knot Structure is as shown in Figure 1, cubing is equipped with several tool structures as shown in Figure 2, and the detection block on tool structure is in different positions Several have the standard cell for whether meeting tolerance for corresponding the detection multiple location points of hollow stabilizing rod for upper setting, if hollow Each location point of stabiliser bar meets tolerance value, then it is assumed that hollow stabilizing rod meets the geomery requirement of drawing.It is hollow steady Fixed pole has a straight pipe as standard paragraphs, and processing step of today clamps standard paragraphs, then by the bending of hollow stabilizing rod Section attempt be put into standard cell, if which location point fails to be put into standard cell, estimated by way of range estimation departure (or partially Poor direction), the reversible deformation equal with described departure (or bias direction) is then supplemented for the location point on bending machine Amount, anti-deformation is added on a new hollow stabilizing rod, by the hollow stabilizing rod supplemented with the anti-deformation Bending section trial is put into standard cell, then detects again, and repetition above step can be put into standard cell until the location point, right Other location points that can not be put into standard cell are also similarly operated, until all location points can be put into standard cell, and Bending machine has accumulated the data of test of many times above at this time, it has been determined that for each position of quenched hollow stabilizing rod The anti-deformation of point, so to the anti-deformation that hollow stabilizing rod compensation is described in bend pipe process, so that quenched hollow Stabiliser bar can comply with standard the tolerance of slot, and geomery meets drawing requirement.

Drawback of the prior art is that due to judging to be bent departure (or bias direction) by way of range estimation, and The difficulty of range estimation bending departure too it is big thus need multiple test that can obtain correct anti-deformation, so as to adjust good Bending machine simultaneously produces the hollow stabilizing rod for meeting tolerance standard, while the process needs veteran worker operation, consumption Time is very long and needs to waste many tubing for testing.

Utility model content

For overcome the deficiencies in the prior art, the utility model is directed to a kind of tool structure of hollow stabilizing rod cubing And a kind of hollow stabilizing rod cubing, can quickly measure above-mentioned anti-deformation with and reduce debugging number.

A kind of tool structure of hollow stabilizing rod cubing, including the first measuring block, first measuring block are equipped with standard Slot, first measuring block are additionally provided with the open slot to intersect vertically with standard cell, the second measuring block are provided in the open slot, Second measuring block is equipped with the U-lag for placing hollow stabilizing rod and gasket, and the width of the U-lag is not less than standard Groove width.

Further, the gasket is provided with the recess that can accommodate screw end, and gasket is installed on U-shaped by flat head screw Slot.

Further, the both ends of second measuring block are respectively provided with mounting hole, and first measuring block is provided with and pacifies Fill the corresponding through hole in hole site, the mounting hole at second measuring block both ends is equipped with for the second measuring block to be installed to the The locating shaft of one measuring block.

Further, the locating shaft is detachably inserted into the through hole and mounting hole.

Further, first measuring block bottom is provided with connecting pin, is provided with screw hole on the connecting pin.

Further, second measuring block is in concave shape.

Further, the gasket is set to the slot bottom and side cell wall of the U-lag.

Further, the gasket is set to the slot bottom and two sides cell wall of the U-lag.

A kind of hollow stabilizing rod cubing, including above-mentioned tool structure.

When debugging, the standard paragraphs of hollow stabilizing rod are clamped, attempt for the bending section of quenched hollow stabilizing rod to be put into this In the standard cell of tool structure, if there are certain location points not to meet standard cell tolerance for hollow stabilizing rod, such as hollow steady Inclined outside the bending section of fixed pole, then by adding gasket in the cell wall on U-lag, it is hollow that gasket promotes hollow stabilizing rod to make The bending section of stabiliser bar is offset inward a certain amount of (being substantially equal to spacer thickness), until enabling the location point that can comply with standard slot Tolerance.To hollow stabilizing rod, each location point for not meeting standard cell tolerance carries out aforesaid operations, finally enables hollow All location points of stabiliser bar can comply with standard slot tolerance.The thickness of measurement gasket can then be passed through；Or it is each A gasket has specific thickness, anti-to determine by the way that the gasket overall thickness that U-lag is placed on each tool structure is calculated Deflection finally compensates the anti-deformation to hollow stabilizing rod on bending machine, and the hollow stabilizing rod produced is after quenching Also the tolerance of slot requirement can be complied with standard.

