CN213435773U - Sorting and discharging device of MOS tube testing and sorting machine - Google Patents

Abstract

The utility model relates to a MOS manages sorting unloader of test sorting machine, including the sorting frame, at least two guide rails of fixedly connected with are drawn on the sorting frame, be provided with the sorting subassembly that is used for guiding the material to corresponding guide rail according to the data of check out test set transmission on the sorting frame, first material board of fixedly connected with and second material board on the sorting frame, storage space has between first material board and the second material board, the feed port has been seted up to first material board, feed port and guide rail intercommunication, the feed port corresponds and is close to the bottom of sorting frame with the tip of accepting the box, the discharge opening has been seted up on the second material board, the bottom of sorting frame is kept away from to the discharge opening, be provided with material loading subassembly on the sorting frame, the position of first material board is higher than the second material board, be provided with locating component on the first material board, material loading subassembly drives and accepts the box and after arriving storage space, the box of accepting in situ is pushed up by the accepting. This application has the effect that improves shipment efficiency.

Description

Sorting and discharging device of MOS tube testing and sorting machine

Technical Field

The application relates to the field of component testing equipment, in particular to a sorting and discharging device of an MOS tube testing and sorting machine.

Background

At present, after MOS tubes are produced, the MOS tubes need to be detected, defective products are removed, and the quality of the finally delivered MOS tubes is guaranteed.

Generally, an MOS tube to be detected is firstly conveyed to a detection device, then the MOS tube is conveyed to a defective product position or a qualified product position according to a detection result of the detection device, so that sorting of the defective product and the qualified product is completed, and after sorting is completed, a worker loads the qualified product into a receiving box through the device and then carries out delivery.

For the related technologies, qualified products need to be collected and packaged manually after detection is completed, and the inventor thinks that the defect of low shipment efficiency exists.

SUMMERY OF THE UTILITY MODEL

In order to improve shipment efficiency, this application provides a sorting unloader of MOS pipe test sorter.

The application provides a sorting unloader of MOS pipe test sorter adopts following technical scheme:

a sorting and discharging device of an MOS tube testing and sorting machine comprises a sorting frame, wherein at least two guide rails are fixedly connected to the sorting frame, a sorting component used for guiding materials to the corresponding guide rails according to data transmitted by detection equipment is arranged on the sorting frame, a first material plate and a second material plate are fixedly connected to the sorting frame, a storage space is formed between the first material plate and the second material plate, a feeding hole is formed in the first material plate and is communicated with the guide rails, the feeding hole corresponds to the end portion of a receiving box and is close to the bottom of the sorting frame, a discharging hole is formed in the second material plate and is far away from the bottom of the sorting frame, a feeding component used for driving the receiving box to reach the storage space is arranged on the sorting frame, the first material plate is higher than the second material plate, and a positioning component used for positioning the receiving box is arranged on the first material plate, after the loading assembly drives the receiving box to reach the storage space, the original receiving box is jacked up by the newly arrived receiving box.

By adopting the technical scheme, the sorting component guides the materials to the corresponding guide rails according to the detection result of the detection equipment, the positioning component fixes the position of the receiving box to ensure that the receiving box is positioned at the storage space, when the materials reach the guide rails, the materials enter the receiving box from the feeding holes so as to finish sorting and collecting of the materials, when the materials in the receiving box can not enter any more, the feeding component drives a new receiving box to reach the storage space, and simultaneously the positioning component removes the full receiving box, so that the new receiving box jacks up the full receiving box, the positioning component positions the new receiving box, the new receiving box collects the materials, when the receiving box full of the materials reaches the discharging holes, the receiving box leaves the sorting frame from the discharging holes, thereby finishing the discharging operation and ensuring that qualified products do not need to be artificially collected and packed in the whole process, the shipment efficiency is higher.

