CN208269813U - A kind of automotive seat torque arm cubing - Google Patents

Abstract

The utility model provides a kind of automotive seat torque arm cubing, it is related to automotive seat production detection instrument, including cubing ontology, the cubing ontology is equipped with the positioning column matched with big mounting hole and the detection column matched with small mounting hole, the detection column is slideably positioned in along the vertical direction on the cubing ontology, the detection block that can be in contact with the side wall of torque arm is additionally provided on the detection column, the detection block, which is rotated using the detection column as the center of circle, to be arranged.The utility model can detect the number of drawbacks of torque arm simultaneously, and structure is simple, easy to operate, and detection effect is good, high-efficient.

Description

A kind of automotive seat torque arm cubing

Technical field

The utility model relates to automotive seat production detection instruments, and in particular to a kind of automotive seat torque arm cubing.

Background technique

Modern automotive seat, it is necessary to meet adjustment convenience and comfort two requires greatly.That is driver passes through Adjust manipulation, seat can be adjusted on optimal position to obtain the best visual field, obtain being easy to manipulation direction disk, pedal, The convenience of the controls such as gear lever, the seating angle that the most comfortable can also be obtained and be most accustomed to.

The automotive seat important component that torque arm is that automotive seat adjusts convenience, as shown in Figure 1, automotive seat is used Torque arm generally comprises what the big end 1A being relatively large in diameter and offering on diameter lesser small end 1B, big end 1A was relatively large in diameter The lesser small mounting hole 2B of diameter is offered on big mounting hole 2A, small end 1B, big mounting hole 2A is coaxial with small mounting hole 2B's Degree will directly determine the final working effect of torque arm, directly affect the adjusting convenience of automotive seat, therefore need in production pair Automotive seat is detected with the concentricity of the big mounting hole 2A of torque arm and small mounting hole 2B, but currently without special gauge to its into Row detection, only relies on general tool and measures, error is larger, and low efficiency is unfavorable for industrial production.

Utility model content

In order to solve the above technical problems, the utility model provides a kind of automotive seat torque arm cubing, detection is accurate, effect Rate is high.

The utility model adopts the following technical solution:

A kind of automotive seat torque arm cubing, including cubing ontology, the cubing ontology is equipped with to match with big mounting hole The positioning column of conjunction and the detection column matched with small mounting hole, the detection column are slideably positioned in the cubing along the vertical direction On ontology, it is additionally provided with the detection block that can be in contact with the side wall of torque arm on the detection column, the detection block is with the detection Column is center of circle rotation setting.

Preferably, the cubing ontology is equipped with the cavity with the detection column coaxial arrangement, and the detection block rotates in In the cavity, the detection block is rotatably dispose on the detection column by connecting rod, and the detection block is along the detection column Radially slide and be set in the connecting rod, be also connected with elastic component between the detection block and the connecting rod.

Preferably, the displacement sensor being in contact with the detection block is additionally provided in the connecting rod.

Preferably, sliding chamber is coaxially provided on the cubing ontology with the cavity, the detection column is slideably positioned in described Cunning is intracavitary, and spring is additionally provided between the detection column and the intracavitary bottom of the cunning, and the upper end of the detection column is equipped with and small peace The hemisphere that dress hole matches.

Preferably, it is located on the cubing ontology at the positioning column and is additionally provided with amesdial, the measurement end of the amesdial It can be in contact with the side wall of torque arm.

Preferably, the amesdial is set on the cubing ontology along radially sliding for the positioning column.

Preferably, it is radially provided with sliding slot along the positioning column on the cubing ontology, along the length direction of the sliding slot Equipped with the screw rod rotated on the cubing ontology, the amesdial is equipped with the sliding block matched with the sliding slot, the cunning Block is connect with the screw flight, and the end of the screw rod is equipped with handle.

The utility model has the beneficial effects that the utility model can detect the number of drawbacks of torque arm simultaneously, structure is simple, behaviour Facilitate, detection effect is good, high-efficient.

Detailed description of the invention

Attached drawing is used to provide the preferred understanding to the utility model, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of automotive seat torque arm in background technique；

Fig. 2 is the overall structure diagram of the utility model；

Fig. 3 is the structural schematic diagram of the utility model detection block junction；

Fig. 4 is the sliding intracavitary structural schematic diagram of the utility model；

Fig. 5 is the structural schematic diagram of the utility model amesdial junction；

Fig. 6 is structural schematic diagram when the utility model detects torque arm.

In the figure, it is marked as 1, cubing ontology；2, positioning column；3, column is detected；4, detection block；5, cavity；6, connecting rod；7, bullet Property part；8, displacement sensor；9, sliding chamber；10, spring；11, hemisphere；12, amesdial；13, sliding slot；14, screw rod；15, sliding block； 16, handle；1A, big end；1B, small end；2A, big mounting hole；2B, small mounting hole.

Specific embodiment

Specific embodiment of the present utility model is described with reference to the accompanying drawing.

It as shown in Figures 1 to 6, is a kind of automotive seat torque arm cubing of the present embodiment, including cubing ontology 1, cubing Ontology 1 is equipped with the positioning column 2 matched with big mounting hole and the detection column 3 matched with small mounting hole, and detection column 3 is along perpendicular Histogram detects to being slideably positioned on cubing ontology 1 and is additionally provided with the detection block 4 that can be in contact with the side wall of torque arm on column 3, examine It is center of circle rotation setting that block 4, which is surveyed, to detect column 3.

