CN217818485U - Turnover type detection tool - Google Patents

Abstract

The utility model discloses a convertible detection frock. The turnover type detection tool comprises a bearing mechanism for placing a product to be detected, a pushing mechanism for pushing the product to move on the bearing mechanism, a first pressing mechanism for fixing the product on the bearing mechanism, a detection die for predefining a detection position, a second pressing mechanism for fixing the detection die on the product, and a mounting frame for mounting the bearing mechanism, the detection die, the first pressing mechanism of the pushing mechanism and the second pressing mechanism, wherein the bearing mechanism is provided with a transverse positioning datum plane for positioning the transverse position of the product and a longitudinal positioning datum plane for positioning the longitudinal position of the product, the pushing mechanism pushes the product to be attached to the transverse positioning datum plane and the longitudinal positioning datum plane, the detection die is rotatably arranged on the mounting frame, and a detection position for detection is arranged on the detection die. The utility model discloses convertible detection frock can improve detection efficiency.

Description

Turnover type detection tool

Technical Field

The utility model relates to a work piece detects technical field, especially relates to a convertible detection frock.

Background

The end plate and the side plate of the module battery are multiple in processing and production procedures, the requirement on the precision of the product is high, and a manufacturer can detect the product normally for ensuring the product quality. As shown in fig. 1, the side panel inspection generally detects the length of a product, the step height, and the size and position of a hole. The existing detection mode is that a product is fixed by a tool clamp, then a measuring tool is used for detecting the product, multiple detection items are needed to be measured one by one, and the detection efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a convertible detection frock of convenient detection.

In order to solve the problem, the utility model provides a convertible detection frock, convertible detection frock is including being used for placing the thrust gear who waits to detect the product, being used for promoting the product to bear the weight of the mechanism and move, being used for fixing the product at the first hold-down mechanism who bears the weight of the mechanism, being used for prescribing a limit to the detection mould that detects the position, being used for fixing the second hold-down mechanism that detects the mould on the product and being used for installing the mounting bracket that bears the mechanism, detects mould, the first hold-down mechanism of thrust gear and second hold-down mechanism, it has the transverse orientation reference surface that is used for fixing a position the product transverse position and is used for fixing a position the longitudinal orientation reference surface of product longitudinal position to bear the mechanism, thrust gear pushes the product to laminate with transverse orientation reference surface and longitudinal orientation reference surface, it establishes on the mounting bracket to detect the mould rotation, it is equipped with the detection position that is used for detecting on the mould.

Further, it includes linking arm, base plate, detection piece, reference block and size limiting plate to detect the mould, linking arm, detection piece, reference block and size limiting plate all establish on the base plate, the linking arm with the mounting bracket rotates to be connected, be equipped with first inspection hole on the detection piece, be provided with the second inspection hole that is used for detecting on the base plate, the clearance has between size limiting plate and the product, the reference block is used for contacting with the top surface of product.

Further, the handle is arranged on the substrate.

Further, the detection die is also positioned through the positioning pin.

Furthermore, the bearing mechanism comprises a bearing seat for bearing the product, a transverse positioning baffle plate for limiting the transverse position of the product and a longitudinal positioning baffle plate for limiting the longitudinal position of the product, the longitudinal positioning datum plane is arranged on the longitudinal positioning baffle plate, and the transverse positioning datum plane is arranged on the transverse positioning baffle plate.

Furthermore, a buffer spring for buffering the detection die is arranged on the longitudinal positioning baffle.

The floating mechanism comprises a floating piece, a floating block, a floating spring and a floating seat, the floating piece is connected with the floating block, the floating block is arranged on the floating seat and can move up and down on the floating seat, the floating spring is connected with the floating block and the floating seat, and the floating spring is used for resetting the floating block.

Furthermore, a rotating shaft is arranged on the floating piece, the rotating shaft is arranged on the floating block, and the floating piece can rotate around the axis line of the rotating shaft.

Furthermore, the floating seat comprises a sliding block and supporting blocks arranged on two sides of the sliding block, a first sliding groove and a second sliding groove are formed in the sliding block, the floating block is arranged in the first sliding groove, the rotating shaft is arranged in the second sliding groove, the first sliding groove is communicated with the second sliding groove, the sliding block transversely penetrates through the first sliding groove, two ends of the floating block are located outside the sliding block, a guide post is arranged on each supporting block, the floating spring is sleeved on the guide posts, two ends of the floating block penetrate through the guide posts, and the guide posts are used for guiding the floating block to move.

