CN214502273U - Comprehensive detection measuring tool for oil storage cylinder assembly - Google Patents

Abstract

The utility model discloses an oil storage cylinder subassembly comprehensive testing measuring tool is provided with the bottom plate and installs the determine module on the bottom plate, the determine module is including installing bracket opening locating piece, second stack shell locating plate, second support detection device, first support detection device, stabilizer bar support detection device, spring holder detection device, bracket detection device on the bottom plate. This scheme can detect the key structure of oil storage section of thick bamboo subassembly simultaneously, has promoted its detection efficiency, need not relapse the dismouting, avoids artificially to examine time measuring and arouses the error because of the wrong space size test point of finding, has improved the accuracy and the efficiency that detect.

Description

Comprehensive detection measuring tool for oil storage cylinder assembly

Technical Field

The utility model relates to an automobile shock absorber technical field especially relates to an oil storage cylinder subassembly comprehensive testing measuring tool.

Background

The oil storage cylinder assembly is one of the components of the shock absorber strut assembly, and the loading dimensions of a bracket opening, a bracket hole and the like of the oil storage cylinder assembly are unqualified, so that the shock absorber assembly in an automobile main engine plant is directly influenced, and the shock absorber cannot be assembled seriously; if the spring disc on the oil storage cylinder assembly is unqualified in size, the lift surface is poor in matching when the suspension spring and the spring seat are assembled, abnormal harmful lateral force of the suspension spring is aggravated, the service life of the shock absorber is influenced, the response and the comfort degree of the shock absorber are influenced, the height posture of the vehicle body after the shock absorber is loaded and the stress distribution of the shock absorber are influenced, and the risk of spring breakage is seriously increased.

Further exploration and optimization of the structure of the comprehensive detection measuring tool for the oil storage cylinder assembly are carried out, so that the comprehensive detection measuring tool has better performance when serving the technical field of automobile shock absorbers, and the technical problem to be solved by the technical personnel in the field is urgent.

SUMMERY OF THE UTILITY MODEL

The existing detection means is as follows: the height vernier caliper is used for reading measurement, and then calculation and conversion are carried out, so that the operation is troublesome, time is consumed, the detection efficiency is low, 100% detection of a product cannot be realized, in addition, the measurement point cannot be accurately found even when the space size is involved, and a large error basically occurs during measurement.

To the above problem, the utility model provides an oil storage section of thick bamboo subassembly comprehensive testing measuring tool can carry out the while to the key structure of oil storage section of thick bamboo subassembly and detect, has promoted its detection efficiency, need not relapse the dismouting, and the error that the mistake finding space size test point arouses when avoiding the people for the test has improved the accuracy and the efficiency that detect.

The technical means of this scheme is as follows, a store oil section of thick bamboo subassembly comprehensive testing measuring tool includes: bottom plate and install the determine module on the bottom plate, store an oil section of thick bamboo subassembly and include: the detection assembly comprises a bracket opening positioning block, a second barrel body positioning plate, a second bracket detection device, a first bracket detection device, a stabilizer bar bracket detection device, a spring disc detection device and a bracket detection device which are arranged on a bottom plate;

the bracket opening positioning block is used for supporting one end of the oil storage cylinder assembly, which is provided with a bracket opening, and the second cylinder body positioning plate is used for supporting one end of the oil storage cylinder assembly, which is provided with a spring disc;

the second bracket detection device is used for detecting the position of the second bracket;

the first bracket detection device is used for detecting the position of the first bracket;

the stabilizer bar support detection device is used for detecting the position of the stabilizer bar support;

the spring disc detection device is used for detecting the position and the shape of the spring disc;

the bracket detection device is used for detecting the position shape of the bracket;

the cylinder body detection device is used for detecting the accuracy of the oil storage cylinder body.

