CN108931221A - A kind of sheet metal part thickness test equipment - Google Patents

Abstract

The invention discloses a kind of sheet metal part thickness test equipments, including test equipment ontology, the bottom of the test equipment ontology is fixedly installed with fixed column, the bottom of fixed column offers the first groove, fixed block is slidably fitted in first groove, and the bottom of fixed block extends outside the first groove, the bottom of fixed block is welded with fixing seat, first sliding groove there are two symmetrically being opened up on the inner wall of first groove top side, the first sliding block is slidably fitted in first sliding groove, and first the bottom of sliding block extend to outside first sliding groove, connecting rod is rotatably equipped on first sliding block, link block is welded at the top of fixed block, the one end of two connecting rods far from the first sliding block and the same link block are rotatablely connected, first rotating shaft slot is offered on the inner wall of two first sliding groove sides close to each other.The configuration of the present invention is simple, easy to use, the height of test equipment ontology is convenient for adjusting and fix, and operation is easy, and saves the time, is more conducive to the use of people.

Description

A kind of sheet metal part thickness test equipment

Technical field

The present invention relates to test equipment technical field more particularly to a kind of sheet metal part thickness test equipments.

Background technique

Metal plate is a kind of synthesis cold machining process for sheet metal, including cuts, rushes/cut/compound, folding, welding, riveting It connects, splice, form, significant feature is exactly Same Part consistency of thickness, is called by the product that metal plate industry processes The sheet metal component of sheet metal component, different industries meaning is generally different, is chiefly used in the address of group timing.

Number of patent application discloses a kind of sheet metal part thickness test equipment, including rack for 201720743625.6, described One side of rack is equipped with touch screen operation panel, and touch screen operation panel bottom is automatically controlled in being equipped in the rack Case；It is equipped with marble fixed block above the rack and marble adjusts foot, marble platform passes through the marble fixed block It is fixed in the rack with marble adjustment foot, the marble platform is equipped with isometry block and displacement sensor, institute's rheme Displacement sensor top is equipped with inductive head, and the inductive head, which can be inserted, carries out thickness measurement in the gap of sheet metal component, this is practical new The sheet metal part thickness test equipment that type provides is equipped with multiple groups displacement sensor, can carry out to the thickness of the multiple positions of sheet metal component fast Speed detects simultaneously, to save the detection time of manual single-point detection, simplifies operation sequence, and the stabilization of equipment performance Good, accuracy of measurement height, to greatly improve working efficiency, has saved testing cost, and still, existing sheet metal part thickness is surveyed The height majority of examination equipment is fixed, and is not easy to be adjusted, and is also not easy to be fixed after adjusting, when needing to adjust It is very troublesome when the height of test equipment, it wastes time, is unfavorable for the use of people, it is social with the progress of science and technology Development, more stringent requirements are proposed to test equipment by people, so, we have proposed a kind of sheet metal part thickness test equipments to be used for It solves the above problems.

Summary of the invention

The purpose of the present invention is to solve disadvantages existing in the prior art, and a kind of sheet metal part thickness test proposed Equipment.

To achieve the goals above, present invention employs following technical solutions：

The bottom of a kind of sheet metal part thickness test equipment, including test equipment ontology, the test equipment ontology is fixedly installed with Fixed column, the bottom of fixed column offer the first groove, fixed block are slidably fitted in the first groove, and the bottom of fixed block is prolonged It stretches outside the first groove, the bottom of fixed block is welded with fixing seat, is symmetrically opened up on the inner wall of the first groove top side there are two first Sliding slot is slidably fitted with the first sliding block in first sliding groove, and the bottom of the first sliding block extends to outside first sliding groove, on the first sliding block It is rotatably equipped with connecting rod, link block, the one end of two connecting rods far from the first sliding block and the same company are welded at the top of fixed block Block rotation connection is connect, offers first rotating shaft slot on the inner wall of two first sliding groove sides close to each other, in first rotating shaft slot It is rotatably equipped with first rotating shaft, and one end of first rotating shaft extends to outside first rotating shaft slot, first sliding groove is far from first rotating shaft slot First rotating shaft through-hole is offered on the inner wall of side, first rotating shaft through-hole and first rotating shaft are rotatablely connected, and the two of first rotating shaft End all extends to outside first rotating shaft through-hole, and first rotating shaft is fixedly installed with first gear far from one end of first rotating shaft slot, fixed The two sides of column are fixedly installed with first servo motor, and second gear is fixedly installed on the output shaft of first servo motor, the Two gears are meshed with first gear, and the second groove is offered on the inner wall of the first groove two sides, sliding peace in the second groove One end equipped with fixed link, and fixed link extends to outside the second groove, and the two sides of fixed block offer fixing groove, and fixed link is leaned on One end of nearly fixed block is slidably connected with fixing groove, and one end that fixed link is located in the second groove offers the second rotary axis groove, the Shaft is equipped with the second shaft in two rotary axis grooves, and one end of the second shaft extends to outside the second rotary axis groove, and the second groove is separate The second rotary shaft through hole is offered on the inner wall of fixed block side, the second rotary shaft through hole and the second shaft are rotatablely connected, and second turn The both ends of axis all extend to outside the second rotary shaft through hole, and the second shaft is fixedly installed with third gear far from one end of fixed block, Gu The two sides of fixed column are fixedly installed with the second servo motor, and the second servo motor is located at the lower section of first servo motor, and second watches It takes and is fixedly installed with the 4th gear on the output shaft of motor, the 4th gear is meshed with third gear.