Further, the pushing mechanism is including being used for promoting the horizontal pusher jack of product lateral shifting and the vertical pusher jack that is used for promoting product longitudinal shifting, horizontal pusher jack and vertical pusher jack all include the push away jar that is used for providing power, be used for the installation to push away the installation piece of jar, be used for promoting the push away roller of product and be used for the installation push away the roller and with push away the ejector pad that the jar is connected, the push away roller rotates and establishes on the ejector pad, the ejector pad is fixed on the output shaft of push away the jar, the installation piece is fixed on the mounting bracket.

The utility model discloses be equipped with the predetermined detection position on the detection mould of convertible detection frock, the cooperation detects the round pin and leads to the no-go gage and uses, the length of detection product that can be quick, the position in aperture and hole on the product and the height of product step, and need not read the size that detected data can judge the product and whether accord with the processing requirement, detection efficiency has been improved, simultaneously predetermined detection position can prescribe a limit to the distance between the detection position, whether the position that need not the point of awaiting measuring on the individual detection product accords with the processing requirement, can reduce the test item, can further reduce check-out time, further improvement detection efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a product to be tested in the present invention.

Fig. 2 is a schematic structural diagram of a preferred embodiment of the turnover detection tool of the present invention.

Fig. 3 is the structure schematic diagram of the turnover detection tool of the utility model after turnover.

Fig. 4 is a side view of the turnover detection tool of the present invention.

Fig. 5 is a schematic view of a structure without a detection mold.

Fig. 6 is a bottom view of the mounting bracket.

Fig. 7 is a schematic view of the structure of the lateral positioning baffle.

Fig. 8 is a schematic structural view of the floating mechanism.

FIG. 9 is a schematic view of the construction of the floating platform.

Fig. 10 is a schematic view of the structure of a longitudinal pusher.

Fig. 11 is an enlarged view of a in fig. 2.

Fig. 12 is an enlarged view of B in fig. 2.

Fig. 13 is a schematic view of a structure for detecting the attachment of the die to the mount base.

Fig. 14 is a schematic view of the structure of the inspection jig.

Fig. 15 is a schematic structural view of the second pressing mechanism.

The meaning of the reference symbols in the drawings is:

the device comprises a bearing mechanism 1, a bearing seat 11, a bearing block 111, a transverse positioning baffle 12, a transverse positioning reference surface 121, a first positioning hole 122, a through hole 123, a longitudinal positioning baffle 13, a longitudinal positioning reference surface 131, a buffer spring 132, a floating mechanism 14, a floating piece 141, a floating piece 142, a receiving groove 1421, a guide hole 1422, a floating spring 143, a floating seat 144, a sliding block 1441, a supporting block 1442, a first chute 1443, a second chute 1444, a rotating shaft 145 and a guide column 146;

the pushing mechanism 2, the transverse pusher 2A, the longitudinal pusher 2B, the pushing cylinder 21, the mounting block 22, the second positioning hole 221, the pushing roller 23 and the pushing block 24;

the first pressing mechanism 3, the rotary clamping cylinder 31 and the pressing block 32;

the detection die 4, the connecting arm 41, the substrate 42, the third positioning hole 421, the second detection hole 422, the handle 43, the detection piece 44, the first detection hole 441, the reference block 45 and the size limiting plate 46;

a second pressing mechanism 5, a presser 51, a connecting rod 52, a pressing rod 53;

the mounting frame 6, the mounting plate 61, the supporting legs 62, the reinforcing beam 63 and the mounting base 64;