In the scheme, the bracket opening positioning block and the second barrel body positioning plate are respectively used for supporting different ends of the oil storage barrel assembly to be measured, after the supporting is finished, the positions of the second bracket and the accuracy of the second bracket holes are respectively measured by adopting the second bracket detection device, the positions of the first bracket and the accuracy of the first bracket holes are respectively measured by adopting the first bracket detection device, the positions of the stabilizer bar bracket and the accuracy of the holes on the stabilizer bar bracket are respectively measured by adopting the stabilizer bar bracket detection device, the positions of the spring discs and the accuracy of the positioning holes are measured by adopting the spring disc detection device, the positions of the bracket holes and the accuracy of the bracket holes are measured by adopting the bracket hole detection device, and the accuracy of the barrel body is measured by adopting the barrel body detection device, so that the purpose of judging the manufacturing accuracy of the oil storage barrel assembly is achieved. According to the scheme, after the oil storage cylinder assembly is fixed in position, all key processing characteristics and shape characteristics of the oil storage cylinder assembly are detected, the detection purpose can be achieved by clamping the oil storage cylinder assembly once, and the detection efficiency is high.

As technicians in the field, the detection devices can adopt corresponding sensors, the scheme adopts a contact detection means, and scales or marks are preset, wherein the scales or marks indicate that after the qualified oil storage cylinder is installed, each distance measuring block slides, and after the position is determined, qualified marks are made between the distance measuring block and each support plate or the comprehensive positioning plate; when the oil storage cylinder assembly is detected, after the distance measuring block stretches, the position of the qualified mark is just between the distance measuring block and the supporting plate or the comprehensive positioning plate, and the position of the key part of the oil storage cylinder assembly can be judged to be qualified; or when the distance measuring block is directly extended to the dead point position, the tail end of the distance measuring block is just contacted with a part to be tested to judge whether the position of the oil storage cylinder assembly is qualified; and setting the radius of each measuring pin to be the same as that of the hole of the corresponding part, and judging whether each measuring pin can be embedded into the hole to be measured through sliding to judge whether the hole of each part is qualified.

The further technical scheme of the comprehensive detection measuring tool for the oil storage cylinder component is as follows:

as a specific scheme of the bracket detection device, the bracket detection device is provided with the following components: still including setting up the comprehensive locating plate of bracket opening locating piece both sides, bracket detection device includes: the device comprises a comprehensive positioning plate, a bracket hole positioning pin and a first pin hole which is arranged on the comprehensive positioning plate and matched with the bracket hole positioning pin, wherein a bracket opening positioning block is embedded into a bracket opening, and after a cylinder body is contacted with a first supporting plate, the bracket hole positioning pin corresponds to a bracket hole of a bracket, and the accuracy of the bracket hole is judged by judging whether the bracket hole positioning pin can be embedded into the bracket hole; if the bracket hole can be inserted, the bracket hole is satisfactory, and if the bracket hole cannot be inserted, the bracket hole is unsatisfactory.

As a specific scheme of the cylinder body detection device, the cylinder body detection device is provided with the following steps: the bottom plate is rectangular, a reference shaft strip with the length equal to that of the bottom plate is arranged at the center of the bottom plate in the width direction, and a third supporting plate which is fixed on the bottom plate and is positioned on one side, away from the bracket opening positioning block, of the second barrel body positioning plate is further arranged; the first support plate is connected with one side, away from the second barrel body positioning plate, of the bracket opening positioning block, the first support plate is fixed on the bottom plate, and the center lines of the first support plate and the third support plate in the length direction are overlapped with the reference shaft strip;

the shaft detection device includes: a first barrel body positioning plate and a second barrel body positioning plate which are used for supporting the barrel body of the oil storage barrel are arranged on the bottom plate between the second supporting plate and the comprehensive positioning plate, and a groove, a first supporting plate and a third supporting plate which are matched with the barrel body of the oil storage barrel are respectively arranged on the two positioning plates;

the one end of the oil storage cylinder assembly that will need to detect is embedded into on the bracket opening locating piece, if can imbed then the bracket opening is qualified, the one end and the first backup pad contact of oil storage cylinder, will store oil cylinder assembly and put down, if the stack shell can be placed between first backup pad and the third backup pad, then the length of its stack shell is suitable, observes the recess of stack shell and first stack shell locating plate and second stack shell locating plate again and whether cooperate just, if the cooperation then the stack shell satisfies the requirements, if not cooperate then unsatisfied the requirement.

