CN114623748B - Automobile mold thickness detection equipment - Google Patents

Abstract

The invention relates to the technical field of automobile die detection and discloses automobile die thickness detection equipment, which comprises a micrometer and a micrometer screw rod in the micrometer, wherein a differential cylinder is arranged on the outer side of the micrometer, a fixed scale is arranged on one side of the micrometer, an extension cylinder is arranged at one end of the micrometer, a supporting rotary cylinder is arranged at one end of the extension cylinder, a fixed bayonet lock is arranged at one end of the supporting rotary cylinder, a damping rotary cylinder is arranged at the other end of the supporting rotary cylinder, and an auxiliary supporting shaft is arranged at one end of the damping rotary cylinder. According to the invention, through the cooperation of the support bearing, the transverse rotating shaft and the support frame, the multi-angle rotation adjustment of the jack-up pile can be realized, the jack-up pile can be accurately and correspondingly calibrated with the micrometer screw, and through the cooperation of the threaded friction rod and the spherical pin, the jack-up pile can be ensured to be fixed at any angle, so that the jack-up pile can be matched with the high flexibility of the device, and the requirements of calibration and detection can be met.

Description

Automobile mold thickness detection equipment

Technical Field

The invention relates to the technical field of automobile mold detection, in particular to automobile mold thickness detection equipment.

Background

The most important component of automotive molds is the overlay mold, which is primarily a cold die. An "automobile die" in a broad sense is a die generic term for manufacturing all parts on an automobile, for example, a stamping die, an injection die, a forging die, a casting wax die, a glass die, etc., and a stamping part on an automobile body is largely divided into a covering part, a beam frame part and a general stamping part, and the stamping part capable of obviously representing the image characteristics of the automobile is an automobile covering part. Therefore, the more specific automobile die can be called as an automobile panel stamping die, namely an automobile panel stamping die for short, and the device is thickness detection equipment for the automobile die.

In the prior art, chinese patent CN202111125401.6 discloses an apparatus for detecting thickness of an automobile mold, which comprises a housing 11, a first motor 18 is fixed in the housing 11, the upper end surface of the first motor 18 is rotationally connected with a first rotating shaft 17, the upper end surface of the first rotating shaft 17 is fixedly provided with a rotating block 15 rotationally connected with the housing 11, the rotating block 15 is internally provided with a rotating cavity 16, the bottom surface of the rotating cavity 16 is fixedly provided with four hydraulic cylinders 21 with uniformly distributed positions, the upper end surfaces of the four hydraulic cylinders 21 are fixedly provided with a carrying platform 46, the upper end surface of the carrying platform 46 is fixedly provided with a fixing device 101 capable of fixing the automobile mold, a polishing cavity 12 penetrating through the left wall of the rotating block 15 and having an opening facing the center of the circle is arranged in the housing 11, the left wall of the polishing cavity 12 is fixedly provided with a first mechanical arm 13, the right end surface of the first mechanical arm 13 is fixedly provided with a polishing box 14, the grinding box 14 is internally provided with a flexible cavity 51, the flexible cavity 51 is internally and slidably connected with a U-shaped plate 53, the flexible cavity 51 is internally provided with a magnetic attraction device 102 capable of pushing the U-shaped plate 53 to move up and down, the shell 11 is internally provided with a drawing cavity 22 penetrating through the right wall of the rotating block 15 and having an opening facing the circle center, the right wall of the drawing cavity 22 is fixedly provided with a second mechanical arm 24, the left end face of the second mechanical arm 24 is fixedly provided with a drawing machine 23, the shell 11 is internally provided with a first flexible cavity 37 penetrating through the front wall of the rotating block 15 and having an opening facing the back, the shell 11 is internally provided with a second flexible cavity 71 penetrating through the back wall of the rotating block 15 and having an opening facing the front, the second flexible cavity 71 and the first flexible cavity 37 are internally provided with a flexible device 103 having a flexible function, the upper end face of the shell 11 is fixedly provided with a broad-spectrum scanner 27, the front wall and the rear wall of the shell 16 are internally provided with waste ports 45 which are symmetrical in position and penetrate through the outer side face of the shell 11. The automobile mould thickness measuring device has the advantages that by the aid of the broad spectrum detector, the grinding block and the carving machine, whether the automobile mould thickness is qualified or not can be confirmed after the measurement of the length, the thickness or the similar linear dimensions is carried out, the whole automobile mould thickness is reduced by grinding firstly, and then the carving machine is used for carving, so that the waste problem that the automobile mould is scrapped due to unqualified dimensions is avoided, welding points on the automobile mould are avoided, and the automobile mould thickness measuring device has the advantages of being high in precision and saving resources.