and (7) products.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 2 to 5, the preferred embodiment of the convertible detection tool of the present invention includes a carrying mechanism 1 for placing a product 7 to be detected, a pushing mechanism 2 for pushing the product 7 to move on the carrying mechanism 1, a first pressing mechanism 3 for fixing the product 7 on the carrying mechanism 1, a detection mold 4 for predefining a detection position, a second pressing mechanism 5 for fixing the detection mold 4 on the product 7, and a mounting frame 6 for mounting the carrying mechanism 1, the detection mold 4, the first pressing mechanism 3 of the pushing mechanism 2, and the second pressing mechanism 5. The carrying mechanism 1 is provided with a transverse positioning reference surface 121 for positioning the transverse position of the product 7 and a longitudinal positioning reference surface 131 for positioning the longitudinal position of the product 7, wherein the transverse positioning reference surface 121 and the longitudinal positioning reference surface 131 are generally vertical planes for positioning. The pushing mechanism 2 pushes the product 7 to be attached to the transverse positioning reference surface 121 and the longitudinal positioning reference surface 131. The first pressing mechanisms 3 press the products 7 attached to the transverse positioning reference surface 121 and the longitudinal positioning reference surface 131 onto the bearing mechanism 1, the first pressing mechanisms 3 are arranged in two rows, the two rows of the first pressing mechanisms 3 are distributed on two sides of the bearing mechanism 1, and each row is composed of a plurality of first pressing mechanisms 3. Detect mould 4 and rotate and establish on mounting bracket 6, it is located one side that bears mechanism 1 to detect mould 4, be equipped with the predetermined detection position on detecting mould 4, utilize the position of aperture and hole on the length of the detection product 7 that the predetermined detection position can be quick, the product 7 and the height of the 7 steps of product 7. Inserting a standard detection pin into a corresponding point position, judging whether the aperture and the position of the hole meet the processing requirement by judging whether the detection pin can be inserted into the hole to be detected and is matched with the hole, and judging whether the height of the step meets the processing requirement by judging whether the detection pin can be just attached to the step of the product 7; and moving the go-no go gauge at the corresponding detection position, and judging whether the length size of the product 7 meets the processing requirement or not by the corresponding go-no go gauge through the detection position. The inspection mold 4 is attached to the product 7 from above the product 7. The second hold-down mechanism 5 is two, the second hold-down mechanism 5 all is located the homonymy that bears mechanism 1, and second hold-down mechanism 5 and detection mould 4 are located the both sides of product 7 respectively, second hold-down mechanism 5 compresses tightly on product 7 with detection mould 4 that will laminate on product 7, and two hold-down mechanism evenly distributed are in on the mounting bracket 6, ensure to apply to two detection mould 4's clamping force ability keep balance. In other embodiments, the detection items may be increased or decreased according to actual detection requirements, and are not limited to the detection items listed in the present embodiment.

Referring to fig. 6, the mounting frame 6 includes a mounting plate 61 for mounting the bearing mechanism 1, the first pressing mechanism 3 of the pushing mechanism 2 and the second pressing mechanism 5, and four supporting legs 62 provided on the mounting plate 61, a reinforcing beam 63 for increasing the strength of the mounting plate 61 is provided on the bottom surface of the mounting plate 61, the reinforcing beam 63 is distributed in a shape of a Chinese character 'mi', the strength of the mounting plate 61 is greatly increased by a small number of reinforcing beams 63, and two mounting seats 64 for mounting the detection mold 4 are provided on the mounting plate 61.

Referring to fig. 7, the bearing mechanism 1 includes a bearing seat 11, a transverse positioning baffle 12, a longitudinal positioning baffle 13, and a floating mechanism 14, and the bearing seat 11, the transverse positioning baffle 12, the longitudinal positioning baffle 13, and the floating mechanism 14 are all disposed on the mounting plate 61 of the mounting frame 6. The top surface of the carrier 11 is used for carrying the product 7. The transverse positioning baffle 12 is located outside one transverse end of the bearing seat 11, a vertical plane is arranged on the transverse positioning baffle 12 and used as the transverse positioning reference surface 121, and a first positioning hole 122 for positioning the detection mold 4 and a through hole 123 for matching detection are arranged on the transverse positioning baffle 12. The longitudinal positioning baffle 13 is located outside one longitudinal side of the bearing seat 11, a vertical plane is arranged on the longitudinal positioning baffle 13 and used as the longitudinal positioning reference surface 131, and a buffer spring 132 for buffering the detection mold 4 is arranged on the longitudinal positioning baffle 13, so that the detection mold 4 can be prevented from impacting the product 7, and the product 7 can be protected. The floating mechanism 14 is in point contact with the product 7; when the first pressing mechanism 3 presses the product 7 onto the bearing seat 11, the height of the floating mechanism 14 is compressed, and at this time, the product 7 is attached to the top surfaces of the bearing seat 11 and the floating mechanism 14; after the first pressing mechanism 3 releases the pressing force on the product 7, that is, when the floating mechanism 14 is not subjected to an external force, the floating mechanism 14 is reset, the floating mechanism 14 lifts the product 7 to separate the product 7 from the bearing seat 11, that is, the top surface of the floating mechanism 14 is higher than the top surface of the bearing seat 11, in this state, the moving mechanism 2 pushes the product 7, so that the contact area between the product 7 and the bearing seat 11 can be reduced, and the possibility of damaging or scratching the product 7 can be greatly reduced.