The U-lag that the utility model is provided with dedicated for debugging, and it is hollow to adjust by increasing and decreasing gasket on U-lag The amount of bow (bending direction can also be adjusted by a small margin) of stabiliser bar, thus showing that bending machine should compensate hollow stabilizing rod Anti-deformation, tested without wasting a large amount of tubing, also save multiple pilot production tubing while saving tubing and The time of consumption.

Detailed description of the invention

Fig. 1 is the overall schematic of prior art cubing；

Fig. 2 is the overall schematic of the tool structure of prior art cubing；

Fig. 3 is that the tool structure of the utility model is in the schematic diagram of debugging mode；

Fig. 4 is that the tool structure of the utility model is in the schematic diagram of detecting state；

In figure: 1, tool structure；10, standard cell；20, the second measuring block；21, gasket；22, flat head screw；30, it positions Axis.

Specific embodiment

In the following, being described further in conjunction with attached drawing and specific embodiment to the utility model, it should be noted that Under the premise of not colliding, it can be formed in any combination between various embodiments described below or between each technical characteristic new Embodiment.

It please refers to shown in Fig. 1-4, a kind of tool structure of hollow stabilizing rod cubing, including the first measuring block, described first Measuring block is equipped with standard cell 10, and first measuring block is additionally provided with the open slot to intersect vertically with standard cell 10, the opening The second measuring block 20 is provided in slot, second measuring block 20 is equipped with the U-shaped for placing hollow stabilizing rod and gasket 21 The width of slot, the U-lag is not less than 10 width of standard cell.

As shown in figure 3, tool structure 1 is in debugging mode, the standard paragraphs of hollow stabilizing rod are clamped, it will be quenched hollow The bending section of stabiliser bar is put into the standard cell 10 of this tool structure 1, if there are certain location points not to meet mark for hollow stabilizing rod Quasi- 10 tolerance of slot, for example, outside the bending section of hollow stabilizing rod it is inclined, then by adding gasket in the cell wall on U-lag 21, gasket 21, which pushes hollow stabilizing rod the bending section of hollow stabilizing rod is offset inward, a certain amount of (is substantially equal to gasket 21 Thickness), until enabling the location point that can comply with standard the tolerance of slot 10.To hollow stabilizing rod, each does not meet standard cell The location point of 10 tolerances all carries out aforesaid operations, finally enables all location points of hollow stabilizing rod that can comply with standard slot 10 Tolerance.The thickness of measurement gasket 21 can then be passed through；Or each gasket 21 has specific thickness, passes through meter Calculate 21 overall thickness of gasket for showing that U-lag on each tool structure 1 is placed, to determine anti-deformation, finally on bending machine to Hollow stabilizing rod compensates the anti-deformation, and the hollow stabilizing rod produced can also comply with standard the public affairs of the requirement of slot 10 after quenching Difference.

It should be noted that the hollow stabilizing rod of standard cell 10 can be put into originally but not if U-lag width is less than 10 width of standard cell One surely puts U-lag into, is that U-lag its tolerance before gasket 21 is not added can be put than the tolerance requirements at the higher level of standard cell 10 Standard cell 10 can be put into U-lag, also just lose the meaning adjusted with gasket 21.

The U-lag that the utility model is provided with dedicated for debugging, and sky is adjusted by increasing and decreasing gasket 21 on U-lag The amount of bow (bending direction can also be adjusted by a small margin) of heart stabiliser bar, thus showing that bending machine should mend hollow stabilizing rod The anti-deformation repaid is tested without wasting a large amount of tubing, also saves multiple pilot production tubing while saving tubing And the time consumed.

Further, the gasket 21 is provided with the recess that can accommodate screw end, and gasket 21 is pacified by flat head screw 22 Loaded on U-lag.It should be noted that and gasket 21 then can be the gasket 21 of nominal thickness.Each piece of gasket 21 all has determining thickness Degree, measures, it is only necessary to make simple meter according to the standard thickness of the quantity of gasket 21 and every piece of gasket 21 without subsequent Calculation can calculate compensation rate is how many, simplify operational sequence, save the time and avoid each artificial measurement error, improve essence Accuracy.It is noted that gasket 21 can also directly inlay card between hollow stabilizing rod and the gap of standard cell 10, substantially will not shadow Ring measuring accuracy.