Cubing ontology 1 is equipped with the cavity 5 being coaxially disposed with detection column 3, and detection block 4 rotates in cavity 5, detection block 4 It is rotatably dispose on detection column 3 by connecting rod 6, detection block 4 is set in connecting rod 6 along radially sliding for column 3 of detection, is detected Elastic component 7 is also connected between block 4 and connecting rod 6.

The displacement sensor 8 being in contact with detection block 4 is additionally provided in connecting rod 6.

Sliding chamber 9 is coaxially provided on cubing ontology 1 with cavity 5, detection column 3 is slideably positioned in sliding chamber 9, is detected column 3 and is slided Spring 10 is additionally provided in chamber 9 between bottom, the upper end of detection column 3 is equipped with the hemisphere 11 matched with small mounting hole.

It is located at positioning column 2 on cubing ontology 1 and is additionally provided with amesdial 12, the measurement end of amesdial 12 can be with the side of torque arm Wall is in contact.

Amesdial 12 is set on cubing ontology 1 along radially sliding for positioning column 2.

It is radially provided with sliding slot 13 along positioning column 2 on cubing ontology 1,13 length direction is equipped with and rotates in cubing along the chute Screw rod 14 on ontology 1, amesdial 12 are equipped with the sliding block 15 matched with sliding slot 13, and sliding block 15 is threadedly coupled with screw rod 14, The end of screw rod 14 is equipped with handle 16.

Working principle of the utility model is:

When detection, the big mounting hole 2A on the big end 1A of torque arm is mounted on positioning column 2, rotational handle 16, is driven 13 movement along the chute of amesdial 12, makes the measurement end of amesdial 12 be in contact with the side wall of torque arm, rotates and turn round then around positioning column 2 Arm makes after torque arm touching hemisphere 11 to detect column 3 and slide into sliding chamber 9, until in small end the small mounting hole 2B of 1B at when, detect Column 3 pops up under the action of spring 10 to be fixed in small mounting hole 2B, slides detection block 4 along connecting rod 6, is made detection block 4 and is turned round The side wall of arm is in contact, and rotating detection block 4 and connecting rod 6 i.e. detection around detection column 3 terminates；

In the detection process, if the reading variation of amesdial 12 is more than preset value, illustrate big mounting hole 2A and big end The concentricity of 1A is poor；If detection column 3 cannot be fixed in small mounting hole 2B when rotation torque arm, then illustrate small mounting hole 2B and big The distance between mounting hole 2A is not inconsistent standardization；If rotate detection block 4 and connecting rod 6, the numerical value change of displacement sensor 8 is super Preset value is crossed, then illustrates that the concentricity of small mounting hole 2B and small end 1B is poor；

The utility model can detect the number of drawbacks of torque arm simultaneously, and structure is simple, easy to operate, and detection effect is good, effect Rate is high.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, although ginseng The utility model is described in detail according to previous embodiment, it for those skilled in the art, still can be with It modifies the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features.It is all Within the spirit and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in practical Within novel protection scope.

Claims (7)

1. a kind of automotive seat torque arm cubing, which is characterized in that including cubing ontology, the cubing ontology is equipped with and big peace The dress hole positioning column matched and the detection column matched with small mounting hole, the detection column are slideably positioned in along the vertical direction On the cubing ontology, be additionally provided with the detection block that can be in contact with the side wall of torque arm on the detection column, the detection block with The detection column is center of circle rotation setting.

2. a kind of automotive seat torque arm cubing according to claim 1, which is characterized in that the cubing ontology is equipped with With the cavity of the detection column coaxial arrangement, the detection block is rotated in the cavity, and the detection block is turned by connecting rod Dynamic to be set on the detection column, the detection block is set in the connecting rod along the radially sliding for column of detection, described Elastic component is also connected between detection block and the connecting rod.

3. a kind of automotive seat torque arm cubing according to claim 2, which is characterized in that be additionally provided in the connecting rod The displacement sensor being in contact with the detection block.

4. a kind of automotive seat torque arm cubing according to claim 3, which is characterized in that on the cubing ontology with institute It states cavity and is coaxially provided with sliding chamber, it is intracavitary that the detection column is slideably positioned in the cunning, the detection column and the intracavitary bottom of the cunning Between be additionally provided with spring, the upper end of the detection column is equipped with the hemisphere matched with small mounting hole.

5. a kind of automotive seat torque arm cubing according to claim 1 or 4, which is characterized in that on the cubing ontology Amesdial is additionally provided at the positioning column, the measurement end of the amesdial can be in contact with the side wall of torque arm.

6. a kind of automotive seat torque arm cubing according to claim 5, which is characterized in that the amesdial is along described fixed Radially sliding for column of position is set on the cubing ontology.

7. a kind of automotive seat torque arm cubing according to claim 6, which is characterized in that along institute on the cubing ontology That states positioning column is radially provided with sliding slot, and the length direction along the sliding slot is equipped with the screw rod rotated on the cubing ontology, institute It states amesdial and is equipped with the sliding block matched with the sliding slot, the sliding block is connect with the screw flight, the end of the screw rod Portion is equipped with handle.