Bear seat 11 including the interval establish a plurality of carrier blocks 111 on mounting bracket 6, in the clearance that is located between carrier block 111 for floating gear 14, establish floating gear 14 between carrier block 111, can reduce the length that bears seat 11 and floating gear 14 occupy, bear seat 11 comprises a plurality of carrier blocks 111, can let product 7 and carrier block 111 laminate tighter, also let carrier block 111 and mounting panel 61 laminate tighter, can also alleviate whole carrier block 11's weight simultaneously.

As shown in fig. 8, the floating mechanism 14 includes a floating member 141, a floating block 142, a floating spring 143, and a floating seat 144, where the floating member 141 is cylindrical, the floating member 141 is provided with a rotating shaft 145, the rotating shaft 145 is provided on the floating block 142, and the floating member 141 can rotate around the axial line of the rotating shaft 145, so that when the pushing mechanism 2 pushes the product 7, the product 7 and the floating member 141 are in rolling friction, and the product 7 can be effectively prevented from being scratched or scratched. The floating block 142 is arranged on the floating seat 144 in a penetrating mode, the floating block 142 can move up and down on the floating seat 144, the upper end of the floating spring 143 is connected with the floating block 142, the lower end of the floating spring 143 is connected with the floating seat 144, and the floating spring 143 is used for resetting the floating block 142. When the floating piece 141 is pressed down by an external force, the floating piece 141 presses down the floating block 142, so that the floating block 142 moves down on the floating seat 144 and compresses the floating spring 143, and the contact position of the floating piece 141 and the product 7 is flush with the top surface of the bearing block 111; after the external force applied to the floating piece 141 disappears, the reset spring pushes the floating piece 142 to reset, the floating piece 142 drives the floating piece 141 to reset, and the contact position of the floating piece 141 and the product 7 is higher than the top surface of the bearing block 111. In other embodiments, the rotation shaft 145 may also be fixedly connected or rotatably connected to the slider 142, and when the rotation shaft 145 is fixedly connected to the slider 142, the slider 141 is rotatably connected to the rotation shaft 145.

As shown in fig. 9, a receiving groove 1421 for receiving the rotation shaft 145 is disposed in the middle of the slider 142, and guide holes 1422 are disposed at two ends of the slider 142, and the guide holes 1422 are used for matching with the floating seat 144.

As shown in fig. 8 and 10, the floating seat 144 includes a sliding block 1441 and supporting blocks 1442 disposed at two sides of the sliding block 1441, a first sliding groove 1443 and a second sliding groove 1444 are disposed on the sliding block 1441, the floating block 142 is disposed in the first sliding groove 1443, the rotating shaft 145 is disposed in the second sliding groove 1444, and the first sliding groove 1443 is communicated with the second sliding groove 1444 to ensure that the rotating shaft 145 can be connected to the floating block 142. The first sliding groove 1443 transversely penetrates through a sliding block 1441, two ends of the floating block 142 are located outside the sliding block 1441, each supporting block 1442 is provided with a guide post 146, the floating spring 143 is sleeved on the guide post 146, two ends of the floating block 142 penetrate through the guide post 146, and the guide posts 146 are used for guiding the floating block 142 to vertically move up and down and preventing the spring from being dislocated.

