CN210089601U - Special detection tool for detecting deformation of control arm blank - Google Patents

Abstract

The utility model provides a special utensil of examining for control arm blank deflection detects to when solving three coordinates of tradition and detecting, there are the technical problem that the operation is complicated, detect and take time, detection efficiency low grade. The utility model discloses constitute by bottom plate, left locating piece, plug gage I, active grab, hexagon socket head cap screw I, parallels, stand, slider, cylindric lock I, hexagon socket head cap screw II, baffle, cylinder helical compression spring, hexagon socket head cap screw III, right locating piece, hexagon socket head cap screw IV, cylindric lock II, bottom plate stand, plug gage II, hexagon socket head cap screw V. The utility model discloses can be applied to the blank of car control arm and make detection technical field, have technical advantage such as easy operation, clamping are nimble, detect conveniently, reduced operator's technical requirement to detection efficiency is high, detection cost is low, can realize the batchization and detect, has improved production efficiency, has practiced thrift manufacturing cost.

Description

Special detection tool for detecting deformation of control arm blank

Technical Field

The utility model relates to an utensil is examined in special use for control arm blank deflection detects belongs to the blank and makes and detect technical field.

Background

The automobile control arm is one of important parts on an automobile steering axle, and the control arm mainly bears front side load and transfers the driving direction of an automobile when working. Thereby steering the vehicle and stably driving. At present, the high-speed development and the automobile industry are prosperous, the demand of the control arm is gradually increased, the problem that the control arm is deformed in production cannot be solved, the control arm bears changeable load during working, so higher requirements are provided for the precision of a control arm blank, a three-coordinate measuring machine is generally adopted for detection in the prior art, but the method has the defects of complex operation, time-consuming detection, low detection efficiency, high operation difficulty, cost improvement and the like, and the batch production of the control arm blank is limited.

Disclosure of Invention

Use the three-coordinate measuring machine to measure control arm blank deflection among the solution prior art, lead to it to have the operation complicated, detect that time-consuming, detection efficiency low grade technical problem, the utility model discloses an utensil is examined in special use for control arm blank deflection detects.

The utility model discloses the technical scheme who adopts:

in order to achieve the purpose, the utility model provides an utensil is examined in special use for control arm blank deflection detects, this special use is examined utensil by the bottom plate, left locating piece, stopper rule I, high-speed grip, interior hexagonal socket head cap screw I, the parallels, the stand, the slider, cylindric lock I, interior hexagonal socket head cap screw II, the baffle, cylinder helical compression spring, interior hexagonal socket head cap screw III, right locating piece, interior hexagonal socket head cap screw IV, cylindric lock II, the bottom plate stand, stopper rule II, interior hexagonal socket head cap screw V is constituteed.

The bottom plate comprises a bottom plate upright post hole, a bottom plate threaded hole I, a bottom plate threaded hole II, a bottom plate cylindrical pin hole I, an upright post hole, a bottom plate cylindrical pin hole II and a bottom plate threaded hole III; the left positioning block comprises a left positioning block cylindrical pin hole, a left positioning block threaded hole, a left positioning block positioning groove, a left positioning block binding surface I and a left positioning block binding surface II; the mounting shaft of the bottom plate upright post is inserted into the hole of the bottom plate upright post, and the bottom plate upright post is fixedly mounted on the bottom plate; and the left positioning block is fixedly arranged on the bottom plate by inserting the cylindrical pin II and the inner hexagonal socket head cap screw IV through the cylindrical pin hole of the left positioning block and the threaded hole of the left positioning block.

The plug gauge I comprises a plug gauge I detection surface I, a plug gauge I detection surface II, a plug gauge I detection surface III, a plug gauge I detection surface IV, a plug gauge I binding surface I and a plug gauge I binding surface II; the rapid clamp comprises a rapid clamp bolt hole, and the sizing block comprises a sizing block top surface threaded hole and a sizing block bottom surface threaded hole; attaching a binding face I of a plug gauge I to a binding face II of a left positioning block, attaching the binding face II of the plug gauge I to the binding face I of the left positioning block, and assembling the plug gauge I on the left positioning block; the upright post mounting shaft is vertically inserted into the upright post hole to fixedly mount the upright post on the bottom plate; and inserting an inner hexagonal socket cap head screw V into a bottom plate threaded hole I and a sizing block bottom surface threaded hole on the bottom plate, and fixedly mounting the sizing block on the bottom plate.