Preferably, second sliding slot is offered on the inner wall of first groove two sides, the two sides of fixed block are welded with Second sliding block, two the second sliding blocks are slidably mounted on respectively in two second sliding slots.

Preferably, kelly is fixedly installed in the second sliding slot, the second sliding block is slidably located on kelly.

Preferably, first annular slot is offered on the first rotating shaft through-hole, the first card is fixedly installed in first rotating shaft Block, the first fixture block and first annular slot are rotatablely connected.

Preferably, third sliding slot is offered on the inner wall of second groove two sides, the two sides of fixed link are welded with Third sliding block, two third sliding blocks are slidably mounted on respectively in third sliding slot.

Preferably, the fixing groove is multiple, and multiple fixing groove equidistant intervals are arranged in the two sides of fixed block.

Preferably, the second annular groove is offered in second rotary shaft through hole, the second card is fixedly installed in the second shaft Block, the second fixture block and the second annular groove are rotatablely connected.

Preferably, through-hole is offered on first sliding block, the inner wall of through-hole is equipped with the first internal screw thread, in first rotating shaft Equipped with the first external screw thread, through-hole is threadedly coupled with first rotating shaft.

Preferably, it is arranged with bearing in the first rotating shaft slot, bearing is fixedly mounted in first rotating shaft.

Preferably, the inner wall of second rotary axis groove is equipped with the second internal screw thread, sets external screw thread in the second shaft, and second turn Axial trough is connect with the second shaft thread.

Compared with prior art, the beneficial effects of the invention are as follows：

Pass through test equipment ontology, fixed column, the first groove, fixed block, fixing seat, first sliding groove, the first sliding block, connecting rod, company It connects block, rotary axis groove, first rotating shaft, first rotating shaft through-hole, first gear, first servo motor, second gear, the second groove, consolidate Fixed pole, fixing groove, the second rotary axis groove, the second shaft, the second rotary shaft through hole, third gear, the second servo motor, the 4th gear, Second sliding slot, the second sliding block, kelly, first annular slot, the first fixture block, third sliding slot, third sliding block, the second annular groove and second The cooperation of fixture block, when needing to adjust the height of test equipment ontology, firstly, the second servo motor of starting, the second servo motor Output shaft drive the rotation of the 4th gear, the 4th gear drives the rotation of third gear, and third gear drives the rotation of the second shaft, the The rotation of two shafts drives fixed link to slide to the direction far from fixed block, after fixed link is skidded off out of fixing groove, closes the Two servo motors, at this point, starting first servo motor, the output shaft of first servo motor drives second gear rotation, the second tooth Wheel drives first gear rotation, and first gear drives first rotating shaft rotation, and the rotation of two first rotating shafts drives two first cunnings Block is slided to direction close to each other, and two the first sliding blocks drive link block and fixed block to move down by connecting rod, fixed block Sliding drive test equipment body height adjusting, when test equipment ontology is adjusted to desired height, close the first servo Then motor aligns fixing groove and the second groove, at this point, being again started up the second servo motor, make the second servo motor Output shaft rotates backward, and the output shaft of the second servo motor drives the rotation of the 4th gear, and the 4th gear drives the rotation of third gear, Third gear drives the rotation of the second shaft, and the rotation of the second shaft drives fixed link to slide and enter to the direction close to fixed block Fixing groove, fixed fixed block, so as to complete the adjusting work of test equipment body height, and is fixed.