However, since the automobile mold usually has various shapes, the existing detection tool is difficult to detect the thickness of the mold in different shapes, and the detection is inconvenient, when the detection is performed, the external structure of the detection equipment is difficult to change according to the current mold shape so as to adapt to various detection structures, the detection mode of the detection structure is single, and the detection operation on the deeper detected structure is difficult.

In view of the above, the present invention provides an apparatus for detecting thickness of an automobile mold, so as to solve the technical problems existing in the prior art.

Disclosure of Invention

The invention provides an automobile die thickness detection device which has the beneficial effects of multifunctional data detection and solves the problems that in the background art, an automobile die is usually provided with various shapes, a conventional detection tool is difficult to detect the thickness, the detection is inconvenient, the external structure of the detection device is difficult to change according to the current die shape during detection so as to adapt to various detection structures, the detection mode of the detection structure is single, and the detection operation on a deeper detected structure is difficult to carry out.

The invention provides the following technical scheme: the utility model provides an automobile die thickness check out test set, includes micrometer and micrometer internal micrometer screw rod, micro-cylinder is installed in the outside of micrometer, one side of micrometer is equipped with fixed scale, extension bobbin is installed to the one end of micrometer, support rotary drum is installed to the one end of extension bobbin, be equipped with fixed bayonet lock is installed to the one end of support rotary drum, the damping rotary drum is installed to the other end of support rotary drum, auxiliary support axle is installed to the one end of damping rotary drum, the bending rubber sleeve is all installed at auxiliary support axle's both ends, the grip bracing piece is installed to one side of auxiliary support axle, the one end and the auxiliary support axle of grip bracing piece pass through the bending rubber sleeve and are connected, the turn support section of thick bamboo is still installed to the one end of grip bracing piece, the one end of turn support section of thick bamboo is equipped with the connecting axle, the stake is installed in the outside of connecting axle, the internally mounted of bending rubber sleeve has the anti-bending rubber sleeve bar;

The inside of auxiliary support axle is installed and is supported fixed endotheca, the internally mounted who supports fixed endotheca has the supporting screw rod, the one end of supporting screw rod is equipped with adjusting bolt, the pivot base is installed to the one end of supporting screw rod, the connecting plate is installed to the one end of pivot base, thin steel cable is still installed to the inside of crooked gum cover, the one end and the connecting plate of thin steel cable are connected, the other end and the handle bracing piece of thin steel cable are fixed.

When the bending rubber sleeve is bent, a supporting structure is needed to be additionally arranged in the bending rubber sleeve to play a supporting role when the bending rubber sleeve is bent, and the bending rubber sleeve is used as an alternative scheme of the thickness detection equipment for the automobile die, wherein: an inner supporting shaft rod is arranged at the middle position inside the bending rubber sleeve, a polygonal fixing frame is arranged at one end of the inner supporting shaft rod, and an elastic inner shaft is arranged at the middle position of the inner supporting shaft rod.

Providing a limit supporting structure for a thin steel rope, as an alternative scheme of the thickness detection device of the automobile mould, wherein: the outer support spring is installed to the one end of pivot base, the one end and the connecting plate of outer support spring are connected, the telescopic shaft is installed to the one end of pivot base, the supporting spring is installed in the outside of telescopic shaft, spacing key seat is installed in the outside of thin steel wire, spacing key seat is used for locating thin steel wire.

A movable limiting structure is additionally arranged between the micrometer and the extension tube barrel, and the movable limiting structure is used as an alternative scheme of the automobile mold thickness detection equipment, wherein: the one end of micrometer is equipped with the connection flat pin, the inside of connection flat pin is equipped with the fixed orifices, the one end of extension bobbin is equipped with extends the axostylus axostyle, the inside of extending the axostylus axostyle is equipped with interior spacing groove, the inside symmetry of extending the axostylus axostyle still is equipped with the activity cross slot, the internally mounted of fixed orifices has the location interior axle, the location interior axle is used for passing in fixed orifices and the activity cross slot.