The upright column comprises an upright column mistake-proofing detection surface and an upright column installation shaft; the sliding block comprises a sliding block positioning groove, a sliding block threaded hole and a sliding block binding surface; and inserting the inner hexagonal socket cap head screw I into the quick clamp bolt hole and the sizing block top surface threaded hole, and fixedly mounting the quick clamp on the sizing block.

The baffle plate comprises a baffle plate threaded hole; the right positioning block comprises a right positioning block binding surface I, a right positioning block cylindrical pin hole I, a right positioning block threaded hole II, a right positioning block threaded hole III, a right positioning block binding surface II and a right positioning block binding surface III; respectively inserting a cylindrical pin I and an inner hexagonal cylindrical head screw II into a cylindrical pin hole I of a right positioning block and a threaded hole II of the right positioning block, then connecting the cylindrical pin hole I of an upper base plate of a base plate and the threaded hole II of the base plate, and fixedly installing the right positioning block on the base plate; then a cylindrical helical compression spring is placed at the bottom of the right positioning block, a slide block binding surface is bound with the right positioning block binding surface III, an inner hexagonal socket head cap screw III is inserted into the baffle threaded hole, the slide block threaded hole and the right positioning block threaded hole III, and the slide block and the baffle are fixedly installed on the right positioning block.

The bottom plate upright column comprises a bottom plate upright column mounting shaft, and the plug gauge II comprises a plug gauge II detection surface I, a plug gauge II detection surface II, a plug gauge II detection surface III, a plug gauge II detection surface IV, a plug gauge II binding surface I and a plug gauge II binding surface II; and (3) attaching the attaching surface I of the plug gauge II with the attaching surface I of the right positioning block, and attaching the attaching surface II of the plug gauge II with the attaching surface II of the right positioning block.

The utility model has the advantages that: the utility model relates to an utensil is examined in special use for control arm blank deflection detects, and it is complicated to solve control arm detection operation, detects the scheduling problem that takes time, and this kind of utensil of examining of its characterized in that easy operation, clamping are nimble, detect the convenience, have reduced people's technical requirement. Through with novel examining utensil, produce a detection efficiency height, detection cost low, can realize the mass detection in the production, improved production efficiency, practice thrift manufacturing cost, overcome among the prior art and used the three-coordinate detection machine to carry out deflection and detect time measuring, the operation is complicated, detect time-consuming, detection efficiency is low, the operation degree of difficulty is big scheduling problem, has extensive application prospect in the mass production of car control arm.

Drawings

Fig. 1 is a schematic structural diagram of a special checking fixture for detecting deformation of a control arm blank according to the present invention;

fig. 2 is a sectional view of a positioning block of a special gauge for detecting the deformation of a control arm blank according to the present invention;

fig. 3 is a cross-sectional view of a bottom plate of a special gauge for detecting the deformation of a control arm blank according to the present invention;

fig. 4 is a schematic structural diagram of a bottom plate of a special gauge for detecting the deformation of a control arm blank according to the present invention;

fig. 5 is a schematic structural view of a left positioning block of a special checking fixture for detecting the deformation of a control arm blank according to the present invention;

fig. 6 is a schematic structural view of a bottom surface of a plug gauge I of a special gauge for detecting deformation of a control arm blank according to the present invention;

fig. 7 is a schematic side view of a plug gauge I of a special gauge for detecting deformation of a control arm blank according to the present invention;

fig. 8 is a schematic structural view of a quick clamp of a special gauge for detecting deformation of a control arm blank according to the present invention;

figure 9 shows that the utility model provides a hexagon socket head cap screw that is used for special use of examining utensil that control arm blank deflection detected