Preferably, the separation subassembly is established the drive wheel and is driven the hold-in range on the follow driving wheel on the separation frame, is connected including rotating the drive wheel of connection on the separation frame, rotating, simultaneously, and set up and drive the drive wheel on the separation frame and rotate driving piece, fixed connection and select separately the guide rail on the hold-in range, driving piece and check out test set signal connection.

Through adopting above-mentioned technical scheme, the driving piece carries out work according to the signal of check out test set transmission, the driving wheel is driven to rotate after the driving piece work, the drive hold-in range takes place to remove after the drive wheel rotates, thereby make also take place to rotate from the driving wheel, make the removal that the hold-in range lasts, the hold-in range removes the back, it takes place to remove to drive the sorting guide rail, thereby make the material that is located the sorting guide rail take place to remove along with the sorting guide rail together, thereby make the material reach corresponding guide rail department, accomplish the sorting operation of.

Preferably, the material loading subassembly is including setting up guide bar, the sliding connection on the sorting rack and be used for placing the movable plate that holds the box on the guide bar, go up and down to set up on the movable plate and with hold the thing board of putting that the box contradicts, set up and drive on the movable plate and put the lifting member that the thing board removed, set up the moving member that drives the movable plate removal on the sorting rack.

Through adopting above-mentioned technical scheme, the moving member drives the movable plate and slides on the guide bar, and after the removal version reachd the assigned position, the thing board removal was put in the drive of lifter to promote the holding box and rise, with former holding box jack-up, thereby the change of comparatively quick convenient realization holding box.

Preferably, the moving member includes the action wheel of rotation connection on the sorting rack, set up drive action wheel pivoted control piece, rotation connection at the driven wheel on the sorting rack, overlap the driving band on action wheel and driven wheel simultaneously, driving band and movable plate fixed connection.

Through adopting above-mentioned technical scheme, the control piece drives the action wheel and rotates, drives the driving band after the action wheel rotates and removes, and the driving band removes and drives the follower rotation to make the driving band continuously move, realize the drive to the movable plate.

Preferably, the positioning assembly comprises a driving cylinder arranged on the first material plate and a clamping block fixedly connected with a pushing rod of the driving cylinder, and the clamping block extends into the feeding hole.

Through adopting above-mentioned technical scheme, when needs are fixed a position to accepting the box, drive actuating cylinder and drive the clamp block and remove to make the clamp block stretch into the feed port woolen cloth, press from both sides the clamp block and accept the contact of box tip, press from both sides the clamp block and hold the tip of accepting the box and support the back, make and hold the box and be difficult to remove, accomplish the fixed of accepting the box position.

Preferably, be provided with the guide wheel through the connecting piece on the inner wall of discharge opening, the guide wheel is contradicted with accepting the box, the connecting piece is including setting up the elastic rod on the discharge opening inner wall, the elastic rod rotates with the guide wheel and is connected.

Through adopting above-mentioned technical scheme, when accepting the box and entering into the discharge gate in, the guide wheel with accept the box contact, the elastic rod takes place deformation, makes the guide wheel conflict on accepting the box, because the guide wheel with accept the frictional force between the box for rolling frictional force, make to accept the box and can comparatively quick leave from the discharge gate, thereby improved shipment efficiency.

Preferably, the second material plate is provided with an auxiliary device, the auxiliary device comprises a detection assembly for determining the position of the receiving box and a driving assembly for driving the guide wheel to rotate, the driving assembly comprises a rotating motor connected to the second material plate in a sliding manner, an auxiliary wheel fixedly connected to an output shaft of the rotating motor, and a push-pull member for driving the rotating motor to move, the auxiliary wheel abuts against the guide wheel, and the detection assembly is electrically connected with the rotating motor and the push-pull member.

Through adopting above-mentioned technical scheme, the position that detection assembly judged the box that holds, when holding the box card in the discharge opening, detection assembly control rotated motor work, and control push-and-pull piece work for the auxiliary wheel contacts with the guide wheel, thereby drives the guide wheel and rotates, through the guide wheel and hold the frictional force between the box, drives the box that holds and leaves the discharge opening.