An angle limiting structure is provided for the angle between the micrometer and the extension tube, and the angle limiting structure is used as an alternative scheme of the automobile die thickness detection device, wherein: the one end of micrometer is equipped with the benchmark and keeps out the board, the one end that extends the axostylus axostyle is equipped with the right angle constant head tank, the both ends of connecting the flat round pin are equipped with the location bayonet lock, the location bayonet lock is used for the card to go into the inside of right angle constant head tank, the outside of extending the bobbin is equipped with the spout, the outside of spout is installed the external stay spring, the outside of micrometer is equipped with external fixation screw thread, the external stay spring is used for the cover to establish in the external fixation screw thread outside.

The invention provides a rotating function for a micrometer and an extension tube, and is used as an alternative scheme of the automobile mould thickness detection device, wherein: the other end of the extension tube is provided with an L-shaped groove, one end of the support rotary drum is provided with a fixed bayonet lock, the fixed bayonet lock is used for being clamped into the L-shaped groove, and one end of the auxiliary support shaft is also provided with an external thread port.

The fixing degree between the L-shaped groove and the fixing bayonet is greatly improved, and the fixing degree is used as an alternative scheme of the automobile mold thickness detection equipment, wherein: one end of the L-shaped groove is provided with a groove, and the groove is used for improving the engagement degree of the fixed bayonet lock and the L-shaped groove.

The invention provides an outward supporting force for a fixed bayonet lock, ensures that the fixed bayonet lock can be clamped into a groove, and is used as an alternative scheme of the automobile mould thickness detection device, wherein: an external supporting spring is arranged in the extension tube barrel.

The multi-angle rotation function of the jacking pile is added, and the multi-angle rotation function is taken as an alternative scheme of the thickness detection equipment for the automobile mould, wherein: the support bearing is installed to the one end of connecting axle, the support frame is installed to the outside of support bearing, the one end of support frame is connected with the one end of stake.

The invention provides a positioning function of any angle for a pile, and is used as an alternative scheme of the thickness detection equipment of the automobile mould, wherein: the fixed knob is installed to one side of support bearing, the one end of fixed knob is equipped with the screw thread friction lever, support bearing's internally mounted has horizontal pivot, horizontal pivot is used for fixing the support frame in the support bearing outside, the intermediate position of horizontal pivot is equipped with spherical pin.

The invention has the following beneficial effects:

1. This car mould thickness check out test set through crooked gum cover and extend between bobbin and the support bearing outer structure, can guarantee that the device can possess the testing function of multiple angle to device structure degree of freedom is higher, can change the structural morphology of device according to the required measuring external shape of mould, thereby makes the device possess highly free detection mode, and applicable in the detection operation of multiple product.

2. This car mould thickness check out test set through extending the cooperation of connection structure between tube and the micrometer, can guarantee that the micrometer realizes columnar structure, carries out degree of depth detection, makes micrometer and extension tube still possess perpendicular measuring function to the cooperation of accessible handle bracing piece and auxiliary stay axle and turn support tube is prolonged, guarantees the length support of device, thereby makes the device possess degree of depth detection function.

3. This automotive mold thickness check out test set through the cooperation of support bearing with horizontal pivot and support frame, can realize the multi-angle rotation regulation of stake, makes the stake can be accurate correspond the calibration with the micrometer screw rod to through the cooperation of screw friction pole and spherical round pin, can guarantee that the stake can be fixed at arbitrary angle, thereby can cooperate with the high flexibility of device, accomplish calibration and detection demand.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of the connection structure of the micrometer with the extension tube and the support drum.

FIG. 3 is a schematic view of the internal structure of the auxiliary supporting shaft of the present invention.

FIG. 4 is a schematic view of the structure of the inner support shaft of the present invention.

Fig. 5 is a schematic side view of the internal structure of the auxiliary supporting shaft of the present invention.

FIG. 6 is a schematic view of the internal structure of the support bearing of the present invention.