Schematic structural diagram of (a);

fig. 10 is a schematic structural view of a bottom surface of a sizing block of a special gauge for detecting deformation of a control arm blank according to the present invention;

fig. 11 is a schematic structural view of a top surface of a sizing block of a special gauge for detecting deformation of a control arm blank according to the present invention;

fig. 12 is a schematic structural diagram of a column of a special checking fixture for detecting deformation of a control arm blank according to the present invention;

fig. 13 is a schematic structural diagram of a slider of a special checking fixture for detecting the deformation of a control arm blank according to the present invention;

fig. 14 is a schematic structural view of a cylindrical pin I of a special gauge for detecting deformation of a control arm blank according to the present invention;

figure 15 shows that the utility model provides a hexagon socket head cap screw that is used for special use of examining utensil that control arm blank deflection detected

Schematic structural diagram of (a);

fig. 16 is a schematic structural diagram of a baffle of a special gauge for detecting deformation of a control arm blank according to the present invention;

figure 17 shows that the utility model provides a hexagon socket head cap screw that is used for special use of examining utensil that control arm blank deflection detected

Schematic structural diagram of (a);

fig. 18 is a schematic structural view of a bottom surface of a right positioning block of a special gauge for detecting deformation of a control arm blank according to the present invention;

fig. 19 is a schematic structural view of the top surface of the right positioning block of the special checking fixture for detecting the deformation of the control arm blank according to the present invention;

figure 20 shows that the utility model provides a hexagon socket head cap screw that is used for special use of examining utensil that control arm blank deflection detected

Schematic structural diagram of (a);

fig. 21 is a schematic structural view of a cylindrical pin II of a special gauge for detecting deformation of a control arm blank according to the present invention;

fig. 22 is a schematic structural view of a bottom plate pillar of a special gauge for detecting deformation of a control arm blank according to the present invention;

fig. 23 is a schematic structural view of a side surface of a plug gauge II of the special gauge for detecting deformation of the control arm blank according to the present invention;

fig. 24 is a schematic structural view of a bottom surface of a plug gauge II of a special gauge for detecting deformation of a control arm blank according to the present invention;

figure 25 shows that the utility model provides a hexagon socket head cap screw that is used for special use of examining utensil that control arm blank deflection detected

Schematic structural diagram of (1).

Detailed Description

The first embodiment is as follows: the embodiment is described with reference to fig. 1 to 25, and the embodiment provides a specific embodiment of a special gauge for detecting the deformation of the control arm blank, and the specific embodiment of the special gauge for detecting the deformation of the control arm blank is described as follows:

as shown in fig. 1 to 3, the special gauge for detecting the deformation of the control arm blank is composed of a bottom plate 1, a left positioning block 2, a plug gauge I3, a quick clamp 4, a socket head cap screw I5, a sizing block 6, an upright post 7, a sliding block 8, a cylindrical pin I9, a socket head cap screw II10, a baffle 11, a cylindrical helical compression spring 12, a socket head cap screw III13, a right positioning block 14, a socket head cap screw IV15, a cylindrical pin II16, a bottom plate upright post 17, a plug gauge II18 and a socket head cap screw V19.

As shown in FIGS. 4-5, the bottom plate 1 comprises a bottom plate upright post hole 1-1, a bottom plate threaded hole I1-2, a bottom plate threaded hole II1-3, a bottom plate cylindrical pin hole I1-4, an upright post hole 1-5, a bottom plate cylindrical pin hole II1-6 and a bottom plate threaded hole III 1-7. The left positioning block 2 comprises a left positioning block cylindrical pin hole 2-1, a left positioning block threaded hole 2-2, a left positioning block positioning groove 2-3, a left positioning block binding surface I2-4 and a left positioning block binding surface II 2-5. The bottom plate upright post mounting shaft 17-1 is inserted into the bottom plate upright post hole 1-1, and the bottom plate upright post 17 is fixedly mounted on the bottom plate 1. The left positioning block 2 is fixedly arranged on the bottom plate 1 by inserting a cylindrical pin II16 and an inner hexagonal socket head cap screw IV15 through a cylindrical pin hole 2-1 of the left positioning block and a threaded hole 2-2 of the left positioning block.