The configuration of the present invention is simple, easy to use, the height of test equipment ontology is convenient for adjusting and fix, and operation is held Easily, the time is saved, the use of people is more conducive to.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of sheet metal part thickness test equipment proposed by the present invention；

Fig. 2 is a kind of part A structural schematic diagram of sheet metal part thickness test equipment proposed by the present invention；

Fig. 3 is a kind of part B structural schematic diagram of sheet metal part thickness test equipment proposed by the present invention；

Fig. 4 is a kind of C portion structural schematic diagram of sheet metal part thickness test equipment proposed by the present invention；

Fig. 5 is a kind of D partial structure diagram of sheet metal part thickness test equipment proposed by the present invention.

In figure：1 test equipment ontology, 2 fixed columns, 3 first grooves, 4 fixed blocks, 5 fixing seats, 6 first sliding grooves, 7 first Sliding block, 8 connecting rods, 9 link blocks, 10 rotary axis grooves, 11 first rotating shafts, 12 first rotating shaft through-holes, 13 first gears, 14 first servos electricity Machine, 15 second gears, 16 second grooves, 17 fixed links, 18 fixing grooves, 19 second rotary axis grooves, 20 second shafts, 21 second shafts Through-hole, 22 third gears, 23 second servo motors, 24 the 4th gears, 25 second sliding slots, 26 second sliding blocks, 27 kellies, 28 first Annular groove, 29 first fixture blocks, 30 third sliding slots, 31 third sliding blocks, 32 second annular grooves, 33 second fixture blocks.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

Referring to Fig.1-5, a kind of sheet metal part thickness test equipment, including test equipment ontology 1, the bottom of test equipment ontology 1 Portion is fixedly installed with fixed column 2, and the bottom of fixed column 2 offers the first groove 3, is slidably fitted with fixed block in the first groove 3 4, and the bottom of fixed block 4 extends outside the first groove 3, the bottom of fixed block 4 is welded with fixing seat 5,3 top side of the first groove it is interior It is symmetrically opened up on wall there are two first sliding groove 6, is slidably fitted with the first sliding block 7, and the bottom of the first sliding block 7 in first sliding groove 6 It extending to outside first sliding groove 6, is rotatably equipped with connecting rod 8 on the first sliding block 7, the top of fixed block 4 is welded with link block 9, and two The one end of connecting rod 8 far from the first sliding block 7 and the same link block 9 are rotatablely connected, two sides close to each other of first sliding groove 6 it is interior First rotating shaft slot 10 is offered on wall, and first rotating shaft 11, and the one of first rotating shaft 11 are rotatably equipped in first rotating shaft slot 10 End extends to outside first rotating shaft slot 10, and first sliding groove 6 offers first rotating shaft on the inner wall far from 10 side of first rotating shaft slot logical Hole 12, first rotating shaft through-hole 12 and first rotating shaft 11 are rotatablely connected, and the both ends of first rotating shaft 11 all extend to first rotating shaft and lead to Outside hole 12, first rotating shaft 11 is fixedly installed with first gear 13 far from one end of first rotating shaft slot 10, and the two sides of fixed column 2 are solid Dingan County is equipped with first servo motor 14, is fixedly installed with second gear 15, second gear on the output shaft of first servo motor 14 15 are meshed with first gear 13, and the second groove 16, sliding in the second groove 16 are offered on the inner wall of 3 two sides of the first groove Fixed link 17 is installed, and one end of fixed link 17 extends to outside the second groove 16, the two sides of fixed block 4 offer fixing groove 18, fixed link 17 is slidably connected close to one end of fixed block 4 with fixing groove 18, and fixed link 17 is located at one end in the second groove 16 The second rotary axis groove 19 is offered, shaft is equipped with the second shaft 20 in the second rotary axis groove 19, and one end of the second shaft 20 extends To outside the second rotary axis groove 19, the second rotary shaft through hole 21 is offered on the second inner wall of the groove 16 far from 4 side of fixed block, second turn Shaft through-hole 21 and the second shaft 20 are rotatablely connected, and the both ends of the second shaft 20 all extend to outside the second rotary shaft through hole 21, and second Shaft 20 is fixedly installed with third gear 22 far from one end of fixed block 4, and the two sides of fixed column 2 are fixedly installed with the second servo Motor 23, the second servo motor 23 are located at the lower section of first servo motor 14, fixed peace on the output shaft of the second servo motor 23 Equipped with the 4th gear 24, the 4th gear 24 is meshed with third gear 22, recessed by test equipment ontology 1, fixed column 2, first Slot 3, fixed block 4, fixing seat 5, first sliding groove 6, the first sliding block 7, connecting rod 8, link block 9, rotary axis groove 10, first rotating shaft 11, One rotary shaft through hole 12, first gear 13, first servo motor 14, second gear 15, the second groove 16, fixed link 17, fixing groove 18, the second rotary axis groove 19, the second shaft 20, the second rotary shaft through hole 21, third gear 22, the second servo motor 23, the 4th gear 24, second sliding slot 25, the second sliding block 26, kelly 27, first annular slot 28, the first fixture block 29, third sliding slot 30, third sliding block 31, the cooperation of the second annular groove 32 and the second fixture block 33, when needing to adjust the height of test equipment ontology 1, firstly, starting the Two servo motors 23, the output shaft of the second servo motor 23 drive the rotation of the 4th gear 24, and the 4th gear 24 drives third gear 22 rotations, third gear 22 drive the rotation of the second shaft 20, and the rotation of the second shaft 20 drives fixed link 17 to far from fixed block 4 Direction sliding, after fixed link 17 is skidded off out of fixing groove 18, close the second servo motor 23, at this point, starting the first servo Motor, 14, the output shaft of first servo motor 14 drives second gear 15 to rotate, and second gear 15 drives 13 turns of first gear Dynamic, first gear 13 drives first rotating shaft 11 to rotate, and the rotation of two first rotating shafts 11 drives two the first sliding blocks 7 to mutually leaning on Close direction sliding, two the first sliding blocks 7 drive link block 9 and fixed block 4 to move down by connecting rod 8, the sliding of fixed block 4 The adjusting for driving 1 height of test equipment ontology closes first servo motor when test equipment ontology 1 is adjusted to desired height 14, then, fixing groove 18 and the second groove 16 are aligned, at this point, being again started up the second servo motor 23, keep the second servo electric The output shaft of machine 23 rotates backward, and the output shaft of the second servo motor 23 drives the rotation of the 4th gear 24, and the 4th gear 24 drives Third gear 22 rotates, and third gear 22 drives the rotation of the second shaft 20, and the rotation of the second shaft 20 drives fixed link 17 to leaning on Fixing groove 18, fixed fixed block 4, so as to complete the tune of 1 height of test equipment ontology are slided and entered in the direction of nearly fixed block 4 Work is saved, and is fixed, the configuration of the present invention is simple is easy to use, and the height of test equipment ontology 1 is convenient for adjusting and consolidate Fixed, operation is easy, and is saved the time, is more conducive to the use of people.