FIG. 7 is a schematic view of the connection structure of the friction lever and the ball pin according to the present invention.

In the figure: 1. a micrometer; 2. a micrometer screw; 3. a micro-cylinder; 4. fixing the scales; 5. an extension tube; 6. supporting the rotary drum; 7. fixing the bayonet lock; 8. a damping drum; 9. an auxiliary support shaft; 10. an external threaded port; 11. turning the supporting cylinder; 12. a connecting shaft; 13. a support bearing; 14. a support frame; 15. fixing a knob; 16. jacking piles; 17. a handle support rod; 18. an adjusting bolt; 19. bending the rubber sleeve; 20. a chute; 21. an external fixation thread; 22. a connecting flat pin; 23. a fixing hole; 24. positioning bayonet lock; 25. positioning the inner shaft; 26. an outer support spring; 27. an extension shaft; 28. an inner limit groove; 29. a movable transverse groove; 30. a right angle positioning groove; 31. an L-shaped groove; 32. a groove; 33. supporting and fixing the inner sleeve; 34. a support screw; 35. a rotating shaft base; 36. a telescopic shaft; 37. a support spring; 38. a connecting plate; 39. a thin steel rope; 40. a limit pin seat; 41. an inner support shaft; 42. a polygonal fixing frame; 43. an elastic inner shaft; 44. a transverse rotating shaft; 45. a ball pin; 46. a threaded friction rod; 47. bending-resistant bar rods; 48. and a reference abutment plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The automobile die is generally provided with various shapes, a conventional detection tool is difficult to detect thickness, and the detection is inconvenient, when the detection is performed, the external structure of the detection device is difficult to change according to the current die shape, please refer to fig. 1-7, wherein the automobile die thickness detection device comprises a micrometer 1 and a micrometer screw 2 in the micrometer 1, a micro-cylinder 3 is installed at the outer side of the fixed scale 4, the fixed scale 4 is arranged at one side of the micrometer 1, an extension tube 5 is installed at one end of the micrometer 1, a support rotary drum 6 is installed at one end of the extension tube 5, a fixed bayonet 7 is installed at one end of the support rotary drum 6, a damping rotary drum 8 is installed at the other end of the support rotary drum 6, an auxiliary support shaft 9 is installed at one end of the damping rotary drum 8, bending rubber sleeves 19 are installed at two ends of the auxiliary support shaft 9, a support rod 17 is installed at one side of the auxiliary support shaft 9, one end of the support rod 17 is connected with the auxiliary support shaft 9 through the bending rubber sleeves 19, a support rod turning support cylinder 11 is also installed at one end of the support rod 11, a connecting shaft 12 is arranged at one end of the support rod 11, a bending pile 19 is installed at the outer side of the connecting shaft 12 is provided with a bending rubber sleeve 47;

The inside of the auxiliary support shaft 9 is provided with a support fixing inner sleeve 33, the inside of the support fixing inner sleeve 33 is provided with a support screw 34, one end of the support screw 34 is provided with an adjusting bolt 18, one end of the support screw 34 is provided with a rotating shaft base 35, one end of the rotating shaft base 35 is provided with a connecting plate 38, the inside of the bending rubber sleeve 19 is also provided with a thin steel rope 39, one end of the thin steel rope 39 is connected with the connecting plate 38, and the other end of the thin steel rope 39 is fixed with the handle support rod 17.

When the device is used, the angle of the micrometer 1 can be converted through the rotating shaft structure of the damping rotary drum 8, the dial gauge is converted to a proper observation angle, the adjusting bolt 18 can be rotated through the matching of the bending rubber sleeve 19 and the handle supporting rod 17, the adjusting bolt 18 can be rotated through the inner hexagonal wrench, the sliding distance adjustment can be realized through the threaded engagement state of the supporting screw 34 and the supporting fixed inner sleeve 33, the supporting screw 34 can be driven to realize the sliding distance adjustment, the number of the thin steel ropes 39 and the supporting fixed inner sleeve 33 is eight, the bending rubber sleeve 19 is divided into eight bending directions, the thin steel ropes 39 at the current position are pulled, the thin steel ropes 39 are contracted inwards, the bending rubber sleeve 19 in the specified direction is pulled to contract inwards, the bending state is formed, the supporting screw 34 in the symmetrical direction is required to be loosened to the maximum distance at the moment, the bending rubber sleeve 19 is guaranteed to form the specified bending angle, the device can be adjusted according to the measured structure of the die, the sizes of the supporting screw 34 and the thin steel ropes 39 are guaranteed to form the corresponding bending angle, and the bending rubber sleeve 19 is distributed in each bending structure, so that the device can be used for detecting the bending angle, the device can be changed according to the internal bending angle, the detecting operation of the device is convenient, and the device can be adapted to the detecting operation, and the device can be adapted to the detecting device.