As shown in FIGS. 6 to 11, the plug gauge I3 comprises a plug gauge I detection surface I3-1, a plug gauge I detection surface II3-2, a plug gauge I detection surface III3-3, a plug gauge I detection surface IV3-4, a plug gauge I attachment surface I3-5 and a plug gauge I attachment surface II 3-6. The rapid clamp 4 comprises a rapid clamp bolt hole 4-1, and the sizing block 6 comprises a sizing block top surface threaded hole 6-1 and a sizing block bottom surface threaded hole 6-2. Attaching a plug gauge I attaching surface I3-5 of a plug gauge I3 to a left positioning block attaching surface II2-5, attaching a plug gauge I attaching surface II3-6 to a left positioning block attaching surface I2-4, and assembling a plug gauge I3 on a left positioning block 2. The upright post mounting shaft 7-2 is vertically inserted into the upright post hole 1-5 to fixedly mount the upright post 7 on the bottom plate 1. And inserting the inner hexagonal socket cap head screw V19 into the bottom plate threaded hole I1-2 on the bottom plate 1 and the bottom surface threaded hole 6-2 of the sizing block, and fixedly installing the sizing block 6 on the bottom plate 1.

As shown in FIGS. 12-15, the upright post 7 comprises an upright post mistake-proofing detection surface 7-1 and an upright post installation shaft 7-2. The sliding block 8 comprises a sliding block positioning groove 8-1, a sliding block threaded hole 8-2 and a sliding block binding surface 8-3. And inserting the inner hexagon socket head cap screws I5 into the quick clamp bolt holes 4-1 and the shim top surface threaded holes 6-1, and fixedly mounting the quick clamp 4 on the shim 7.

As shown in FIGS. 16-19, the retainer 11 includes retainer threaded holes 11-1. The right positioning block 14 comprises a right positioning block attachment surface I14-1, a right positioning block cylindrical pin hole I14-2, a right positioning block threaded hole II14-3, a right positioning block threaded hole III14-4, a right positioning block attachment surface II14-5 and a right positioning block attachment surface III 14-6. And a cylindrical pin I9 and an inner hexagonal cylindrical head screw II10 are respectively inserted into a cylindrical pin hole I14-2 of a right positioning block and a threaded hole II14-3 of the right positioning block, and then the cylindrical pin hole I1-4 of an upper bottom plate of the bottom plate 1 and the threaded hole II1-3 of the bottom plate are connected, so that the right positioning block 14 is fixedly arranged on the bottom plate 1. Then, a cylindrical helical compression spring 12 is placed at the bottom of the right positioning block 14, a slide block attaching surface 8-3 is attached to a right positioning block attaching surface III14-6, an inner hexagonal socket head cap screw III13 is inserted into a baffle plate threaded hole 11-1, a slide block threaded hole 8-2 and a right positioning block threaded hole III14-4, and the slide block 8 and the baffle plate 11 are fixedly installed on the right positioning block 14.

As shown in fig. 20 to 25, the base plate column 17 includes a base plate column mounting shaft 17-1, and the plug gauge II18 includes a plug gauge II detection surface I18-1, a plug gauge II detection surface II18-2, a plug gauge II detection surface III18-3, a plug gauge II detection surface IV18-4, a plug gauge II attachment surface I18-5, and a plug gauge II attachment surface II 18-6. And (3) attaching the attaching surface I18-5 of the plug gauge II to the attaching surface I14-1 of the right positioning block, and attaching the attaching surface II18-6 of the plug gauge II to the attaching surface II14-5 of the right positioning block.

