CN113670736A

CN113670736A - Circuit board compressive property detection device for intelligent manufacturing

Info

Publication number: CN113670736A
Application number: CN202110959182.5A
Authority: CN
Inventors: 杨小敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-20
Filing date: 2021-08-20
Publication date: 2021-11-19

Abstract

The invention relates to a detection device, in particular to a device for detecting the compression resistance of a circuit board for intelligent manufacturing. The invention provides an intelligent detection device for the compression resistance of a circuit board for manufacturing, which can automatically turn over and automatically fix and is convenient to feed. The utility model provides a circuit board compressive property detection device for intelligent manufacturing, is including frame, clamp splice, rotary mechanism, adsorption apparatus structure and accredited testing organization, the inside rotary mechanism that is equipped with of frame, the inboard lower part of frame is equipped with adsorption apparatus structure, and the inboard middle part of frame is equipped with accredited testing organization, the last clamp splice that is equipped with of accredited testing organization. According to the automatic chip-removing machine, the guide mechanism is arranged, the guide mechanism operates to drive the adsorption mechanism to operate, so that the circuit board is adsorbed, meanwhile, the adsorption mechanism enables the fixing mechanism to fix the circuit board, the automatic fixing effect is achieved, the detection accuracy can be improved, the turnover mechanism operates and pours out chips, the automatic turnover effect is achieved, and therefore people can conveniently clean the chips.

Description

Circuit board compressive property detection device for intelligent manufacturing

Technical Field

The invention relates to a detection device, in particular to a device for detecting the compression resistance of a circuit board for intelligent manufacturing.

Background

The circuit board is the provider of electronic components electrical connection, the pressure value that the circuit board can bear is an important physical index of circuit board, people utilize external force to extrude the circuit board, whether produce the crack through observing the circuit board surface and judge the high or low of the crushing resistance of circuit board, general circuit board resistance to compression detection device need arrange many sets of joint fixed subassembly and realize the fixed to the circuit board, so the operation is comparatively loaded down with trivial details, and can lead to the detection machine area to be big on a large scale, the circumstances that manufacturing cost rises, in addition when current detection device carries out the resistance to compression test, unqualified circuit board can produce the crack, and then can produce the piece, the piece accumulates gradually in the device, because current detection device does not have the function of automatic clearance, and then inconvenient people clear up the piece.

Patent application CN211825419U, it is 2020.10.30 to disclose a printed circuit board resistance to compression testing arrangement, which comprises a box body, the test chamber, the spout, the movable block, the rubber pad, the slider, the connecting block, the screw hole, lead to the groove, connecting rod and square board etc, make two screw rods shrink through rotating the control tube, and then make two movable blocks merge, thereby form the flat board, place the circuit board on the movable block again, control cylinder is down and constantly lifting power, observe whether circuit board surface is broken through the glass board, the pressure value of taking notes pressure sensor in the broken twinkling of an eye is the pressure value of front resistance to compression, pressure sensor's pressure value shows through the display screen on the controller, so carry out the side resistance to compression to the circuit board and detect, however, the device can not pour the piece automatically, and then be not convenient for people to clear up the work.

Therefore, it is necessary to develop a device for detecting the compression resistance of the circuit board for intelligent manufacturing, which can automatically turn over, automatically fix and facilitate feeding.

Disclosure of Invention

In order to overcome the defects that an existing detection device is inconvenient to clean scraps, complex to operate and high in cost of manpower and material resources, the invention aims to provide the intelligent detection device for the compression resistance of the circuit board for manufacturing, which can be automatically turned over, automatically fixed and convenient to feed.

The purpose of the invention is realized by adopting the following technical scheme:

the utility model provides a circuit board compressive property detection device for intelligent manufacturing, is including frame, clamp splice, rotary mechanism, adsorption apparatus structure and accredited testing organization, the inside rotary mechanism that is equipped with of frame, the inboard lower part of frame is equipped with adsorption apparatus structure, and the inboard middle part of frame is equipped with accredited testing organization, the last clamp splice that is equipped with of accredited testing organization.