Example 2

The present embodiment is an improvement made on the basis of embodiment 1, and specifically referring to fig. 1-7, an inner supporting shaft 41 is installed at a middle position inside the curved rubber sleeve 19, a polygonal fixing frame 42 is installed at one end of the inner supporting shaft 41, and an elastic inner shaft 43 is installed at a middle position of the inner supporting shaft 41.

When the bending rubber sleeve 19 is bent by pulling the corresponding thin steel rope 39, the elastic inner shaft 43 is pulled to simultaneously bend, and when the bending rubber sleeve is bent, the elastic inner shaft 43 plays a role in supporting and connecting for connecting parts at two ends of the bending rubber sleeve 19, meanwhile, the bending range of the bending rubber sleeve 19 is limited, the bending range of the bending rubber sleeve 19 is prevented from being larger, the bending radian is influenced, and therefore the supporting strength of the bending rubber sleeve 19 is increased, and the limiting effect of the bending radian of the bending rubber sleeve is enhanced.

Example 3

When the supporting screw 34 is stretched, the buffer structure is lacking, so that the thin steel rope 39 is easy to be excessively tightened to cause damage, meanwhile, the thin steel rope 39 is lack of the supporting and fixing structure, so that the thin steel rope 39 can affect the use of other structures when being stretched, the embodiment is an improvement based on the embodiment 2, specifically, referring to fig. 1-7, an outer supporting spring 26 is installed at one end of a rotating shaft base 35, one end of the outer supporting spring 26 is connected with a connecting plate 38, a telescopic shaft 36 is installed at one end of the rotating shaft base 35, a supporting spring 37 is installed at the outer side of the telescopic shaft 36, a limiting pin seat 40 is installed at the outer side of the thin steel rope 39, and the limiting pin seat 40 is used for positioning the thin steel rope 39.

When the thin steel rope 39 is pulled, the pressure is transmitted to the position of the telescopic shaft 36, then the supporting spring 37 absorbs the pressure, the pressure is buffered, the connecting plate 38 transmits the pressure to the position of the thin steel rope 39, the thin steel rope 39 is pulled to be limited by the limiting pin seat 40, the pressure slides in the limiting pin seat 40, the thin steel rope 39 line too bad is prevented from being influenced when the bending rubber sleeve 19 is bent, the supporting limiting structure is provided for the thin steel rope 39, and the thin steel rope 39 is ensured to slide according to a specified track.

Example 4

The lack of connection structure between extension tube 5 and micrometer 1 is difficult to carry out the angle turn, influence the holistic flexibility of device, this embodiment is the improvement of making on the basis of embodiment 1, specifically please refer to fig. 1-7, micrometer 1's one end is equipped with and connects flat pin 22, connect flat pin 22's inside is equipped with fixed orifices 23, extension tube 5's one end is equipped with extension axostylus axostyle 27, extension axostylus axostyle 27's inside is equipped with interior spacing groove 28, extension axostylus axostyle 27's inside symmetry still is equipped with movable transverse groove 29, fixed orifices 23's internally mounted has location interior axle 25, location interior axle 25 is used for passing fixed orifices 23 and movable transverse groove 29 in.

During the use, will connect the interior of interior spacing groove 28 with connecting flat pin 22 card, pass fixed orifices 23 and activity cross slot 29 inside simultaneously with location interior axle 25, make and form the pivot connected state between micrometer 1 and the extension tube 5, when micrometer 1 when using, can cooperate with extension tube 5, form multiple measurement angle, the mould measurement structure when adaptation device uses to when guaranteeing that the device is whole to be measured, can form multiple turning angle with other structure cooperation.