In the present embodiment, second sliding slot 25 is offered on the inner wall of 3 two sides of the first groove, the two sides of fixed block 4 are welded It is connected to the second sliding block 26, two the second sliding blocks 26 are slidably mounted on respectively in two second sliding slots 25, fixed in second sliding slot 25 Kelly 27 is installed, the second sliding block 26 is slidably located on kelly 27, first annular slot 28 is offered on first rotating shaft through-hole 12, The first fixture block 29 is fixedly installed in first rotating shaft 11, the first fixture block 29 is rotatablely connected with first annular slot 28, the second groove 16 Third sliding slot 30 is offered on the inner wall of two sides, the two sides of fixed link 17 are welded with third sliding block 31, two third sliding blocks 31 are slidably mounted on respectively in third sliding slot 30, fixing groove 18 be it is multiple, multiple 18 equidistant intervals of fixing groove are arranged in fixation The two sides of block 4 offer the second annular groove 32 in second rotary shaft through hole 21, are fixedly installed with the second fixture block in the second shaft 20 33, the second fixture block 33 and the second annular groove 32 are rotatablely connected, and offer through-hole on the first sliding block 7, and the inner wall of through-hole is equipped with the One internal screw thread, first rotating shaft 11 are equipped with the first external screw thread, and through-hole is threadedly coupled with first rotating shaft 11,10 inner sleeve of first rotating shaft slot Equipped with bearing, bearing is fixedly mounted in first rotating shaft 11, and the inner wall of the second rotary axis groove 19 is equipped with the second internal screw thread, and second turn External screw thread is set on axis 20, the second rotary axis groove 19 is threadedly coupled with the second shaft 20, passes through test equipment ontology 1, fixed column 2, One groove 3, fixed block 4, fixing seat 5, first sliding groove 6, the first sliding block 7, connecting rod 8, link block 9, rotary axis groove 10, first rotating shaft 11, first rotating shaft through-hole 12, first gear 13, first servo motor 14, second gear 15, the second groove 16, fixed link 17, solid Determine slot 18, the second rotary axis groove 19, the second shaft 20, the second rotary shaft through hole 21, third gear 22, the second servo motor the 23, the 4th Gear 24, second sliding slot 25, the second sliding block 26, kelly 27, first annular slot 28, the first fixture block 29, third sliding slot 30, third are sliding The cooperation of block 31, the second annular groove 32 and the second fixture block 33, when needing to adjust the height of test equipment ontology 1, firstly, starting Second servo motor 23, the output shaft of the second servo motor 23 drive the rotation of the 4th gear 24, and the 4th gear 24 drives third tooth 22 rotation of wheel, third gear 22 drive the rotation of the second shaft 20, and the rotation of the second shaft 20 drives fixed link 17 to far from fixed The direction of block 4 is slided, and after fixed link 17 is skidded off out of fixing groove 18, closes the second servo motor 23, at this point, starting first is watched Take motor, 14, the output shaft of first servo motor 14 drives second gear 15 to rotate, and second gear 15 drives 13 turns of first gear Dynamic, first gear 13 drives first rotating shaft 11 to rotate, and the rotation of two first rotating shafts 11 drives two the first sliding blocks 7 to mutually leaning on Close direction sliding, two the first sliding blocks 7 drive link block 9 and fixed block 4 to move down by connecting rod 8, the sliding of fixed block 4 The adjusting for driving 1 height of test equipment ontology closes first servo motor when test equipment ontology 1 is adjusted to desired height 14, then, fixing groove 18 and the second groove 16 are aligned, at this point, being again started up the second servo motor 23, keep the second servo electric The output shaft of machine 23 rotates backward, and the output shaft of the second servo motor 23 drives the rotation of the 4th gear 24, and the 4th gear 24 drives Third gear 22 rotates, and third gear 22 drives the rotation of the second shaft 20, and the rotation of the second shaft 20 drives fixed link 17 to leaning on Fixing groove 18, fixed fixed block 4, so as to complete the tune of 1 height of test equipment ontology are slided and entered in the direction of nearly fixed block 4 Work is saved, and is fixed, the configuration of the present invention is simple is easy to use, and the height of test equipment ontology 1 is convenient for adjusting and consolidate Fixed, operation is easy, and is saved the time, is more conducive to the use of people.