As shown in fig. 2, 3 and 5, said pusher organ 2 comprises a transverse pusher jack 2A for pushing the products 7 in a transverse movement and a longitudinal pusher jack 2B for pushing the products 7 in a longitudinal movement. Horizontal pusher jack 2A is installed on mounting panel 61 of mounting bracket 6, horizontal pusher jack 2A is located bear the one end of seat 11, and horizontal pusher jack 2A sets up with horizontal location baffle 12 is opposite, bears seat 11 promptly and is located between horizontal location baffle 12 and horizontal pusher jack 2A. Vertical pusher jack 2B is installed on the mounting panel 61 of mounting bracket 6, vertical pusher jack 2B is located bear one side of seat 11, and vertical pusher jack 2B sets up with vertical positioning baffle 13 opposites, bear seat 11 promptly and be located between vertical positioning baffle 13 and vertical pusher jack 2B, horizontal pusher jack 2A is two, ensures that the both ends of product 7 can be passed in step, can not let product 7 slope. The number of said lateral runners 2A is not limited to two, the number of lateral runners 2A being determined according to the actual length of the product 7; of course, the number of the longitudinal pusher shoes 2B may be plural, and the number may be determined to be suitable according to the actual width of the product 7.

As shown in fig. 11, each of the transverse pusher 2A and the longitudinal pusher 2B includes a pusher cylinder 21 for providing power, an installation block 22 for installing the pusher cylinder 21, a pushing roller 23 for pushing the product 7, and a pushing block 24 for installing the pushing roller 23 and connected to the pusher cylinder 21, the pushing roller 23 is rotatably disposed on the pushing block 24, the pushing block 24 is fixed on an output shaft of the pusher cylinder 21, and the installation block 22 is fixed on an installation plate 61 of the installation frame 6. The pushing cylinder 21 drives the pushing block 24 to move, the pushing block 24 pushes the pushing roller 23 to move, and the pushing roller 23 pushes the product 7 to move. The pushing roller 23 can rotate, so that the pushing roller 23 is in sliding contact when pushing the product 7, and the product 7 can be effectively prevented from being scratched or scratched by the pushing roller 23. In other embodiments, the pushing block 24 may also be used to push the product 7 directly, i.e. the pushing roller 23 is removed. As shown in fig. 12, the mounting block 22 of the lateral pusher shoe 2A is provided with a second positioning hole 221 for positioning the detection mold 4.

As shown in fig. 13, the first pressing mechanism 3 includes a rotary clamping cylinder 31 and a pressing block 32, the pressing block 32 is fixed on a pressing claw of the rotary clamping cylinder 31, the pressing block 32 is supported by a material with a hardness lower than that of the product 7, and can prevent the product 7 from being scratched or scratched, and the width of the pressing block 32 is greater than that of the pressing claw, so that the contact area between the first pressing mechanism 3 and the product 7 can be increased, and the product 7 is further prevented from being scratched or damaged. It should be understood that other hold-down devices may be used in place of the rotary hold-down cylinder, such as a manual hold-down 51.