As a specific implementation scheme of the first support detection device, the following steps are set: the first rack detecting device includes: the device comprises a first supporting plate, a second pin hole arranged on the first supporting plate, a plurality of first measuring pins, a first distance measuring block and a first through hole arranged on a comprehensive positioning plate;

the first distance measuring blocks are respectively arranged on the two comprehensive positioning plates, the first measuring pin is matched with the second pin hole, the first through hole is matched with the first distance measuring block, and the sliding direction of the first measuring pin in the second pin hole is parallel to the bracket opening positioning block; the first distance measuring block can slide to the A position;

after a bracket opening positioning block is embedded into a bracket opening, a first distance measuring block slides in a first through hole of the comprehensive positioning plate by using a handle, when a distance measuring block A is in contact with the first support, the distance measuring block A is limited by using a screw, and whether the distance is the same as a preset distance is observed; and then sliding the first measuring pin on the first supporting plate, observing whether the first measuring pin can penetrate through the hole of the first support, wherein the distance meets the requirement, the hole of the first support can be embedded, and the requirement is met, and if the hole of the first support cannot meet the requirement.

As a specific implementation scheme of the second bracket detection device, the following steps are set: the second stent detecting device includes: the device comprises a first measuring block, a first distance measuring block, a first measuring pin, a first pin hole arranged on the first measuring block and a first through hole arranged on a comprehensive positioning plate;

the second measuring block is fixed between the bracket opening block and the comprehensive positioning plate, the second measuring pin can slide in the third pin hole along the length direction of the bracket opening positioning block, and the second distance measuring block slides to a second bracket position;

after the bracket opening is embedded into the bracket opening positioning block, the second distance measuring block slides in the comprehensive positioning plate through the handle, and is limited through the screw when in contact with the second support; the second measuring pin slides along the third pin hole, and then whether the second measuring pin can be in the second support hole or not and whether the distance measuring test block B meets a preset value or not are judged to determine the precision of the second support: the second support hole can be embedded, the distance is a preset value, the position of the second support meets the requirement, the second support hole cannot be embedded, or the distance is not a preset value, and the second support does not meet the requirement.

As a concrete implementation scheme of stabilizer bar support detection device: stabilizer bar support detection device includes: the stabilizer bar measuring block, the stabilizer bar measuring pin, the stabilizer bar distance measuring block, the second supporting plate and a fourth pin hole are arranged in the stabilizer bar measuring block;

after the bracket opening is embedded into the bracket opening positioning block, the second support plates are positioned at two sides of the stabilizer bar bracket, the stabilizer bar measuring block and the stabilizer bar distance measuring block are arranged on the second support plates, and the stabilizer bar measuring pin can slide in the fourth pin hole;

whether can imbed in the hole of stabilizer bar support and the stabilizer bar is judged stabilizer bar support's precision apart from the distance of measuring the piece test through stabilizer bar measuring pin: can imbed stabilizer bar mounting hole and distance and reach preset value, then the stabilizer bar support satisfies the requirement, can not imbed stabilizer bar mounting hole or apart from the non-setting value, the unsatisfied requirement of stabilizer bar support.

As a concrete implementation scheme of the spring holder testing device: the spring holder detection device includes: the third support plate is arranged on one side, away from the first support plate, of the second barrel body positioning plate and fixed on the bottom plate, a guide sleeve matched with any one uniform measurement nail is annularly distributed on the third support plate, and the measurement nail can slide in the guide sleeve;

after the bracket opening is embedded into the bracket opening positioning block, the four measuring nails respectively correspond to the positioning holes in the spring disc, and whether the measuring nails can be embedded into the positioning holes corresponding to the spring disc and the other measuring nails can be embedded into the positioning holes corresponding to the spring disc when the measuring nails slide in the guide sleeve, and the distance between the measuring nails and the spring disc extending out of the third supporting plate can be used for judging the precision of the spring disc: the spring disc can be embedded into the positioning hole of the spring disc, the extending distance of the spring disc is a preset value, the spring disc meets the requirement, and if a distance which cannot be embedded into or extends from the measuring nail is not a preset value, the spring disc does not meet the requirement.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

the spring disc detection device is provided with a bottom plate and a detection assembly arranged on the bottom plate, wherein the detection assembly comprises a bracket opening positioning block, a second barrel body positioning plate, a second support detection device, a first support detection device, a stabilizer bar support detection device, a spring disc detection device and a bracket detection device which are arranged on the bottom plate. This scheme can carry out the while to the key structure of oil storage section of thick bamboo subassembly and detect, has promoted its detection efficiency, need not relapse the dismouting, and the error that the mistake space size test point arouses when having avoided the artificial test has improved the accuracy that detects and the efficiency that detects.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic structural view of an integrated measuring tool for an oil reservoir assembly according to an embodiment of the following embodiments, which is a front view;

fig. 2 is a schematic structural diagram of an integrated measuring tool for an oil reservoir assembly according to an embodiment of the following embodiments, which is a plan view;

FIG. 3 is a schematic structural diagram of a stabilizer bar support detection device in one embodiment of the following examples;

fig. 4 is a schematic structural diagram of an integrated measuring tool for an oil reservoir assembly according to an embodiment of the following embodiments, and the diagram is a left side view.