In the present embodiment, when needing to adjust the height of test equipment ontology 1, firstly, the second servo motor 23 of starting, the The output shaft of two servo motors 23 drives the rotation of the 4th gear 24, and the 4th gear 24 drives third gear 22 to rotate, third gear 22 drive the rotation of the second shaft 20, and the rotation of the second shaft 20 drives fixed link 17 to slide to the direction far from fixed block 4, when solid After fixed pole 17 is skidded off out of fixing groove 18, the second servo motor 23 is closed, at this point, starting first servo motor, the 14, first servo The output shaft of motor 14 drives second gear 15 to rotate, and second gear 15 drives first gear 13 to rotate, and first gear 13 drives First rotating shaft 11 rotates, and the rotation of two first rotating shafts 11 drives two the first sliding blocks 7 to slide to direction close to each other, and two First sliding block 7 drives link block 9 and fixed block 4 to move down by connecting rod 8, and the sliding of fixed block 4 drives test equipment ontology 1 The adjusting of height closes first servo motor 14, then, by fixing groove 18 when test equipment ontology 1 is adjusted to desired height It aligns with the second groove 16, at this point, being again started up the second servo motor 23, turns the output shaft of the second servo motor 23 reversely Dynamic, the output shaft of the second servo motor 23 drives the rotation of the 4th gear 24, and the 4th gear 24 drives third gear 22 to rotate, third Gear 22 drives the rotation of the second shaft 20, and the rotation of the second shaft 20 drives fixed link 17 to slide to the direction close to fixed block 4 And entering fixing groove 18, fixed fixed block 4 so as to complete the adjusting work of 1 height of test equipment ontology, and is fixed.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (10)