Example 5

The measurement accuracy of the micrometer 1 can be affected due to the fact that the angle between the micrometer 1 and the extension tube 5 is too large, when the length detection is carried out, the micrometer 1 and the extension tube 5 are required to be kept in a vertical state and limited and supported, the embodiment is an improvement based on the embodiment 4, specifically, referring to fig. 1-7, a reference bearing plate 48 is arranged at one end of the micrometer 1, a right-angle positioning groove 30 is arranged at one end of the extension shaft rod 27, positioning clamping pins 24 are arranged at two ends of the connection flat pin 22, the positioning clamping pins 24 are used for being clamped into the right-angle positioning groove 30, a sliding groove 20 is arranged at the outer side of the extension tube 5, an external supporting spring 26 is arranged at the outer side of the sliding groove 20, an external fixing thread 21 is arranged at the outer side of the micrometer 1, and the external supporting spring 26 is used for being sleeved outside the external fixing thread 21.

When the micrometer 1 and the extension tube 5 are bent, the positioning bayonet 24 is embedded into the right-angle positioning groove 30 to form a fixed state, a fixed support is provided for supporting the micrometer 1 and the micrometer screw 2, the angle between the micrometer 1 and the micrometer screw 2 comprises ninety degrees and one hundred eighty degrees, the outer supporting spring 26 is pulled out, the threads on the inner wall of the outer supporting spring 26 are screwed into the outer side of the outer fixed threads 21 to form a fixed state, so that one hundred eighty degrees of state is formed between the micrometer 1 and the extension tube 5, when the micrometer 1 and the extension tube 5 are positioned in the fixed state, the micrometer screw 2 and the reference abutment plate 48 can be horizontally aligned, the reference abutment plate 48 is contacted with a measured reference position, and the micrometer screw 2 is stretched into the measured position, so that the micrometer screw 2 can be subjected to depth and other detection operation modes, and the micrometer screw 2 has a high detection freedom.

Example 6

When the extension tube 5 and the micrometer 1 are used, the lack of an angle rotating structure and low flexibility are achieved, the embodiment is an improvement on the basis of the embodiment 1, specifically, referring to fig. 1-7, the other end of the extension tube 5 is provided with an L-shaped groove 31, one end of the supporting rotary drum 6 is provided with a fixed bayonet lock 7, the fixed bayonet lock 7 is used for being clamped into the L-shaped groove 31, and one end of the auxiliary supporting shaft 9 is further provided with an external thread port 10.

The one end that supports rotary drum 6 is annular array and has four fixed bayonet lock 7, during the use, will support the one end of rotary drum 6 and insert in the one end of extension bobbin 5, fixed bayonet lock 7 card goes into L-shaped groove 31 simultaneously, through L-shaped structure in L-shaped groove 31, will support the one end of rotary drum 6 to same direction rotation, make fixed bayonet lock 7 card go into L-shaped groove 31 inside, form fixed state, thereby make to extend between bobbin 5 and other structures and possessed the connected function, support rotary drum 6 simultaneously and possess the pivot effect, the angle that conveniently overturns micrometer 1 and extension bobbin 5, be convenient for observe the numerical value, and the turn over a direction of adjustment micrometer 1.

Example 7

The fixing degree between the L-shaped groove 31 and the fixing bayonet 7 is not stable enough, and is difficult to support other special situations, and the embodiment is an improvement made on the basis of embodiment 6, specifically, referring to fig. 1-7, one end of the L-shaped groove 31 is provided with a groove 32, and the groove 32 is used for improving the engagement degree between the fixing bayonet 7 and the L-shaped groove 31.

When the locking device is used, the fixed bayonet lock 7 is clamped in the L-shaped groove 31, and the locking device rotates clockwise, so that the fixed bayonet lock 7 is deeply clamped in the L-shaped groove 31 and is pulled backwards, and the fixed bayonet lock 7 is embedded into the groove 32 to form a locking state, so that the connection stability degree of the fixed bayonet lock 7 and the L-shaped groove 31 is enhanced, and the locking device can adapt to various operation conditions.