Preferably, one side of the second material plate, which is far away from the storage space, is fixedly connected with a guide plate, and the guide plate is positioned below the discharge hole.

Through adopting above-mentioned technical scheme, accept the box and leave the back from the discharge opening, take place the contact with the guide board at the unloading in-process, the guide board guides accepting the box to make and accept the box and can drop to comparatively accurate position.

Preferably, the second material plate is provided with a speed measuring component, the speed measuring component comprises a speed measuring wheel which is rotatably connected to the inner wall of the discharge hole and used for abutting against the bearing box, and a speed sensor which is arranged on the second material plate and used for acquiring the speed of the speed measuring wheel, and the speed sensor is electrically connected with the detection component.

Through adopting above-mentioned technical scheme, drive the tachometer wheel and take place to rotate when accepting the box and removing, speedtransmitter acquires and transmits the speed of tachometer wheel to push away and draw the piece, pushes away and draws the piece when the tachometer wheel speed is too fast, drives and rotates the motor and remove to make the translation rate who accepts the box reduce, make the whereabouts to the assigned position that accepts the box can be comparatively accurate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sorting assembly is arranged, so that materials are conveyed to the corresponding receiving box by the sorting assembly, rapid material collection is achieved, the receiving box is jacked up by the loading assembly through the discharging hole and the loading assembly, the receiving box reaches the discharging hole, and the receiving box falls from the discharging hole, so that blanking operation is achieved rapidly, and the discharging efficiency is improved;

2. by arranging the auxiliary device and the guide wheel, when the receiving box cannot move at the discharge hole, the auxiliary device and the guide wheel drive the receiving box to move, so that the blanking is relatively quick;

3. through setting up the speed measuring component, the speed measuring component makes the unloading speed of accepting the box can obtain control, makes and accepts the difficult departure of box.

Drawings

Fig. 1 is a schematic view showing a connection structure of a sorting rack and a first material plate.

Fig. 2 is an enlarged schematic view of a position a in fig. 1, and shows a connection structure of the first limiting column and the feed hole.

Fig. 3 is a schematic view showing a connection structure of the driven pulley and the timing belt.

Fig. 4 is a schematic view showing a connection structure of the driving cylinder and the guide rail.

Fig. 5 is a schematic view showing a connection structure of the moving plate and the storage plate.

Fig. 6 is a schematic sectional view showing a connection structure of the guide wheel and the auxiliary wheel.

Description of reference numerals: 1. a sorting rack; 11. a first material plate; 111. a first positioning groove; 112. a feed port; 113. a first limit post; 12. a second material plate; 121. a second positioning groove; 122. a discharge hole; 123. mounting grooves; 124. a guide wheel; 125. an accommodating chamber; 126. a light-transmitting hole; 127. a placement groove; 128. a mounting cavity; 129. a second limit post; 13. a storage space; 2. a guide rail; 3. a sorting assembly; 31. a drive wheel; 32. a driven wheel; 33. a synchronous belt; 34. a drive member; 35. a sorting guide rail; 4. a positioning assembly; 41. a driving cylinder; 42. a clamping block; 43. abutting against the inclined plane; 5. a feeding assembly; 51. a guide rod; 52. moving the plate; 53. a storage plate; 531. a storage groove; 54. a lifting member; 55. a moving member; 551. a driving wheel; 552. a driven wheel; 553. a control member; 554. a drive belt; 6. a connecting member; 61. an elastic rod; 7. an auxiliary device; 71. a detection component; 711. a photosensor; 712. a controller; 72. a drive assembly; 721. rotating the motor; 722. an auxiliary wheel; 723. a push-pull member; 8. a speed measuring component; 81. a speed measuring wheel; 82. a speed sensor; 9. a guide plate; 10. a receiving box.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a sorting and discharging device of an MOS tube testing and sorting machine. Referring to fig. 1 and 2, the sorting and blanking device comprises a sorting frame 1, wherein a first material plate 11 and a second material plate 12 are fixedly connected to the sorting frame 1, the first material plate 11 is higher than the second material plate 12, and a storage space 13 for storing the receiving box 10 is formed between the first material plate 11 and the second material plate 12. The first material plate 11 is fixedly connected with first limiting columns 113 on one side facing the second material plate 12, first positioning grooves 111 are formed among the first limiting columns 113, and the first positioning grooves 111 are evenly distributed along the length direction of the first material plate 11. The second material plate 12 is fixedly connected with a second limiting column 129 on one side facing the first material plate 11, a second positioning groove 121 is formed between the second limiting columns 129, the second positioning grooves 121 are uniformly distributed along the length direction of the second material plate 12, and the first positioning groove 111 and the second positioning groove 121 correspond to each other. The first material plate 11 is provided with a feed hole 112, the feed hole 112 is communicated with the first positioning groove 111, and the feed hole 112 is close to the bottom of the sorting frame 1. The second material plate 12 is provided with a discharge hole 122, the discharge hole 122 is communicated with the second positioning slot 121, and the discharge hole 122 is far away from the bottom of the sorting rack 1. One side of the second material plate 12 far away from the first material plate 11 is fixedly connected with a guide plate 9, and the guide plate 9 is located below the discharge hole 122.