The reference numbers in the figure are respectively 1, a bottom plate, 2, a reference shaft strip, 3, a bracket opening positioning block, 4, a first supporting plate, 5, a first measuring pin, 6, a comprehensive positioning plate, 7, a first distance measuring block, 8, a first barrel positioning plate, 9, a second barrel positioning plate, 10, a fourth measuring pin, 11, a third supporting plate, 12, a third measuring pin, 13, a first measuring pin, 14, a second measuring pin, 15, a second distance measuring block, 16, a second measuring pin, 17, a second measuring block, 18, a stabilizer bar distance measuring block, 19, a stabilizer bar measuring pin, 20, a stabilizer bar measuring block, 21, a bracket hole positioning pin, 22 and a second supporting plate.

Detailed Description

The invention discloses a comprehensive detection measuring tool for an oil storage cylinder assembly, which is described in detail below with reference to the attached drawings of the specification.

Example 1:

as shown in fig. 1 to 4, a comprehensive measuring tool for an oil storage cylinder assembly includes: the detection assembly comprises a base plate 1 and a detection assembly arranged on the base plate 1, wherein the detection assembly comprises a bracket opening positioning block 3, a second barrel body positioning plate 9, a second bracket detection device, a first bracket detection device, a stabilizer bar bracket detection device, a spring disc detection device and a bracket detection device which are arranged on the base plate 1;

the bracket opening positioning block 3 is used for supporting one end of the oil storage cylinder assembly, which is a bracket opening, and the second cylinder body positioning plate 9 is used for supporting one end of the oil storage cylinder assembly, which is a spring disc;

the second bracket detection device is used for detecting the position of the second bracket;

the first bracket detection device is used for detecting the position of the first bracket;

the stabilizer bar support detection device is used for detecting the position of the stabilizer bar support;

the spring disc detection device is used for detecting the position of the spring disc;

the bracket detection device is used for detecting the position of the bracket and the shape of the opening of the bracket;

the cylinder body detection device is used for detecting the precision of the cylinder body of the oil storage cylinder.

In the scheme, the bracket opening positioning block 3 and the second barrel body positioning plate 9 are respectively used for supporting different ends of an oil storage barrel assembly to be measured, after the supporting is completed, the positions of the second brackets and the accuracy of the second bracket holes are respectively measured by adopting the second bracket detection device, the positions of the first brackets and the accuracy of the first bracket holes are respectively measured by adopting the first bracket detection device, the positions of the stabilizer bar brackets and the accuracy of the holes on the stabilizer bar brackets are respectively measured by adopting the stabilizer bar bracket detection device, the positions of the spring discs and the accuracy of the positioning holes are measured by adopting the spring disc detection device, the positions of the bracket holes and the accuracy of the bracket holes are measured by adopting the bracket hole detection device, and the accuracy of the barrel body is measured by adopting the barrel body detection device, so that the purpose of judging the manufacturing accuracy of the oil storage barrel assembly is achieved. According to the scheme, after the oil storage cylinder assembly is fixed in position, all key processing characteristics and shape characteristics of the oil storage cylinder assembly are detected, the detection purpose can be achieved by clamping the oil storage cylinder assembly once, and the detection efficiency is high.