Example 8

When the fixing latch 7 is snapped into the groove 32, an outward force needs to be provided to one end of the supporting drum 6 to ensure that the present embodiment is an improvement on the basis of the embodiment 7, specifically, referring to fig. 1-7, the extension tube 5 is internally provided with the external supporting spring 26.

When the fixed bayonet lock 7 is clamped into the L-shaped groove 31, one end of the supporting rotary drum 6 is rotated clockwise, so that the fixed bayonet lock 7 is clamped into the groove 32 in a clockwise direction, and meanwhile, the supporting rotary drum 6 can be outwards pushed open under the action of the external supporting spring 26, so that the fixed bayonet lock 7 is driven to push towards the supporting rotary drum 6, the fixed bayonet lock 7 is clamped into the groove 32, and the pushing force is provided for the fixed bayonet lock 7, so that the fixed bayonet lock is always positioned in the groove 32.

Example 9

When the jack-up pile 16 is attached to one end of the micrometer screw 2, the angle of the jack-up pile needs to be corrected, the flexible rotation effect is ensured, the size detection of various angles is dealt with, in this embodiment, the improvement is made on the basis of embodiment 1, specifically, please refer to fig. 1-7, a supporting bearing 13 is installed at one end of the connecting shaft 12, a supporting frame 14 is installed at the outer side of the supporting bearing 13, and one end of the supporting frame 14 is connected with one end of the jack-up pile 16.

When the micro-screw detection device is used, the support bearing 13 can provide a vertical rotation function for the support frame 14, and is matched with the transverse rotating shaft 44 and the support frame 14, so that the two angles can be matched and rotated, the angle rotation effect of the top pile 16 is greatly increased, and the top pile 16 can have multiple matching actions with the micro-screw detection device 2 to cope with multiple detection conditions.

Example 10

The jack-stake 16 needs a positioning structure to ensure that it is fixed at a specified angle, this embodiment is an improvement made on the basis of embodiment 9, and in particular, referring to fig. 1-7, a fixing knob 15 is installed on one side of a support bearing 13, a threaded friction rod 46 is provided at one end of the fixing knob 15, a transverse rotating shaft 44 is installed inside the support bearing 13, the transverse rotating shaft 44 is used for fixing the support frame 14 on the outer side of the support bearing 13, and a spherical pin 45 is provided in the middle position of the transverse rotating shaft 44.

Through the rotation of the fixed knob 15, the threaded friction rod 46 is driven to rotate, so that the outer side of the threaded friction rod 46 and one end of the connecting shaft 12 form a spiral rotation state, the threaded friction rod 46 is driven to move towards the inner direction of the support bearing 13, meanwhile, one end of the threaded friction rod 46 is guaranteed to be attached to the spherical pin 45, one end of the threaded friction rod 46 is of a circular arc structure, the contact area between the threaded friction rod 46 and the spherical pin 45 can be greatly increased, the friction effect between the threaded friction rod 46 and the spherical pin 45 is increased, and the positioning function is improved.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (10)

1. An automobile mold thickness check out test set, its characterized in that: the micrometer comprises a micrometer (1) and a micrometer screw (2) in the micrometer (1), wherein a micro-cylinder (3) is arranged on the outer side of the micrometer (1), one side of the micrometer (1) is provided with a fixed scale (4), one end of the micrometer (1) is provided with an extension cylinder (5), one end of the extension cylinder (5) is provided with a support rotary cylinder (6), one end of the support rotary cylinder (6) is provided with a fixed bayonet lock (7), the other end of the support rotary cylinder (6) is provided with a damping rotary cylinder (8), one end of the damping rotary cylinder (8) is provided with an auxiliary support shaft (9), two ends of the auxiliary support shaft (9) are provided with bending rubber sleeves (19), one side of the auxiliary support shaft (9) is provided with a handle support rod (17), one end of the handle support rod (17) is connected with the auxiliary support shaft (9) through the bending rubber sleeves (19), one end of the handle support rod (17) is provided with a support cylinder (11), one end of the turning support rotary cylinder (11) is provided with a connecting shaft (12), and the turning end of the turning support cylinder (11) is provided with a bending rubber sleeve (47), and the connecting shaft (16) is provided with a bending rubber sleeve (47); the inside mounting of auxiliary stay axle (9) has fixed endotheca (33) of support, the internally mounted of fixed endotheca (33) of support has supporting screw (34), the one end of supporting screw (34) is equipped with adjusting bolt (18), pivot base (35) are installed to the one end of supporting screw (34), connecting plate (38) are installed to the one end of pivot base (35), thin steel cable (39) are still installed to the inside of crooked gum cover (19), the one end and the connecting plate (38) of thin steel cable (39) are connected, the other end and the handle bracing piece (17) of thin steel cable (39) are fixed.