As shown in fig. 14 and 15, the detection mold 4 includes a connecting arm 41, a base plate 42, a handle 43, a detection piece 44, a reference block 45, and a size limiting plate 46, one end of the connecting arm 41 is fixed to the base plate 42, the other end of the connecting arm 41 is provided with a shaft rod, the shaft rod is rotatably arranged on an installation seat 64 of the installation plate 61, and the handle 43, the detection piece 44, the reference block 45, and the size limiting plate 46 are all arranged on the base plate 42. The handle 43 and the detection piece 44 are both arranged on the top surface of the base plate 42, and the handle 43 is used for pulling the base plate 42 to turn over; be equipped with first inspection hole 441 on the detection piece 44, the detection piece 44 is a plurality of, and the mounted position of each detection piece 44 corresponds with the hole that the product 7 that awaits measuring needs to detect, and the detection round pin of standard inserts the hole that awaits measuring that corresponds on the product 7 again in first inspection hole 441, can insert downthehole and with the hole adaptation through judging the detection round pin, judges whether the position in aperture and hole reaches the processing requirement, if the skew in position in hole or aperture are less than the processing requirement, the detection round pin can't insert the hole row that awaits measuring, if the aperture is greater than the processing requirement, the detection round pin inserts the downthehole clearance that can form that awaits measuring on the product 7. The reference block 45, the size limiting plate 46 and the detection plate are all arranged on the ground of the base plate 42, and the reference block 45 is used for being attached to the top surface of the product 7 to ensure that the relative position of the base plate 42 and the product 7 is fixed; the size limiting plate 46 is arranged at one end, far away from the transverse positioning reference surface 121, of the base plate 42, a gap is formed in the end face, corresponding to the product 7, of the size limiting plate 46, a check gauge is used for detecting whether the length of the product 7 meets the processing requirement or not by moving up and down in the gap, a through hole coaxial with the first detection hole 441 is formed in the size limiting plate 46, and the bolt penetrates through the first detection hole 441 and then extends into a hole, to be detected, of the product 7 after penetrating through the through hole. The substrate 42 is provided with two third positioning holes 421 and three second detecting holes 422 for detecting the step height. The three second detection holes 422 penetrate through the substrate 42 and are arranged in parallel, the corresponding detection pins are inserted into the second detection holes 422, whether the detection pins are just attached to the product 7 or not is observed, and the fact that the detection pins are just attached to the product 7 indicates that the corresponding step surface height meets the processing requirement. The number of the second detection holes 422 is the same as that of the steps, and the number of the second detection holes 422 is the same as that of the steps, so that whether the height of a single step meets the processing requirement can be determined. The third positioning hole 421 is used for inserting a positioning pin (not shown), and the positioning pin is inserted into the third positioning hole 421 and simultaneously inserted into the corresponding first positioning hole 122 or second positioning hole 221, so as to position the substrate 42, ensure the position accuracy of the substrate 42, and improve the detection accuracy. The positions of the first detecting hole 441 and the second detecting hole 422 and the gap between the size limit plate 46 and the product 7 are detecting positions. In other embodiments, the first positioning hole 122 and the second positioning hole 221 may also be provided on the mounting plate 61.

As shown in fig. 5, the second pressing mechanism 5 includes a pressing device 51, a connecting rod 52 and a pressing rod 53, the pressing device 51 is mounted on a mounting plate 61 of the mounting bracket 6, the connecting rod 52 is fixed on a pressing claw of the pressing device 51, and the pressing rod 53 is mounted on the connecting rod 52. The connecting rod 52 is arranged to enable the pressing point of the pressing rod 53 and the detection mold 4 to be located in the middle of the substrate 42 of the detection mold 4, so as to ensure that the substrate 42 of the detection mold 4 is balanced in stress.

When the detection device is used, a product 7 to be detected is placed on the bearing seat 11, then the transverse pusher 2A and the longitudinal pusher 2B sequentially push the product 7 to be attached to a transverse reference surface and a longitudinal reference surface, then the clamping cylinder 31 is rotated to drive the pressing block 32 to press the product 7 on the bearing seat 11, then the detection mold 4 is turned over to enable the detection mold 4 to be overlapped with the product 7, namely the reference block 45 on the detection mold 4 is attached to the top surface of the product 7, then the pressing block 51 is used for driving the pressing rod 53 to fix the detection mold 4 on the product 7, a positioning pin is inserted into each third positioning hole 421, the positioning pins are simultaneously inserted into the first positioning hole 122 and the second positioning hole 221 corresponding to the third positioning holes 421, and then detection can be started.

The standard detection pin penetrates through the first detection hole 441 and then is inserted into the corresponding hole to be detected, and whether the aperture and the position of the hole meet the processing requirements or not is judged by judging whether the detection pin can be inserted into the hole to be detected and is matched with the hole; after passing through the second detection hole 422, the standard detection pin is abutted against the step of the product 7, and whether the height of the step meets the processing requirement is judged by judging whether the detection pin can be just attached to the step of the product 7; and moving the go-no go gauge in the gap between the size limit plate 46 and the product 7, and judging whether the length size of the product 7 meets the processing requirement or not by the corresponding go-no go gauge through the detection position. Compare current measurement mode, need not to read and detect data and can interpret and whether reach the processing requirement, the testing result can acquire fast, can improve detection efficiency, and the predetermined detection position of while can prescribe a limit to in advance detect the distance between the position, need not to detect the position of awaiting measuring on the product 7 alone and whether accords with the processing requirement, can reduce the detection item, can further reduce check-out time, can further improvement detection efficiency.