As technicians in the field, the detection devices can adopt corresponding sensors, the scheme adopts a contact detection means, and scales or marks are preset, wherein the scales or marks represent qualified marks made between the distance measuring blocks and the support plates or the comprehensive positioning plate 6 after the qualified oil storage cylinder is installed and the distance measuring blocks slide and the position is determined; when the oil storage cylinder assembly is detected, after the distance measuring block stretches, the position of the qualified mark is just between the distance measuring block and the supporting plate or the comprehensive positioning plate, and the position of the key part of the oil storage cylinder assembly can be judged to be qualified; or when the distance measuring block is directly extended to the dead point position, the tail end of the distance measuring block is just contacted with a part to be tested to judge whether the position of the oil storage cylinder assembly is qualified; and setting the radius of each measuring pin to be the same as that of the hole of the corresponding part, and judging whether each measuring pin can be embedded into the hole to be measured through sliding to judge whether the hole of each part is qualified.

Example 2:

as shown in fig. 1 to 4, the present embodiment is further defined on the basis of embodiment 1:

as a specific scheme of the bracket detection device, the bracket detection device is provided with the following components: still including setting up the comprehensive locating plate 6 of 3 both sides of bracket opening locating piece, bracket detection device includes: the device comprises a bracket hole positioning pin 21 and a first pin hole which is arranged on a comprehensive positioning plate 6 and matched with the bracket hole positioning pin 21, wherein after a bracket opening is embedded into a bracket opening positioning block 3 and a cylinder body is contacted with a first supporting plate 4, the bracket hole positioning pin 21 corresponds to a bracket hole of a bracket, and the accuracy of the bracket hole is judged by judging whether the bracket hole positioning pin 21 can be embedded into the bracket hole; if the bracket hole can be inserted, the bracket hole is satisfactory, and if the bracket hole cannot be inserted, the bracket hole is unsatisfactory.

As a specific scheme of the cylinder body detection device, the cylinder body detection device is provided with the following steps: the bottom plate 1 is rectangular, a reference shaft strip 2 with the length equal to that of the bottom plate 1 is arranged at the center of the bottom plate 1 in the width direction, and a third supporting plate 11 which is fixed on the bottom plate 1 and is positioned on one side, away from the bracket opening positioning block 3, of the second barrel positioning plate 9 is further arranged; the device comprises a first supporting plate 4 connected with one side of a bracket opening positioning block 3 far away from a first barrel positioning plate 9I, wherein the first supporting plate 4 is fixed on a bottom plate 1, and the center lines of the first supporting plate 4 and a third supporting plate 11 in the length direction are superposed with a reference shaft strip 2;

the shaft detection device includes: a first barrel body positioning plate 8 and a second barrel body positioning plate 9 which are arranged on a bottom plate between the second supporting plate 22 and the comprehensive positioning plate 6 and used for supporting the barrel body of the oil storage barrel, and a groove, a first supporting plate 4 and a third supporting plate 11 which are matched with the barrel body of the oil storage barrel are arranged on the two positioning plates;

the one end of the oil storage cylinder assembly that will need to detect is embedded into on the bracket opening locating piece 3, if can imbed then the bracket opening is qualified, the one end and the contact of first backup pad 4 of oil storage cylinder will store the oil cylinder assembly and put down, if the stack shell can be placed between first backup pad 4 and the third backup pad 11, then the length of its stack shell is suitable, observes the recess of stack shell and first stack shell locating plate 8 and second stack shell locating plate 9 again and whether cooperates just, if the cooperation then the stack shell meets the requirements, if not then unsatisfied the requirement of cooperation.

As a specific implementation scheme of the first support detection device, the following steps are set: the first rack detecting device includes: the device comprises a first supporting plate 4, a second pin hole arranged on the first supporting plate 4, a plurality of first measuring pins 5, a first distance measuring block 7 and a first through hole arranged on a comprehensive positioning plate 6;

the first distance measuring blocks 7 are respectively arranged on the two comprehensive positioning plates 6, the first measuring pin 5 is matched with the second pin hole, the first through hole is matched with the first distance measuring block 7, and the sliding direction of the first measuring pin 5 in the second pin hole is parallel to the bracket opening positioning block 3; the first distance measuring block 7 is slidable towards the first carriage position;

after the bracket opening is embedded into the bracket opening positioning block 3, the first distance measuring block 7 slides in the first through hole of the comprehensive positioning plate 6 by using a handle, when the first distance measuring block 7 is contacted with the first bracket, the first distance measuring block is limited by using a screw, and whether the distance is the same as the preset distance is observed; and then sliding the first measuring pin 5 on the first support plate 4 to observe whether the distance between the first measuring pin and the hole of the first support can pass through and the test can meet the requirement, wherein the hole of the first support can be embedded, the requirement can be met, and the requirement cannot be met if the distance cannot be met.