Preferably, servo motor is installed to the frame inboard, and the inside top side of frame all is equipped with the support frame with inside bottom side, and the inboard rotary type of support frame is equipped with ten gyro wheels, and servo motor's output shaft is connected with a gyro wheel of lower part, all is equipped with the synchronizing wheel on the inboard adjacent eight gyro wheels of lower part, is connected with synchronous belt between the eight synchronizing wheels.

Preferably, frame internal connection has two dead levers, the gliding style is equipped with the balladeur train on the dead lever, around having first spring on the dead lever, first spring coupling is between balladeur train and frame, the inboard slidingtype of balladeur train is equipped with four flexible sliding sleeves, be connected with first link between the four flexible sliding sleeve outsides of homonymy, around having the second spring on the flexible sliding sleeve, the second spring coupling is between balladeur train and first link, flexible sliding sleeve inboard is equipped with the sucking disc, around having the third spring on the flexible sliding sleeve, third spring coupling is between sucking disc and balladeur train.

Preferably, two first fixing frames are arranged inside the outer frame, an air cylinder is arranged on the inner side of each first fixing frame, a second connecting frame is arranged on the telescopic rod of the air cylinder on one side and connected with the clamping block, a first push block is arranged on the telescopic rod of the air cylinder on the other side, and the first push block is matched with the clamping block.

Preferably, two second fixing frames are arranged on the outer frame, four rubber blocks are slidably arranged on the inner sides of the second fixing frames, a third connecting frame is connected between the outer sides of the four rubber blocks on the same side, a fourth spring is wound on the rubber blocks and connected between the second fixing frames and the third connecting frame, two first fixing blocks are arranged inside the outer frame, two second fixing blocks are arranged inside the outer frame, two first guide rods are arranged on the outer sides of the second fixing blocks, a second push block is slidably connected between the two first guide rods on the same side and connected with the third connecting frame, a fifth spring is wound on the first guide rod and connected between the second push block and the second fixing block, a third push block is slidably arranged on the inner side of the first fixing block and matched with the second push block and the first connecting frame, two second guide rods are arranged on the third push block, and are slidably connected with the first fixing block, and a sixth spring is wound on the second guide rod and connected between the first fixed block and the third pushing block.

Preferably, two guide rails are arranged on the inner side of the outer frame, two guide grooves are connected inside the outer frame and are in sliding connection with the first connecting frame, two screw rods are arranged on the outer frame, a bevel gear set is arranged on the screw rods, the roller wheel on one side closest to the servo motor is connected with the bevel gear set, a sliding block is arranged on the screw rods in a threaded mode and is matched with the first connecting frame, and the sliding block is in sliding connection with the guide rails.

Preferably, the inboard rotary type in support frame lower part of downside is equipped with nine dogs, around having two torsion spring on the dog, and torsion spring connects between support frame and the dog of downside, and support frame lower part inboard of downside is equipped with two third fixed blocks, and sliding connection has two push rods between two third fixed blocks, and push rod and dog and first link cooperation are around having the seventh spring on the push rod, and seventh spring coupling is between the third fixed block and the push rod of one side.

Preferably, the sucking disc is used for sucking the circuit board and ensuring that the circuit board can move stably.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the rotary mechanism and the adsorption mechanism are arranged, so that people can operate the rotary mechanism and the adsorption mechanism, the adsorption mechanism can adsorb the circuit board, and then the rotary mechanism and the adsorption mechanism can move the circuit board to the right into the outer frame, so that the feeding is convenient;

2. the testing mechanism and the fixing mechanism are arranged, the fixing mechanism operates and fixes the circuit board, and the testing mechanism performs compression resistance testing on the circuit board, so that the effect of automatic detection is achieved, and labor can be saved;

3. according to the invention, the guide mechanism is arranged, the guide mechanism operates to drive the adsorption mechanism to operate, so that the circuit board is adsorbed, and meanwhile, the adsorption mechanism enables the fixing mechanism to fix the circuit board, so that the effect of automatic fixing is achieved, and the detection accuracy can be improved;

4. according to the invention, the turnover mechanism is arranged, so that scraps generated when the circuit board is broken can fall onto the turnover mechanism due to gravity, and then the turnover mechanism operates and pours out the scraps, so that the effect of automatic turnover is achieved, and people can conveniently clean the scraps.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic sectional perspective view of the present invention.