Referring to fig. 3 and 4, a plurality of guide rails 2 are fixedly connected to the sorting frame 1, and the guide rails 2 are communicated with the feeding holes 112. Sorting unit 3 is provided with on the sorting rack 1, sorting unit 3 includes drive wheel 31, from driving wheel 32, hold-in range 33, driving piece 34 and sorting guide rail 35, drive wheel 31 rotates with from driving wheel 32 and connects the both ends at sorting rack 1, hold-in range 33 overlaps simultaneously and establishes on drive wheel 31 and follow driving wheel 32, driving piece 34 is servo motor, driving piece 34 fixed connection just output shaft and drive wheel 31 fixed connection on sorting rack 1. The sorting guide 35 is fixedly connected to the timing belt 33 and corresponds to the guide rail 2. When the synchronous belt 33 drives the sorting guide rail 35 to one of the guide rails 2, the material moves from the sorting guide rail 35 to the guide rail 2.

Be provided with locating component 4 on first material board 11, locating component 4 drives actuating cylinder 41 and presss from both sides tight piece 42 including, drives actuating cylinder 41 fixed connection on first material board 11, presss from both sides tight piece 42 fixed connection on the catch bar that drives actuating cylinder 41, presss from both sides to offer on the tight piece 42 and is used for accepting the conflict inclined plane 43 of the tip conflict of box 10.

Referring to fig. 3 and 5, a feeding assembly 5 is arranged on the sorting rack 1, the feeding assembly 5 includes a guide rod 51, a moving plate 52, a placing plate 53, a lifting piece 54 and a moving piece 55, the guide rod 51 is fixedly connected to the sorting rack 1, the moving plate 52 is slidably connected to the guide rod 51, the lifting piece 54 is arranged on the moving plate 52, the lifting piece 54 is a lifting cylinder, the placing plate 53 is fixedly connected to a push rod of the lifting piece 54, and a placing groove 531 for placing the receiving box 10 is formed in one side of the placing plate 53, which is far away from the lifting piece 54. The moving member 55 comprises a driving wheel 551, a driven wheel 552, a control member 553 and a driving belt 554, the driving wheel 551 and the driven wheel 552 are rotatably connected to the sorting frame 1, the driving belt 554 is simultaneously sleeved on the driving wheel 551 and the driven wheel 552, the control member 553 is fixedly connected to the sorting frame 1, the control member 553 is a servo motor, an output shaft of the control member 553 is fixedly connected with the driving wheel 551, and the moving plate 52 is fixedly connected with the driving belt 554.