1. a kind of sheet metal part thickness test equipment, including test equipment ontology（1）, which is characterized in that the test equipment ontology （1）Bottom be fixedly installed with fixed column（2）, fixed column（2）Bottom offer the first groove（3）, the first groove（3）Interior cunning It is dynamic that fixed block is installed（4）, and fixed block（4）Bottom extend the first groove（3）Outside, fixed block（4）Bottom be welded with it is solid Reservation（5）, the first groove（3）First sliding groove there are two symmetrically being opened up on the inner wall of top side（6）, first sliding groove（6）Interior sliding peace Equipped with the first sliding block（7）, and the first sliding block（7）Bottom extend to first sliding groove（6）Outside, the first sliding block（7）Upper rotational installation There is connecting rod（8）, fixed block（4）Top be welded with link block（9）, two connecting rods（8）Far from the first sliding block（7）One end and same One link block（9）Rotation connection, two first sliding grooves（6）First rotating shaft slot is offered on the inner wall of side close to each other （10）, first rotating shaft slot（10）Inside it is rotatably equipped with first rotating shaft（11）, and first rotating shaft（11）One end extend to first turn Axial trough（10）Outside, first sliding groove（6）Far from first rotating shaft slot（10）First rotating shaft through-hole is offered on the inner wall of side（12）, the One rotary shaft through hole（12）With first rotating shaft（11）Rotation connection, and first rotating shaft（11）Both ends all extend to first rotating shaft through-hole （12）Outside, first rotating shaft（11）Far from first rotating shaft slot（10）One end be fixedly installed with first gear（13）, fixed column（2）'s Two sides are fixedly installed with first servo motor（14）, first servo motor（14）Output shaft on be fixedly installed with second gear （15）, second gear（15）With first gear（13）It is meshed, the first groove（3）The second groove is offered on the inner wall of two sides （16）, the second groove（16）Inside it is slidably fitted with fixed link（17）, and fixed link（17）One end extend to the second groove（16） Outside, fixed block（4）Two sides offer fixing groove（18）, fixed link（17）Close to fixed block（4）One end and fixing groove （18）It is slidably connected, fixed link（17）Positioned at the second groove（16）Interior one end offers the second rotary axis groove（19）, the second shaft Slot（19）Interior shaft is equipped with the second shaft（20）, and the second shaft（20）One end extend to the second rotary axis groove（19）Outside, Two grooves（16）Far from fixed block（4）The second rotary shaft through hole is offered on the inner wall of side（21）, the second rotary shaft through hole（21）With Second shaft（20）Rotation connection, and the second shaft（20）Both ends all extend to the second rotary shaft through hole（21）Outside, the second shaft （20）Far from fixed block（4）One end be fixedly installed with third gear（22）, fixed column（2）Two sides be fixedly installed with second Servo motor（23）, the second servo motor（23）Positioned at first servo motor（14）Lower section, the second servo motor（23）It is defeated The 4th gear is fixedly installed on shaft（24）, the 4th gear（24）With third gear（22）It is meshed.

2. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that first groove（3）Two Second sliding slot is offered on the inner wall of side（25）, fixed block（4）Two sides be welded with the second sliding block（26）, two second cunnings Block（26）It is slidably mounted on two second sliding slots respectively（25）It is interior.

3. a kind of sheet metal part thickness test equipment according to claim 2, which is characterized in that the second sliding slot（25）It is interior It is fixedly installed with kelly（27）, the second sliding block（26）Be slidably located in kelly（27）On.

4. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that the first rotating shaft through-hole （12）On offer first annular slot（28）, first rotating shaft（11）On be fixedly installed with the first fixture block（29）, the first fixture block（29） With first annular slot（28）Rotation connection.

5. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that second groove（16）Two Third sliding slot is offered on the inner wall of side（30）, fixed link（17）Two sides be welded with third sliding block（31）, two thirds Sliding block（31）It is slidably mounted on third sliding slot respectively（30）It is interior.

6. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that the fixing groove（18）It is more It is a, multiple fixing grooves（18）Equidistant intervals are arranged in fixed block（4）Two sides.

7. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that second rotary shaft through hole （21）On offer the second annular groove（32）, the second shaft（20）On be fixedly installed with the second fixture block（33）, the second fixture block（33） With the second annular groove（32）Rotation connection.

8. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that first sliding block（7）On Through-hole is offered, the inner wall of through-hole is equipped with the first internal screw thread, first rotating shaft（11）It is equipped with the first external screw thread, through-hole and first Shaft（11）It is threadedly coupled.

9. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that the first rotating shaft slot（10） It is inside arranged with bearing, bearing is fixedly mounted on first rotating shaft（11）On.

10. a kind of sheet metal part thickness test equipment according to claim 1, which is characterized in that second rotary axis groove （19）Inner wall be equipped with the second internal screw thread, the second shaft（20）On set external screw thread, the second rotary axis groove（19）With the second shaft （20）It is threadedly coupled.