Fig. 3 is a schematic perspective view of the rotating mechanism and the outer frame of the present invention.

Fig. 4 is a schematic perspective view of the rotating mechanism of the present invention.

FIG. 5 is a schematic cross-sectional perspective view of an adsorption mechanism according to the present invention.

FIG. 6 is a schematic cross-sectional perspective view of a testing mechanism according to the present invention.

Fig. 7 is a schematic view of a first partial sectional perspective structure of the fastening mechanism of the present invention.

Fig. 8 is a schematic sectional perspective view of a second part of the fixing mechanism of the present invention.

Fig. 9 is a schematic sectional perspective view of the guide mechanism of the present invention.

Fig. 10 is a perspective view of the guide mechanism of the present invention.

Fig. 11 is a schematic perspective view of a first turnover mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a second turnover mechanism of the present invention.

Fig. 13 is a schematic perspective view of a third exemplary embodiment of the turnover mechanism of the present invention.

Labeled as: 1-outer frame, 2-clamping block, 3-rotating mechanism, 31-servo motor, 32-support frame, 33-roller, 34-synchronous wheel, 35-synchronous belt, 4-adsorption mechanism, 41-fixed rod, 42-first spring, 43-sliding frame, 44-telescopic sliding sleeve, 45-second spring, 46-sucking disc, 47-third spring, 48-first connecting frame, 5-testing mechanism, 51-first fixing frame, 52-air cylinder, 53-second connecting frame, 54-first pushing block, 6-fixing mechanism, 61-second fixing frame, 62-rubber block, 63-third connecting frame, 64-fourth spring, 65-first fixing block, 66-second fixing block, 67-first guide rod, 68-a fifth spring, 69-a second push block, 610-a third push block, 611-a second guide rod, 612-a sixth spring, 7-a guide mechanism, 71-a guide rail, 72-a guide groove, 73-a screw rod, 74-a bevel gear set, 75-a slide block, 8-a turnover mechanism, 81-a stop, 82-a torsion spring, 83-a third fixed block, 84-a push rod and 85-a seventh spring.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

as shown in fig. 1 to 13, the device for detecting the compression resistance of the circuit board for intelligent manufacturing comprises an outer frame 1, a clamping block 2, a rotating mechanism 3, a servo motor 31, a support frame 32, a roller 33, a synchronizing wheel 34, a synchronizing belt 35, an adsorption mechanism 4, a fixing rod 41, a first spring 42, a carriage 43, a telescopic sliding sleeve 44, a second spring 45, a suction cup 46, a third spring 47, a first connecting frame 48, a testing mechanism 5, a first fixing frame 51, a cylinder 52, a second connecting frame 53, a first push block 54, a fixing mechanism 6, a second fixing frame 61, a rubber block 62, a third connecting frame 63, a fourth spring 64, a first fixing block 65, a second fixing block 66, a first guide rod 67, a fifth spring 68, a second push block 69, a third push block 610, a second guide rod 611, a sixth spring 612, a guide mechanism 7, a guide rail 71, a guide groove 72, a screw 73, a bevel gear set 74, a bevel gear set, a bevel gears set, a testing mechanism 3, a testing mechanism 5, a testing mechanism, a testing, The device comprises a sliding block 75, a turnover mechanism 8, a stop block 81, a torsion spring 82, a third fixing block 83, a push rod 84 and a seventh spring 85, wherein a rotating mechanism 3 is arranged on the inner side of an outer frame 1, an adsorption mechanism 4 is arranged on the lower portion of the inner side of the outer frame 1, a testing mechanism 5 is arranged in the middle of the inner side of the outer frame 1, and a clamping block 2 is arranged on the testing mechanism 5.