Referring to fig. 6, mounting grooves 123 have been seted up on the both sides inner wall of discharge opening 122, rotate through connecting piece 6 in the mounting groove 123 and be connected with guide wheel 124, and connecting piece 6 includes two elastic rod 61, and elastic rod 61 adopts rubber to make, and elastic rod 61 fixed connection is on the both sides inner wall of mounting groove 123, and the both sides and the elastic rod 61 of guide wheel 124 rotate to be connected, and guide wheel 124 exposes mounting groove 123. When the receiving box 10 enters the discharging hole 122, the guide wheel 124 abuts against the receiving box 10 and rotates along with the movement of the receiving box 10. The accommodating cavity 125 is formed in the second material plate 12, the auxiliary device 7 is arranged in the accommodating cavity 125, the auxiliary device 7 comprises a detection assembly 71 and a driving assembly 72, the detection assembly 71 comprises a photoelectric sensor 711 and a controller 712, a light hole 126 is formed in the second material plate 12, the accommodating cavity 125 is communicated with the discharge hole 122 through the light hole 126, the photoelectric sensor 711 is installed on the inner wall of the accommodating cavity 125, the detection end of the photoelectric sensor is located at the position of the light hole 126, and the controller 712 is installed on the inner wall of the accommodating cavity 125 and is electrically connected with the photoelectric sensor 711. The driving assembly 72 includes a rotating motor 721, an auxiliary wheel 722 and a push-pull member 723, the push-pull member 723 is an air cylinder, the rotating motor 721 is fixedly connected to a push rod of the air cylinder, the auxiliary wheel 722 is fixedly connected to an output shaft of the rotating motor 721, the controller 712 is electrically connected to the rotating motor 721 and the air cylinder, and transmits a control signal to the rotating motor 721 and the air cylinder to control the rotating motor 721 and the air cylinder to operate.

The second material plate 12 is provided with a speed measuring component 8, the speed measuring component 8 comprises a speed measuring wheel 81 and a speed sensor 82, a placing groove 127 is formed in the inner wall of the upper side of the discharge hole 122, the speed measuring wheel 81 is rotatably connected in the placing groove 127, the speed measuring wheel 81 is exposed out of the placing groove 127, and when the receiving box 10 enters the discharge hole 122, the speed measuring wheel 81 is abutted against the receiving box 10 and rotates along with the movement of the receiving box 10. The second flitch 12 is provided with a mounting cavity 128, the mounting cavity 128 is communicated with the placing groove 127, the speed sensor 82 is mounted in the mounting cavity 128 and electrically connected with the controller 712, and the speed sensor 82 is a photoelectric encoder.

The application embodiment of the sorting and blanking device of the MOS tube test sorting machine has the following implementation principles: detection equipment detects the MOS pipe, the MOS pipe that finishes that detects falls into and selects separately guide rail 35 department, when the MOS pipe falls into and selects separately guide rail 35 department, detection equipment exports control signal to driving piece 34 according to the testing result, driving piece 34 drives driving wheel 31 and rotates, driving wheel 31 rotates and drives hold-in range 33 and remove, hold-in range 33 removes the back, from the rotation of driving wheel 32 along with hold-in range 33's removal, thereby realize hold-in range 33's continuous movement, hold-in range 33 removes the back, it is removing along with hold-in range 33 to select separately guide rail 35, it drives the MOS pipe and removes together to select separately guide rail 35, it reaches appointed guide rail 2 department to be driven when selecting separately guide rail 35, the MOS pipe removes to guide rail 2 department from selecting separately guide rail 35 this moment, then enter into from feed port 112 and accept in the box 10.