Examine utensil and be used for automobile control arm blank deflection to detect, its working process as follows:

one end face of the control arm is placed in the slider positioning groove 8-1, and then the slider 8 is abutted against the right positioning block 14 by pushing the cylindrical helical compression spring 12 until the slider 8 is fixed. And then, the other end face of the control arm is fixedly clamped in the positioning groove 2-3 of the left positioning block, and the error-proof detection surface 7-1 of the upright post on the upright post 7 is used for detecting, so that misoperation and errors in placement position are prevented. And then clamped and fixed by the quick clamp 4. The deformation in the length direction between the two end faces of the control arm is detected by a plug gauge I detection face I3-1, a plug gauge I detection face II3-2, a plug gauge I detection face III3-3, a plug gauge I detection face IV3-4 and a plug gauge II detection face I18-1, a plug gauge II detection face II18-2, a plug gauge II detection face III18-3 and a plug gauge II detection face IV18-4 on a plug gauge II18 on a plug gauge I3. The plug gauge I3 slides on the left positioning block 2 and the plug gauge II slides on the right positioning block 14, if the detection surface I3-1 of the plug gauge I and the detection surface II3-2 of the plug gauge I on the plug gauge I pass through one end surface of the control arm, and the detection surface III3-3 of the plug gauge I and the detection surface IV3-4 of the plug gauge I do not pass through one end surface of the control arm, the size of the end surface is qualified. If the detection surface I18-1 of the plug gauge II on the plug gauge II18 and the detection surface II18-2 of the plug gauge II pass through the other end face of the control arm, the detection surface III18-3 of the plug gauge II on the plug gauge II18 and the detection surface IV18-4 of the plug gauge II do not pass through the other end face of the control arm, the other end face is qualified in size, and the control arm is also qualified. Otherwise, the plug gauge I3 slides on the left positioning block 2 and the plug gauge II slides on the right positioning block 14, if the detection surface I3-1 and the detection surface II3-2 of the plug gauge I on the plug gauge I do not pass through one end surface of the control arm or the detection surface III3-3 and the detection surface IV3-4 of the plug gauge I on the plug gauge I pass through one end surface of the control arm, the size of the end surface is unqualified, and the control arm is unqualified; if the other end face of the control arm is not passed through the detection face I18-1 of the plug gauge II on the plug gauge II18 and the detection face II18-2 of the plug gauge II or the detection face III18-3 of the plug gauge II on the plug gauge II18 and the detection face IV18-4 of the plug gauge II pass through the other end face of the control arm, the dimension of the other end face is unqualified, and the control arm is unqualified.

Claims (6)

1. The special detection tool for detecting the deformation of the control arm blank is characterized by comprising a bottom plate (1), a left positioning block (2), a plug gauge I (3), a quick clamp (4), an inner hexagonal socket head cap screw I (5), a sizing block (6), an upright post (7), a sliding block (8), a cylindrical pin I (9), an inner hexagonal socket head cap screw II (10), a baffle plate (11), a cylindrical spiral compression spring (12), an inner hexagonal socket head cap screw III (13), a right positioning block (14), an inner hexagonal socket head cap screw IV (15), a cylindrical pin II (16), a bottom plate upright post (17), a plug gauge II (18) and an inner hexagonal socket head cap screw V (19).

2. The special detection tool for detecting the deformation of the control arm blank according to claim 1, wherein the bottom plate (1) comprises a bottom plate upright post hole (1-1), a bottom plate threaded hole I (1-2), a bottom plate threaded hole II (1-3), a bottom plate cylindrical pin hole I (1-4), an upright post hole (1-5), a bottom plate cylindrical pin hole II (1-6) and a bottom plate threaded hole III (1-7); the left positioning block (2) comprises a left positioning block cylindrical pin hole (2-1), a left positioning block threaded hole (2-2), a left positioning block positioning groove (2-3), a left positioning block binding surface I (2-4) and a left positioning block binding surface II (2-5); a bottom plate upright post mounting shaft (17-1) is inserted into the bottom plate upright post hole (1-1), and the bottom plate upright post (17) is fixedly mounted on the bottom plate (1); the left positioning block (2) is fixedly arranged on the bottom plate (1) by inserting a cylindrical pin II (16) and an inner hexagonal socket head cap screw IV (15) into the left positioning block (2) through a cylindrical pin hole (2-1) of the left positioning block and a threaded hole (2-2) of the left positioning block.