People insert the circuit board at the left side of the outer frame 1, then the rotating mechanism 3 is operated, the circuit board moves rightwards, meanwhile, people operate the adsorption mechanism 4, and then the circuit board is adsorbed, so that the thinner circuit board can be ensured to move rightwards stably, after the circuit board moves into the outer frame 1 completely, people stop the rotating mechanism 3, so that the circuit board stops moving, then people fix the circuit board manually, then the testing mechanism 5 operates according to a set pressure value, then the clamping block 2 moves backwards, the clamping block 2 is matched with the testing mechanism 5, so as to extrude the circuit board, if cracks appear at the extruded position of the circuit board, the pressure resistance of the circuit board is low, the circuit board does not accord with the standard, otherwise, the circuit board is high, the circuit board accords with the standard, then the testing mechanism 5 recovers to the original position, so that the clamping block 2 moves back to the original position, people stop the operation of the testing mechanism 5 and then reversely operate the rotating mechanism 3, so that the detected circuit board is gradually moved out of the outer frame 1 leftwards, then people make the adsorption mechanism 4 not to adsorb the circuit board, people take out the detected circuit board again, and then people stop the operation of the rotating mechanism 3.

In a preferred embodiment, a servo motor 31 is installed at the left side of the lower part at the rear side in the outer frame 1, a support frame 32 is installed at both the top side and the bottom side in the outer frame 1, ten rollers 33 are rotatably installed at the inner side of the support frame 32, the second roller 33 from left to right at the lower part is connected with an output shaft of the servo motor 31, synchronizing wheels 34 are installed at the rear sides of the remaining eight rollers 33 at the lower part except for the leftmost side and the rightmost side, and a synchronizing belt 35 is connected between the eight synchronizing wheels 34.

As a preferred embodiment, two fixed rods 41 are connected between the lower portions of the left and right sides inside the outer frame 1, a carriage 43 is slidably disposed on the fixed rods 41, a first spring 42 is wound around the fixed rods 41, the first spring 42 is connected between the carriage 43 and the outer frame 1, four telescopic sliding sleeves 44 are slidably disposed inside the carriage 43, a first connecting frame 48 is connected between the outer sides of the four telescopic sliding sleeves 44 on the same side, a second spring 45 is wound around the telescopic sliding sleeves 44, the second spring 45 is connected between the carriage 43 and the first connecting frame 48, a suction cup 46 is disposed inside the telescopic sliding sleeves 44, a third spring 47 is wound around the telescopic sliding sleeves 44, and the third spring 47 is connected between the suction cup 46 and the carriage 43.

As a preferred embodiment, the front and rear middle parts of the inside of the outer frame 1 are provided with first fixing frames 51, the inner side of the first fixing frame 51 is provided with an air cylinder 52, the rear side of the telescopic rod of the front air cylinder 52 is provided with a second connecting frame 53, the second connecting frame 53 is connected with the clamping block 2, the front side of the telescopic rod of the rear air cylinder 52 is provided with a first pushing block 54, and the first pushing block 54 is matched with the clamping block 2.

As a preferable embodiment, the front and rear sides of the inside of the outer frame 1 are provided with second fixing frames 61, the inside of the second fixing frame 61 is slidably provided with four rubber blocks 62, the outside of the four rubber blocks 62 on the same side is connected with a third connecting frame 63, the rubber blocks 62 are wound with fourth springs 64, the fourth springs 64 are connected between the second fixing frame 61 and the third connecting frame 63, the right side of the inside of the outer frame 1 is provided with two first fixing blocks 65, the middle part of the right side of the inside of the outer frame 1 is provided with two second fixing blocks 66, the outside of the second fixing blocks 66 is provided with two first guide rods 67, the between the first guide rods 67 on the left and right sides is slidably connected with second push blocks 69, the second push blocks 69 are connected with the third connecting frame 63, the first guide rods 67 are wound with fifth springs 68, the fifth springs 68 are connected between the second push blocks 69 and the second fixing blocks 66, the inside of the first fixing blocks 65 is slidably provided with third push blocks 610, the third pushing block 610 is matched with the second pushing block 69 and the first connecting frame 48, two second guide rods 611 are arranged on the third pushing block 610, the second guide rods 611 are connected with the first fixing block 65 in a sliding mode, a sixth spring 612 is wound on the second guide rods 611, and the sixth spring 612 is connected between the first fixing block 65 and the third pushing block 610.