When the receiving box 10 can not store MOS transistors, the driving cylinder 41 located at the storage area drives the clamping block 42 to realize one-time reciprocating movement, so that the falling of one empty storage box is realized, and the next empty storage box is positioned and clamped. The dropped empty storage box falls onto the storage plate 53 and enters the storage slot 531, thereby realizing the positioning of the position. Then, the control member 553 drives the driving wheel 551 to rotate, the driving wheel 551 rotates to drive the driving belt 554 to move, the driving belt 554 drives the driven wheel 552 to rotate after moving, so that the driving belt 554 is continuously moved, and the driving belt 554 drives the moving plate 52 to slide along the guiding rod 51 after moving, so that the object placing plate 53 is driven to reach a position to be replenished. At this time, the driving cylinder 41 at the receiving box 10 full of MOS transistors drives the clamping block 42 to realize one-time reciprocating movement, so that the storage box falls down, the storage box falls onto the object placing plate 53 and enters the object placing groove 531, then the lifting piece 54 drives the object placing plate 53 to ascend, and the object placing plate reaches the feed hole 112, and at this time, the driving cylinder 41 drives the clamping block 42 to enter the feed hole 112, so that the empty storage box is positioned and clamped.

After the receiving box 10 with the fully stored MOS is jacked up for many times, the uppermost receiving box 10 reaches the discharging hole 122, and when the receiving box 10 reaches the discharging hole 122, the uppermost receiving box 10 enters the discharging hole 122 under the action of self gravity, and the receiving box 10 abuts against the guide wheel 124 and the velocity measuring wheel 81 in the discharging hole 122. The guide wheel 124 guides the receiving box 10 to leave the discharge hole 122 and fall onto the guide plate 9, so that the receiving box 10 is discharged. When the receiving box 10 stays in the discharging hole 122 for a long time, the photoelectric sensor 711 transmits a detection signal to the controller 712, the controller 712 determines that the receiving box 10 stays for a long time, the controller 712 outputs a control signal to the push-pull member 723 and the rotating motor 721, the rotating motor 721 drives the auxiliary wheel 722 to rotate, the push-pull member 723 drives the rotating motor 721 to be close to the guide wheel 124, when the guide wheel 124 abuts against the auxiliary wheel 722, the auxiliary wheel 722 drives the guide wheel 124 to rotate, so that the guide wheel 124 drives the receiving box 10 to move, because the elastic rod 61 is deformed when the receiving box 10 contacts with the guide wheel 124, the contact between the guide wheel 124 and the receiving box 10 is good, and the guide wheel 124 can better drive the receiving box 10 to move. If the guiding wheel 124 is difficult to drive the receiving box 10 to move, the pushing and pulling member 723 can drive the rotating motor 721 to move back and forth, so that the auxiliary wheel 722 collides with the guiding wheel 124, the guiding wheel 124 also collides with the receiving box 10, the position of the receiving box 10 can be corrected, and the receiving box 10 can leave the discharging hole 122 quickly. When the receiving box 10 moves, the receiving box 10 can drive the velocity wheel 81 to move, the velocity sensor 82 transmits the rotation speed of the velocity wheel 81 to the controller 712 after the velocity wheel 81 moves, and the controller 712 can determine whether to control the push-pull member 723 to drive the rotating motor 721 to be away from the guide wheel 124 according to the rotation speed, so that the rotation speed of the guide wheel 124 is not too fast, the receiving box 10 cannot leave the discharge hole 122 at a fast speed, and the collection of the receiving box 10 is not affected easily.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a MOS manages sorting unloader of test separator which characterized in that: the sorting device comprises a sorting frame (1), at least two guide rails (2) are fixedly connected to the sorting frame (1), a sorting component (3) used for guiding materials to the corresponding guide rails (2) according to data transmitted by detection equipment is arranged on the sorting frame (1), a first material plate (11) and a second material plate (12) are fixedly connected to the sorting frame (1), a storage space (13) is arranged between the first material plate (11) and the second material plate (12), a feeding hole (112) is formed in the first material plate (11), the feeding hole (112) is communicated with the guide rails (2), the feeding hole (112) corresponds to the end of a bearing box (10) and is close to the bottom of the sorting frame (1), a discharging hole (122) is formed in the second material plate (12), and the discharging hole (122) is far away from the bottom of the sorting frame (1), the sorting frame (1) is provided with a feeding assembly (5) used for driving the receiving box (10) to reach the storage space (13), the position of the first material plate (11) is higher than that of the second material plate (12), a positioning assembly (4) used for positioning the receiving box (10) is arranged on the first material plate (11), and after the feeding assembly (5) drives the receiving box (10) to reach the storage space (13), the receiving box (10) at the original position is jacked up by the newly reached receiving box (10).