Further, the both ends of second measuring block 20 are respectively provided with mounting hole, first measuring block be provided with The corresponding through hole of position of mounting hole, the mounting hole at 20 both ends of the second measuring block are equipped with for pacifying the second measuring block 20 It is attached to the locating shaft 30 of the first measuring block.The locating shaft 30 is detachably inserted into the through hole and mounting hole.Second surveys When gauge block 20 needs to rotate, one of locating shaft 30 is extracted, then the second measuring block 20 can be 30 turns around another locating shaft It is dynamic.It should be noted that locating shaft 30 can be screw, the slotting axis with positive stop end.Tool structure 1 is as shown in figure 4, tool structure at this time 1 is in measuring state, and the second measuring block 20 is rotated and leaves initial position, turns to the side of tool structure 1, and U-lag is de- From standard cell 10.The standard cell of tool structure 1 of the hollow stabilizing rod merging in measuring state produced after bending machine will be adjusted 10.In this way without dismantling gasket 21, operate more convenient.

Further, for the ease of installation, 1 bottom of tool structure is provided with connecting pin, is provided with screw hole on connecting pin.

Further, second measuring block 20 is in concave shape.

Further, gasket 21 is set to the slot bottom and side cell wall of standard cell 10U shape slot.So that this tool structure 1 Shape of product more can be easily adjusted from laterally and vertically amplifying or adding tight tolerance (compensation rate)；After being adjusted in place, enter Next process.

Further, gasket 21 is set to the slot bottom and two sides cell wall of standard cell 10U shape slot.So that this tool structure 1 From three direction amplifications or tight tolerance (compensation rate) can be added, more three-dimensionally adjust shape of product；After being adjusted in place, under One procedure.

A kind of hollow stabilizing rod cubing, including above-mentioned tool structure.

Above embodiment is only preferred embodiments of the present invention, cannot be protected with this to limit the utility model Range, the variation of any unsubstantiality that those skilled in the art is done on the basis of the utility model and replacement belong to In the utility model range claimed.

Claims (9)

1. a kind of tool structure of hollow stabilizing rod cubing, including the first measuring block, first measuring block is equipped with standard cell, It is characterized by: first measuring block is additionally provided with the open slot to intersect vertically with standard cell, is provided in the open slot Two measuring blocks, second measuring block are equipped with the U-lag for placing hollow stabilizing rod and gasket, the width of the U-lag Not less than standard groove width.

2. a kind of tool structure of hollow stabilizing rod cubing as described in claim 1, it is characterised in that: the gasket is provided with The recess of screw end can be accommodated, the gasket is installed on U-lag by flat head screw.

3. a kind of tool structure of hollow stabilizing rod cubing as described in claim 1, it is characterised in that: second measuring block Both ends be respectively provided with mounting hole, first measuring block is provided with through hole corresponding with position of mounting hole, and described second surveys The mounting hole at gauge block both ends is equipped with the locating shaft for the second measuring block to be installed to the first measuring block.

4. a kind of tool structure of hollow stabilizing rod cubing as claimed in claim 3, it is characterised in that: the locating shaft is removable It is plugged in the through hole and mounting hole with unloading.

5. a kind of tool structure of hollow stabilizing rod cubing as described in claim 1, it is characterised in that: first measuring block Bottom is provided with connecting pin, is provided with screw hole on the connecting pin.

6. a kind of tool structure of hollow stabilizing rod cubing as described in claim 1, it is characterised in that: second measuring block In concave shape.

7. a kind of tool structure of hollow stabilizing rod cubing as described in claim 1, it is characterised in that: the gasket is set to The slot bottom and side cell wall of the U-lag.

8. a kind of tool structure of hollow stabilizing rod cubing as described in claim 1, it is characterised in that: the gasket is set to The slot bottom and two sides cell wall of the U-lag.

9. a kind of hollow stabilizing rod cubing, it is characterised in that: including such as described in any item tool structures of claim 1-8.