As a preferred embodiment, two guide rails 71 are arranged at the lower right part inside the outer frame 1, two guide grooves 72 are connected between the lower left part and the lower right part inside the outer frame 1, the guide grooves 72 are slidably connected with the first connecting frame 48, two screw rods 73 are arranged at the lower right part inside the outer frame 1, a bevel gear set 74 is arranged at the left side of each screw rod 73, the bevel gear set 74 is connected with the second roller 33 which is arranged from left to right at the lower part, a sliding block 75 is arranged on each screw rod 73 in a threaded manner, the sliding block 75 is matched with the first connecting frame 48, and the sliding block 75 is slidably connected with the guide rails 71.

In a preferred embodiment, nine stoppers 81 are rotatably disposed on the lower inner side of the lower support frame 32, two torsion springs 82 are wound on the stoppers 81, the torsion springs 82 are connected between the lower support frame 32 and the stoppers 81, two third fixing blocks 83 are disposed on the lower inner side of the lower support frame 32, two push rods 84 are slidably connected between the left and right third fixing blocks 83, the push rods 84 are engaged with the stoppers 81 and the first connecting frame 48, a seventh spring 85 is wound on the left portion of the push rods 84, and the seventh spring 85 is connected between the left third fixing block 83 and the push rods 84.

People put the circuit board between the rollers 33 at the upper and lower sides, then start the servo motor 31, the output shaft of the servo motor 31 rotates to drive the second roller 33 to rotate from left to right at the lower part, further the leftmost synchronizing wheel 34 rotates, the synchronizing belt 35 rotates, the synchronizing wheel 34 is matched with the synchronizing belt 35, so that the remaining seven synchronizing wheels 34 rotate, then the seven rollers 33 connected with the seven synchronizing wheels 34 rotate, the eight rollers 33 adjacent to the inner side of the lower part contact with the circuit board and generate friction, the friction force enables the circuit board to move rightwards, other rollers 33 contacting with the circuit board rotate, thus achieving the purpose of automatic feeding, after the circuit board completely moves into the outer frame 1, people close the servo motor 31 to stop moving the circuit board, people manually fix the circuit board, and then carry out compression test on the circuit board, after the compression test is completed, the servo motor 31 is reversed by people, so that the circuit board gradually moves out of the outer frame 1 leftwards, and then the servo motor 31 is closed by people, and the circuit board gradually moving out of the outer frame 1 is collected.

The circuit board is inserted between the suckers 46 at the front side and the rear side, then the first connecting frame 48 is manually moved inwards, the telescopic sliding sleeve 44 is further slid inwards in the sliding frame 43, the second spring 45 is compressed, after the suckers 46 are contacted with the circuit board, the people continue to push the first connecting frame 48, the telescopic sliding sleeve 44 is shortened, the third spring 47 is compressed, meanwhile, the people work a vacuum generator externally connected with the suckers 46, so that the suckers 46 vacuumize and suck the circuit board, then the people manually move the first connecting frame 48 rightwards, further move the telescopic sliding sleeve 44 rightwards, so that the suckers 46 and the sliding frame 43 move rightwards, the first spring 42 is compressed, further the circuit board is moved into the outer frame 1, after the circuit board detection is finished, the people stop pushing the first connecting frame 48 to move rightwards, the first spring 42 is reset, so that the first connecting frame 48 and the suckers 46 move leftwards and back to the original position, and then the circuit board gradually moves out of the outer frame 1 to the left, then the first connecting frame 48 is released by people, the second spring 45 and the third spring 47 are reset, so that the sucking disc 46 is restored to the original position, meanwhile, the vacuum generator externally connected with the sucking disc 46 is stopped working by people, and then the circuit board is taken out.

When the circuit board completely moves into the outer frame 1, a user opens the air cylinder 52, so that the telescopic rod of the air cylinder 52 extends to a preset length, the telescopic rod of the air cylinder 52 on the front side extends to enable the second connecting frame 53 to move backwards, the clamping block 2 moves backwards, meanwhile, the telescopic rod of the air cylinder 52 on the rear side extends to enable the first pushing block 54 to move forwards, the clamping block 2 is matched with the first pushing block 54, so that the circuit board is extruded, if cracks appear at the extruded position of the circuit board, the compression resistance of the circuit board is low and does not meet the standard, otherwise, the compression resistance of the circuit board is high and meets the standard, the air cylinder 52 continues to operate, the clamping block 2 and the first pushing block 54 move back to the original position, and then the test is finished, and the air cylinder 52 is closed.