2. The sorting and blanking device of the MOS tube testing and sorting machine of claim 1, wherein: sorting subassembly (3) including rotate drive wheel (31), the rotation connection on sorting rack (1) from driving wheel (32), overlap simultaneously and establish drive wheel (31) and from hold-in range (33) on driving wheel (32), set up and drive wheel (31) on sorting rack (1) and rotate separation guide rail (35) on hold-in range (33) that driving piece (34), fixed connection rotate driving piece (34), check out test set signal connection on sorting rack (1), driving piece (34) and check out test set signal connection.

3. The sorting and blanking device of the MOS tube testing and sorting machine of claim 1, wherein: the feeding assembly (5) comprises a guide rod (51) arranged on the sorting frame (1), a moving plate (52) which is connected to the guide rod (51) in a sliding mode and used for placing the receiving box (10), an object placing plate (53) which is arranged on the moving plate (52) in a lifting mode and is abutted to the receiving box (10), a lifting piece (54) which is arranged on the moving plate (52) and drives the object placing plate (53) to move, and a moving piece (55) which is arranged on the sorting frame (1) and drives the moving plate (52) to move.

4. The sorting and blanking device of the MOS tube testing and sorting machine of claim 3, wherein: the moving piece (55) comprises a driving wheel (551) rotatably connected to the sorting frame (1), a control piece (553) arranged on the sorting frame (1) and used for driving the driving wheel (551) to rotate, a driven wheel (552) rotatably connected to the sorting frame (1) and a driving belt (554) sleeved on the driving wheel (551) and the driven wheel (552) at the same time, wherein the driving belt (554) is fixedly connected with the moving plate (52).

5. The sorting and blanking device of the MOS tube testing and sorting machine of claim 1, wherein: the positioning assembly (4) comprises a driving air cylinder (41) arranged on the first material plate (11) and a clamping block (42) fixedly connected with a push rod of the driving air cylinder (41), and the clamping block (42) extends into the feeding hole (112).

6. The sorting and blanking device of the MOS tube testing and sorting machine of claim 1, wherein: be provided with guide wheel (124) through connecting piece (6) on the inner wall of discharge opening (122), guide wheel (124) are contradicted with holding box (10), connecting piece (6) are including setting up elastic rod (61) on discharge opening (122) inner wall, elastic rod (61) rotate with guide wheel (124) and are connected.

7. The sorting and blanking device of the MOS tube testing and sorting machine of claim 1, wherein: the auxiliary device (7) is arranged on the second material plate (12), the auxiliary device (7) comprises a detection component (71) used for determining the position of the receiving box (10) and a driving component (72) used for driving the guide wheel (124) to rotate, the driving component (72) comprises a rotating motor (721) connected to the second material plate (12) in a sliding mode, an auxiliary wheel (722) fixedly connected to an output shaft of the rotating motor (721) and a push-pull piece (723) used for driving the rotating motor (721) to move, the auxiliary wheel (722) abuts against the guide wheel (124), and the detection component (71) is electrically connected with the rotating motor (721) and the push-pull piece (723).

8. The sorting and blanking device of the MOS tube testing and sorting machine of claim 1, wherein: one side fixedly connected with guide board (9) that storage space (13) was kept away from to second flitch (12), guide board (9) are located the below of discharge opening (122).

9. The sorting and blanking device of the MOS tube testing and sorting machine of claim 1, wherein: be provided with speed measuring component (8) on second flitch (12), speed measuring component (8) including rotate connect in discharge opening (122) inner wall and be used for with bearing box (10) conflict tachometer wheel (81), set up speedtransmitter (82) that are used for acquireing tachometer wheel (81) speed on second flitch (12), speedtransmitter (82) are connected with detection component (71) electricity.

Images