As a specific implementation scheme of the second bracket detection device, the following steps are set: the second stent detecting device includes: the measuring device comprises a second measuring block 17, a second distance measuring block 15, a second measuring pin 16, a third pin hole formed in the second measuring block 16 and a second through hole formed in the comprehensive positioning plate 6;

the second measuring block 17 is fixed between the bracket opening block 3 and the comprehensive positioning plate 6, the second measuring pin 16 can slide in the third pin hole along the length direction of the bracket opening positioning block, and the second distance measuring block 15 slides to a second bracket position;

after the bracket opening is embedded into the bracket opening positioning block 3, the second distance measuring block 15 slides in the comprehensive positioning plate 6 through the handle, and when the second distance measuring block is in contact with the second support, the second distance measuring block 15 is limited through a screw; the second measuring pin 16 slides along the third pin hole, and then whether the second measuring pin 16 can be inserted into the second bracket hole and whether the second distance measuring block 15 meets a preset value is determined to determine the accuracy of the second bracket: the second support hole can be embedded, the distance is a preset value, the position of the second support meets the requirement, the second support hole cannot be embedded, or the distance is not a preset value, and the second support does not meet the requirement.

As a concrete implementation scheme of stabilizer bar support detection device: stabilizer bar support detection device includes: a stabilizer bar measuring block 20, a stabilizer bar measuring pin 19, a stabilizer bar distance measuring block 18, a second support plate 22, and a fourth pin hole provided in the stabilizer bar measuring block 20;

after the bracket opening is embedded into the bracket opening positioning block 3, the second support plates 22 are positioned at both sides of the stabilizer bar support, the stabilizer bar measuring block 20 and the stabilizer bar distance measuring block 18 are arranged on the second support plates 22, and the stabilizer bar measuring pin 19 can slide in the fourth pin hole;

the accuracy of the stabilizer bar bracket is judged by whether the stabilizer bar measuring pin 19 can be inserted into the hole of the stabilizer bar bracket and the distance tested by the stabilizer bar distance measuring block 18: can imbed stabilizer bar mounting hole and distance and reach preset value, then the stabilizer bar support satisfies the requirement, can not imbed stabilizer bar mounting hole or apart from the non-setting value, the unsatisfied requirement of stabilizer bar support.

As a concrete implementation scheme of the spring holder testing device: the spring holder detection device includes: the measuring device comprises a third supporting plate 11, a third measuring nail 12, a first measuring nail 13, a second measuring nail 14 and a fourth measuring nail 10, wherein the third supporting plate 11 is arranged on one side, away from the first supporting plate 4, of the second barrel body positioning plate 9 and fixed on the bottom plate 1, a guide sleeve matched with any measuring nail is annularly distributed on the third supporting plate 11, and the measuring nails can slide in the guide sleeve;

after the bracket opening is embedded into the bracket opening positioning block 3, the four measuring nails respectively correspond to the positioning holes on the spring disc, and when the second measuring nail 14 slides in the guide sleeve, whether the second measuring nail can be embedded into the positioning hole corresponding to the spring disc or not and the other measuring nails are separated from the distance extending out of the third supporting plate 11 to judge the precision of the spring disc: the spring disc can be embedded into the positioning hole of the spring disc, the extending distance of the spring disc is a preset value, the spring disc meets the requirement, and if a distance which cannot be embedded into or extends from the measuring nail is not a preset value, the spring disc does not meet the requirement.