When the first connecting frame 48 is moved to the right to contact the third pushing block 610, the first connecting frame 48 is moved to move the third pushing block 610 upward, the second guide rod 611 is further moved upward, the sixth spring 612 is compressed, and at the same time, the third push block 610 is moved upward, the second push block 69 is moved inward, the fifth spring 68 is compressed, and the third connecting frame 63 is moved to the inner side, and the rubber block 62 is moved to the inner side, the fourth spring 64 is compressed, and then the rubber block 62 presses the circuit board, thereby achieving the purpose of fixing the circuit board, preventing the circuit board from shaking randomly to influence the detection result, when the first link frame 48 moves leftward, the sixth spring 612 is reset, so that the third push block 610 and the second guide bar 611 move back to the original positions, the fifth spring 68 and the fourth spring 64 are then reset, so that the second push block 69 and the rubber block 62 move back to the original position, and the circuit board is released.

The rotation of the second roller 33 from left to right on the lower portion drives the bevel gear set 74 to rotate, so as to rotate the screw 73, and further to slide the slider 75 to the right on the guide rail 71, thereby pushing the first link frame 48 to move rightward, while the guide groove 72 moves the first link frame 48 inward, then the circuit board is sucked, then the first connecting frame 48 makes the rubber block 62 fix the circuit board, so as to achieve the purpose of automatic fixing, people close the servo motor 31, make the first connecting frame 48 and the sliding block 75 stop moving, then the clamping block 2 and the first pushing block 54 perform the anti-compression detection on the circuit board, after the detection is finished, the servo motor 31 is reversely rotated by people, so that the first connecting frame 48 and the sliding block 75 move back to the original position leftwards, and the circuit board is gradually moved out of the outer frame 1 leftward, and then one turns off the servo motor 31, so that the first link bracket 48 and the slider 75 stop moving.

When the circuit board is broken, debris is generated, the debris falls onto the stop 81 due to gravity, when the first connecting frame 48 moves rightwards to be in contact with the push rod 84, the first connecting frame 48 pushes the push rod 84 to move rightwards, the seventh spring 85 is compressed, the stop 81 is further rotated, the torsion spring 82 is compressed, the debris slides downwards from the top of the stop 81 due to gravity, the debris is collected again, when the first connecting frame 48 moves leftwards back to the original position, the seventh spring 85 is reset, the push rod 84 moves back to the original position, and then the torsion spring 82 is reset, so that the stop 81 rotates back to the original position.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. The utility model provides a circuit board compressive property detection device for intelligent manufacturing, its characterized in that, including frame (1), clamp splice (2), rotary mechanism (3), adsorption apparatus structure (4) and accredited testing organization (5), frame (1) inside is equipped with rotary mechanism (3), and frame (1) inboard lower part is equipped with adsorption apparatus structure (4), and frame (1) inboard middle part is equipped with accredited testing organization (5), is equipped with clamp splice (2) on accredited testing organization (5).

2. The device for detecting the compression resistance of the intelligent manufacturing circuit board according to claim 1, wherein a servo motor (31) is installed inside the outer frame (1), support frames (32) are respectively arranged on the top side and the bottom side inside the outer frame (1), ten rollers (33) are rotatably arranged inside the support frames (32), an output shaft of the servo motor (31) is connected with one roller (33) on the lower portion, synchronizing wheels (34) are respectively arranged on eight adjacent rollers (33) on the inner side of the lower portion, and a synchronizing belt (35) is connected between the eight synchronizing wheels (34).