The above is only the embodiment of the present invention, and not the scope of the patent of the present invention, and all the equivalent structures made by the contents of the specification and the drawings are directly or indirectly applied to other related technical fields, and all the same principles are within the protection scope of the present invention.

Claims (10)

1. The utility model provides a convertible detection frock which characterized in that: the product detection device comprises a bearing mechanism for placing a product to be detected, a pushing mechanism for pushing the product to move on the bearing mechanism, a first pressing mechanism for fixing the product on the bearing mechanism, a detection die for pre-limiting a detection position, a second pressing mechanism for fixing the detection die on the product, and a mounting rack for mounting the bearing mechanism, the detection die, the first pressing mechanism of the pushing mechanism and the second pressing mechanism, wherein the bearing mechanism is provided with a transverse positioning datum plane for positioning the transverse position of the product and a longitudinal positioning datum plane for positioning the longitudinal position of the product, the pushing mechanism pushes the product to be attached to the transverse positioning datum plane and the longitudinal positioning datum plane, the detection die is rotatably arranged on the mounting rack, and a detection position for detection is arranged on the detection die.

2. The rollover detection tool according to claim 1, further comprising: the detection die comprises a connecting arm, a base plate, a detection piece, a reference block and a size limiting plate, wherein the connecting arm, the detection piece, the reference block and the size limiting plate are all arranged on the base plate, the connecting arm is connected with the mounting frame in a rotating mode, a first detection hole is formed in the detection piece, a second detection hole used for detection is formed in the base plate, a gap is formed between the size limiting plate and a product, and the reference block is used for contacting with the top surface of the product.

3. The rollover detection tool according to claim 2, further comprising: the handle is arranged on the substrate.

4. The roll-over detection tool of claim 1, wherein: the detection die is also positioned through the positioning pin.

5. The roll-over detection tool of claim 1, wherein: the bearing mechanism comprises a bearing seat for bearing a product, a transverse positioning baffle plate for limiting the transverse position of the product and a longitudinal positioning baffle plate for limiting the longitudinal position of the product, wherein the longitudinal positioning datum plane is arranged on the longitudinal positioning baffle plate, and the transverse positioning datum plane is arranged on the transverse positioning baffle plate.

6. The roll over detection tool of claim 5, wherein: and the longitudinal positioning baffle is provided with a buffer spring for buffering the detection mould.

7. The roll over detection tool of claim 5, wherein: the floating mechanism comprises a floating piece, a floating block, a floating spring and a floating seat, wherein the floating piece is connected with the floating block, the floating block is arranged on the floating seat and can move up and down on the floating seat, the floating spring is connected with the floating block and the floating seat, and the floating spring is used for resetting the floating block.

8. The roll over detection tool of claim 7, wherein: the floating piece is provided with a rotating shaft, the rotating shaft is arranged on the floating block, and the floating piece can rotate around the axis line of the rotating shaft.

9. The roll over detection tool of claim 8, wherein: the floating seat comprises a sliding block and supporting blocks arranged on two sides of the sliding block, a first sliding groove and a second sliding groove are formed in the sliding block, the floating block is arranged in the first sliding groove, the rotating shaft is arranged in the second sliding groove, the first sliding groove is communicated with the second sliding groove, the first sliding groove transversely penetrates through the sliding block, two ends of the floating block are located outside the sliding block, each supporting block is provided with a guide post, the floating spring is sleeved on the guide post, two ends of the floating block penetrate through the guide post, and the guide post is used for guiding the floating block to move.

10. The roll-over detection tool of claim 1, wherein: the pushing mechanism comprises a transverse pushing device used for pushing a product to move transversely and a longitudinal pushing device used for pushing the product to move longitudinally, the transverse pushing device and the longitudinal pushing device comprise pushing cylinders used for providing power, installation blocks used for installing the pushing cylinders, pushing rollers used for pushing the product and pushing blocks used for installing the pushing rollers and connected with the pushing cylinders, the pushing rollers are rotatably arranged on the pushing blocks, the pushing blocks are fixed to output shafts of the pushing cylinders, and the installation blocks are fixed to the installation frame.

Images