The second distance measuring block 15 slides in the comprehensive positioning plate 6 through a handle (the sliding distance is limited through a screw), and the second measuring pin 16 slides in the second measuring block 17 through the handle (the sliding distance is limited through a strip-shaped lock hole); the first distance measuring block 7 slides in the comprehensive positioning plate 6 through a handle (the sliding distance is limited through a screw), and the first measuring pin 5 slides in the first supporting plate 4 through the handle (the sliding distance is limited through an elastic retainer ring); the stabilizer bar distance measuring block 18 slides in the second support plate 22 through a handle (the sliding distance is limited through a screw), and the stabilizer bar measuring pin 19 slides in the stabilizer bar measuring block 20 through a handle (the sliding distance is limited through a strip-shaped lock hole); a. b, c and d four-point measuring nails slide in guide sleeves on the lift point supporting seats; the bracket hole positioning pins 21 slide in the integrated positioning plate 6.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. A comprehensive detection measuring tool for an oil storage cylinder assembly comprises: bottom plate (1) and install the determine module on bottom plate (1), store an oil section of thick bamboo subassembly and include: the detection assembly comprises a bracket opening positioning block (3), a second barrel body positioning plate (9), a second bracket detection device, a first bracket detection device, a stabilizer bar bracket detection device, a spring disc detection device, a bracket detection device and a barrel body detection device, wherein the bracket opening positioning block (3), the second barrel body positioning plate (9), the second bracket detection device, the first bracket detection device, the stabilizer bar bracket detection device, the spring disc detection device, the bracket detection device and the barrel body detection device are arranged on a bottom plate (1);

the bracket opening positioning block (3) is used for supporting one end of the oil storage cylinder assembly, which is provided with a bracket opening, and the second cylinder body positioning plate (9) is used for supporting one end of the oil storage cylinder assembly, which is provided with a spring disc;

the second bracket detection device is used for detecting the position of the second bracket;

the first bracket detection device is used for detecting the position of the first bracket;

the stabilizer bar support detection device is used for detecting the position of the stabilizer bar support;

the spring disc detection device is used for detecting the position and the shape of the spring disc;

the bracket detection device is used for detecting the position shape of the bracket;

the cylinder body detection device is used for detecting the accuracy of the oil storage cylinder body.

2. The comprehensive detection measuring tool for the oil storage cylinder assembly according to claim 1, further comprising comprehensive positioning plates (6) arranged at both sides of the bracket opening positioning block (3), and a supporting plate connected with one side of the bracket opening positioning block (3) away from the second cylinder body positioning plate (9) and arranged as a first supporting plate (4), wherein the first supporting plate (4) is fixed on the bottom plate (1).

3. The comprehensive detection measuring tool for the oil storage cylinder assembly according to claim 2, further comprising a reference shaft bar (2), a support plate arranged on the bottom plate (1) and positioned on one side of the second cylinder body positioning plate (9) far away from the bracket opening positioning block (3), and a third support plate (11);

the base shaft strip (2) is a linear strip arranged on the bottom plate (1), the center line of the bracket opening positioning block (3) in the width direction coincides with the base shaft strip (2), and the center line of the third supporting plate (11) in the length direction coincides with the base shaft strip (2).

4. The integrated measuring tool of claim 1, wherein the stabilizer bar holder detecting means comprises: the stabilizer bar measuring device comprises a stabilizer bar measuring block (20), a stabilizer bar measuring pin (19), a stabilizer bar distance measuring block (18), a second supporting plate (22) and a fourth pin hole arranged in the stabilizer bar measuring block (20);

after the bracket opening is embedded into the bracket opening positioning block (3), the second supporting plates (22) are positioned at two sides of the stabilizer bar bracket, the stabilizer bar measuring block (20) and the stabilizer bar distance measuring block (18) are arranged on the second supporting plates (22), and the stabilizer bar measuring pin (19) can slide in the fourth pin hole;

the precision of the stabilizer bar support is judged by whether the stabilizer bar measuring pin (19) can be embedded into the hole of the stabilizer bar support and the distance tested by the stabilizer bar distance measuring block (18): can imbed stabilizer bar mounting hole and distance and reach preset value, then the stabilizer bar support satisfies the requirement, can not imbed stabilizer bar mounting hole or apart from the non-setting value, the unsatisfied requirement of stabilizer bar support.

5. The integrated measuring tool for detecting the oil storage cylinder assembly according to claim 1, wherein the cylinder body detecting device comprises: a first barrel body positioning plate (8) and a second barrel body positioning plate (9) which are arranged on the bottom plate (1) and used for supporting a barrel body of the oil storage barrel, wherein grooves matched with the barrel body of the oil storage barrel, a first supporting plate (4) and a third supporting plate (11) are respectively arranged on the two barrel body positioning plates;

after a bracket opening is embedded into a bracket opening positioning block (3), the precision of the oil storage cylinder body is judged by judging whether the oil storage cylinder body can be matched with the groove: the cylinder body can be matched with the groove, so that the cylinder body meets the requirement, and cannot be matched with the groove, so that the cylinder body does not meet the requirement;

the distance between the first supporting plate (4) and the third supporting plate (11) is the maximum value of the allowed size of the oil storage cylinder.