3. The apparatus according to claim 2, the novel telescopic sliding sleeve is characterized in that two fixing rods (41) are connected to the inner portion of the outer frame (1), a sliding type sliding frame (43) is arranged on each fixing rod (41), a first spring (42) winds the fixing rods (41), the first spring (42) is connected between the sliding frame (43) and the outer frame (1), four telescopic sliding sleeves (44) are arranged on the inner side of the sliding frame (43) in a sliding mode, a first connecting frame (48) is connected between the outer sides of the four telescopic sliding sleeves (44) on the same side, a second spring (45) winds the telescopic sliding sleeves (44), the second spring (45) is connected between the sliding frame (43) and the first connecting frame (48), a sucking disc (46) is arranged on the inner side of each telescopic sliding sleeve (44), a third spring (47) winds the telescopic sliding sleeves (44), and the third spring (47) is connected between the sucking disc (46) and the sliding frame (43).

4. The device for detecting the compression resistance of the circuit board for intelligent manufacturing according to claim 3, wherein two first fixing frames (51) are arranged inside the outer frame (1), the cylinder (52) is arranged inside the first fixing frames (51), the second connecting frame (53) is arranged on the telescopic rod of the cylinder (52) on one side, the second connecting frame (53) is connected with the clamping block (2), the first pushing block (54) is arranged on the telescopic rod of the cylinder (52) on the other side, and the first pushing block (54) is matched with the clamping block (2).

5. The device for detecting the compression resistance of the intelligent manufacturing circuit board according to claim 4, wherein two second fixing frames (61) are arranged on the outer frame (1), four rubber blocks (62) are arranged on the inner sides of the second fixing frames (61) in a sliding manner, a third connecting frame (63) is connected between the outer sides of the four rubber blocks (62) on the same side, a fourth spring (64) is wound on the rubber blocks (62), the fourth spring (64) is connected between the second fixing frames (61) and the third connecting frame (63), two first fixing blocks (65) are arranged in the outer frame (1), two second fixing blocks (66) are arranged in the outer frame (1), two first guide rods (67) are arranged on the outer sides of the second fixing blocks (66), a second pushing block (69) is connected between the two first guide rods (67) on the same side in a sliding manner, and the second pushing block (69) is connected with the third connecting frame (63), the first guide rod (67) is wound with a fifth spring (68), the fifth spring (68) is connected between a second push block (69) and a second fixed block (66), the inner side of the first fixed block (65) is provided with a third push block (610) in a sliding manner, the third push block (610) is matched with the second push block (69) and the first connecting frame (48), the third push block (610) is provided with two second guide rods (611), the second guide rods (611) are connected with the first fixed block (65) in a sliding manner, the second guide rods (611) are wound with a sixth spring (612), and the sixth spring (612) is connected between the first fixed block (65) and the third push block (610).

6. The device for detecting the compression resistance of the circuit board for intelligent manufacturing according to claim 5, wherein two guide rails (71) are arranged on the inner side of the outer frame (1), two guide grooves (72) are connected inside the outer frame (1), the guide grooves (72) are connected with the first connecting frame (48) in a sliding manner, two screw rods (73) are arranged on the outer frame (1), a bevel gear set (74) is arranged on each screw rod (73), the roller (33) on one side closest to the servo motor (31) is connected with the bevel gear set (74), a sliding block (75) is arranged on each screw rod (73) in a threaded manner, the sliding block (75) is matched with the first connecting frame (48), and the sliding block (75) is connected with the guide rails (71) in a sliding manner.

7. The device for detecting the compression resistance of the circuit board for intelligent manufacturing according to claim 6, wherein nine stoppers (81) are rotatably arranged on the inner side of the lower portion of the lower support frame (32), two torsion springs (82) are wound on the stoppers (81), the torsion springs (82) are connected between the lower support frame (32) and the stoppers (81), two third fixing blocks (83) are arranged on the inner side of the lower portion of the lower support frame (32), two push rods (84) are slidably connected between the two third fixing blocks (83), the push rods (84) are matched with the stoppers (81) and the first connecting frame (48), seventh springs (85) are wound on the push rods (84), and the seventh springs (85) are connected between the third fixing blocks (83) and the push rods (84) on one side.

8. The device for detecting the compressive property of the intelligent manufacturing circuit board as claimed in claim 7, wherein the sucking disc (46) is used for sucking the circuit board to ensure that the circuit board can move smoothly.