2. The automotive mold thickness detection apparatus according to claim 1, characterized in that: an inner supporting shaft rod (41) is arranged at the middle position inside the bending rubber sleeve (19), a polygonal fixing frame (42) is arranged at one end of the inner supporting shaft rod (41), and an elastic inner shaft (43) is arranged at the middle position of the inner supporting shaft rod (41).

3. The automotive mold thickness detection apparatus according to claim 2, characterized in that: an outer supporting spring (26) is arranged at one end of the rotating shaft base (35), one end of the outer supporting spring (26) is connected with a connecting plate (38), a telescopic shaft (36) is arranged at one end of the rotating shaft base (35), a supporting spring (37) is arranged on the outer side of the telescopic shaft (36), a limiting pin seat (40) is arranged on the outer side of the fine steel rope (39), and the limiting pin seat (40) is used for positioning the fine steel rope (39).

4. The automobile mold thickness detection apparatus according to claim 3, wherein: one end of micrometer (1) is equipped with connects band pin (22), the inside of connecting band pin (22) is equipped with fixed orifices (23), the one end of extension bobbin (5) is equipped with extends axostylus axostyle (27), the inside of extending axostylus axostyle (27) is equipped with interior spacing groove (28), the inside symmetry of extending axostylus axostyle (27) still is equipped with activity cross slot (29), the internally mounted of fixed orifices (23) has location interior axle (25), location interior axle (25) are used for passing in fixed orifices (23) and the activity cross slot (29).

5. The automotive mold thickness detection apparatus according to claim 4, characterized in that: the one end of micrometer (1) is equipped with benchmark butt plate (48), the one end of extension axostylus axostyle (27) is equipped with right angle constant head tank (30), the both ends of connecting band pin (22) are equipped with location bayonet lock (24), location bayonet lock (24) are used for the card to go into the inside of right angle constant head tank (30), the outside of extension bobbin (5) is equipped with spout (20), outer support spring (26) are installed in the outside of spout (20), the outside of micrometer (1) is equipped with external fixation screw thread (21), outer support spring (26) are used for the cover to establish in the external fixation screw thread (21) outside.

6. The automotive mold thickness detection apparatus according to claim 5, characterized in that: the other end of the extension tube (5) is provided with an L-shaped groove (31), one end of the support rotary drum (6) is provided with a fixed bayonet lock (7), the fixed bayonet lock (7) is used for being clamped into the L-shaped groove (31), and one end of the auxiliary support shaft (9) is further provided with an external thread port (10).

7. The automotive mold thickness detection apparatus according to claim 6, characterized in that: one end of the L-shaped groove (31) is provided with a groove (32), and the groove (32) is used for improving the engagement degree of the fixed bayonet lock (7) and the L-shaped groove (31).

8. The automotive mold thickness detection apparatus according to claim 7, characterized in that: an external supporting spring (26) is arranged in the extension tube (5).

9. The automotive mold thickness detection apparatus according to claim 8, characterized in that: the support bearing (13) is installed to the one end of connecting axle (12), support frame (14) is installed in the outside of support bearing (13), the one end of support frame (14) is connected with the one end of stake (16).

10. The automotive mold thickness detection apparatus according to claim 9, characterized in that: the utility model discloses a support bearing, including support bearing (13), fixed knob (15) are installed to one side of support bearing (13), the one end of fixed knob (15) is equipped with screw thread friction lever (46), the internally mounted of support bearing (13) has horizontal pivot (44), horizontal pivot (44) are used for fixing support frame (14) in support bearing (13) outside, the intermediate position of horizontal pivot (44) is equipped with spherical pin (45).