6. The integrated measuring tool for measuring the oil storage cylinder assembly according to claim 2, wherein the bracket detecting means comprises: the device comprises a bracket hole positioning pin (21) and a first pin hole which is arranged on a comprehensive positioning plate (6) and matched with the bracket hole positioning pin (21), wherein a bracket opening positioning block (3) is embedded in a bracket opening, and after a cylinder body is contacted with a first supporting plate (4), the bracket hole positioning pin (21) corresponds to a bracket hole of a bracket, and the accuracy of the bracket hole is judged by judging whether the bracket hole positioning pin (21) can be embedded into the bracket hole; if the bracket hole can be inserted, the bracket hole is satisfactory, and if the bracket hole cannot be inserted, the bracket hole is unsatisfactory.

7. The integrated measuring tool for measuring the oil storage cylinder assembly according to claim 2, wherein the first supporting frame detecting means comprises: the device comprises a first supporting plate (4), a second pin hole arranged on the first supporting plate (4), a plurality of first measuring pins (5), a first distance measuring block (7) and a first through hole arranged on a comprehensive positioning plate (6);

the first distance measuring blocks (7) are respectively arranged on the two comprehensive positioning plates (6), the first measuring pins (5) are matched with the second pin holes, the first through holes are matched with the first distance measuring blocks (7), and the sliding directions of the first measuring pins (5) in the second pin holes are parallel to the bracket opening positioning blocks (3); the first distance measuring block (7) can slide towards the first bracket position;

after the bracket opening is embedded into the bracket opening positioning block (3), the first measuring pin (5) slides along the second pin hole, and the accuracy of the first bracket is judged according to whether the first measuring pin (5) can be embedded into the first bracket hole and the distance measured by the first distance measuring block (7): can imbed first support hole and apart from being preset value, then first support hole satisfies the requirement, can not imbed first support hole or apart from the unset value, and first support is unsatisfied the requirement.

8. The integrated measuring tool for measuring the oil storage cylinder assembly according to claim 2, wherein the second bracket detecting means comprises: the device comprises a second measuring block (17), a second distance measuring block (15), a second measuring pin (16), a third pin hole formed in the second measuring block (17), and a second through hole formed in a comprehensive positioning plate (6);

the second measuring block (17) is fixed between the bracket opening positioning block (3) and the comprehensive positioning plate (6), the second measuring pin (16) can slide in the third pin hole along the length direction of the bracket opening positioning block (3), and the second distance measuring block (15) can slide in the second through hole to a second bracket position;

after the bracket opening is embedded into the bracket opening positioning block (3), the second measuring pin (16) slides along the third pin hole, and the precision of the second support hole is judged according to whether the second measuring pin (16) can be in the second support hole and the distance measured by the second distance measuring block (15): the second support hole can be embedded, the distance is a preset value, the position of the second support meets the requirement, the second support hole cannot be embedded, or the distance is not a preset value, and the second support does not meet the requirement.

9. The integrated measuring tool of claim 1, wherein the spring holder detecting means comprises: the device comprises a third supporting plate (11), third measuring nails (12), first measuring nails (13), second measuring nails (14) and fourth measuring nails (10), wherein the third supporting plate (11) is arranged on one side, away from the first supporting plate (4), of a second barrel body positioning plate (9) and fixed on a bottom plate (1), guide sleeves matched with any measuring nail are annularly distributed on the third supporting plate (11), and the measuring nails can slide in the guide sleeves;

after a bracket opening is embedded into a bracket opening positioning block (3), the four measuring nails respectively correspond to positioning holes in the spring disc, and when the second measuring nail (14) slides in the guide sleeve, whether the four measuring nails can be embedded into the positioning holes corresponding to the spring disc, and whether the third measuring nail (12), the first measuring nail (13) and the fourth measuring nail (10) extend out of the third supporting plate (11) are used for judging the precision of the spring disc: the spring disc can be embedded into the positioning hole of the spring disc, the extending distance of the spring disc is a preset value, the spring disc meets the requirement, and if a distance which cannot be embedded into or extends from the measuring nail is not a preset value, the spring disc does not meet the requirement.

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