3. The special detection tool for detecting the deformation of the control arm blank according to claim 1, wherein the plug gauge I (3) comprises a plug gauge I detection surface I (3-1), a plug gauge I detection surface II (3-2), a plug gauge I detection surface III (3-3), a plug gauge I detection surface IV (3-4), a plug gauge I attachment surface I (3-5) and a plug gauge I attachment surface II (3-6); the rapid clamp (4) comprises a rapid clamp bolt hole (4-1), and the sizing block (6) comprises a sizing block top surface threaded hole (6-1) and a sizing block bottom surface threaded hole (6-2); attaching a binding face I (3-5) of a plug gauge I (3) to a binding face II (2-5) of a left positioning block, attaching a binding face II (3-6) of the plug gauge I to a binding face I (2-4) of the left positioning block, and assembling the plug gauge I (3) on the left positioning block (2); the upright post mounting shaft (7-2) is vertically inserted into the upright post hole (1-5) to fixedly mount the upright post (7) on the bottom plate (1); and inserting an inner hexagonal socket head cap screw V (19) into a bottom plate threaded hole I (1-2) on the bottom plate (1) and a sizing block bottom surface threaded hole (6-2), and fixedly mounting the sizing block (6) on the bottom plate (1).

4. The special detection tool for detecting the deformation of the control arm blank according to claim 1, wherein the upright (7) comprises an upright error-proofing detection surface (7-1) and an upright mounting shaft (7-2); the sliding block (8) comprises a sliding block positioning groove (8-1), a sliding block threaded hole (8-2) and a sliding block binding surface (8-3); and inserting an inner hexagonal socket head cap screw I (5) into the quick clamp bolt hole (4-1) and the sizing block top surface threaded hole (6-1), and fixedly mounting the quick clamp (4) on the sizing block (6).

5. The special detection tool for detecting the deformation of the control arm blank is characterized in that the baffle (11) comprises a baffle threaded hole (11-1); the right positioning block (14) comprises a right positioning block binding surface I (14-1), a right positioning block cylindrical pin hole I (14-2), a right positioning block threaded hole II (14-3), a right positioning block threaded hole III (14-4), a right positioning block binding surface II (14-5) and a right positioning block binding surface III (14-6); a cylindrical pin I (9) and an inner hexagonal cylindrical head screw II (10) are respectively inserted into a cylindrical pin hole I (14-2) and a threaded hole II (14-3) of a right positioning block, then the cylindrical pin hole I (1-4) and the threaded hole II (1-3) of an upper bottom plate of the bottom plate (1) are connected, and the right positioning block (14) is fixedly arranged on the bottom plate (1); then a cylindrical helical compression spring (12) is placed at the bottom of the right positioning block (14), a slide block binding surface (8-3) is bound with a right positioning block binding surface III (14-6), an inner hexagonal cylindrical head screw III (13) is inserted into a baffle threaded hole (11-1), a slide block threaded hole (8-2) and a right positioning block threaded hole III (14-4), and the slide block (8) and the baffle (11) are fixedly installed on the right positioning block (14).

6. The special detection tool for detecting the deformation of the control arm blank according to claim 1, wherein the base plate column (17) comprises a base plate column mounting shaft (17-1), and the plug gauge II (18) comprises a plug gauge II detection surface I (18-1), a plug gauge II detection surface II (18-2), a plug gauge II detection surface III (18-3), a plug gauge II detection surface IV (18-4), a plug gauge II attachment surface I (18-5) and a plug gauge II attachment surface II (18-6); and (3) attaching a plug gauge II attaching surface I (18-5) to a right positioning block attaching surface I (14-1), and attaching a plug gauge II attaching surface II (18-6) to a right positioning block attaching surface II (14-5).

Images