CN115642123B - Diode scaling powder self-cleaning equipment - Google Patents

Abstract

The utility model relates to the technical field of diode cleaning equipment, in particular to automatic cleaning equipment for diode soldering flux, which comprises a cover plate, a cleaning tank, a rotating assembly, a connecting frame, a roller and a mounting frame, wherein the cover plate is arranged on the connecting frame; the rotating assembly comprises a first rotating mechanism and a second rotating mechanism; the connecting frame is fixedly connected with the first rotating mechanism; the roller comprises a rotary support, a disc, a cylinder column and a bracket; the mounting bracket evenly arranges along the circumferencial direction of cylinder and with the support rigid coupling on the cylinder perisporium, be provided with charging tray, otter board, card solid mechanism, release mechanism and elastic component on the mounting bracket, the mounting bracket is inserted and is equipped with charging tray, otter board is inserted and is established in the spout and with spout sliding fit, the one end of otter board is articulated with the mounting bracket, card solid mechanism is fixed to be set up in the upper end of spout, release mechanism is fixed to be set up in the middle part of mounting bracket lateral wall and with the lateral wall sliding fit of mounting bracket, the elastic component is fixed to be set up in the bottom of spout. The utility model avoids the residue of soldering flux and improves the cleaning effect and the working efficiency.

Description

Diode scaling powder self-cleaning equipment

Technical Field

The utility model relates to the technical field of diode cleaning equipment, in particular to automatic cleaning equipment for diode soldering flux.

Background

The welding process of the diode needs to be coated with soldering flux, and the residual soldering flux pollutes a chip and affects the electrical performance, so that the chip needs to be cleaned, and at present, the cleaning is to comb each material into an aluminum strip through a carding strip, and the aluminum strip is put into a cleaning machine for cleaning; the material combing operation has low efficiency, and the material is easy to fall off in the material combing process, so that the chip is damaged. In addition, the existing diode cleaning machine only cleans the diode through ultrasonic vibration, and the cleaned soldering flux or welding slag can be continuously adhered to the diode, so that the diode is not thoroughly cleaned.

Chinese patent application CN217451267U discloses a device for rinsing diode, including washing tank, circulating pump, apron, supporting device and washing conversion dish, the bottom of washing tank is provided with ultrasonic wave generating device, spray set sets up in the washing tank, and spray set sets up the upper portion at the washing tank, the input port of circulating pump communicates with the bottom of washing tank, the delivery outlet is linked together with spray set, the apron lock is in the upside of washing tank, supporting device sets up in the apron downside, supporting device links to each other with the apron, washing conversion dish detachable installs on supporting device. According to the utility model, the ultrasonic wave generator can be used for ultrasonic cleaning of the diode on the cleaning conversion plate, and spraying and flushing can be carried out on the diode when the cleaning conversion plate is taken out, so that soldering flux or welding slag is prevented from adhering to the cleaned diode, and the good cleaning effect of the diode is ensured.

However, in the actual use process, the cleaning effect on the diode is limited, the operation cost is increased by pushing and taking out the cleaning conversion plate, and the working efficiency is reduced by cleaning the diode on one cleaning conversion plate at a time.

Disclosure of Invention

In order to solve the problems, an automatic cleaning device for diode soldering flux is provided.

In order to solve the problems in the prior art, the utility model adopts the following technical scheme:

the automatic cleaning equipment for the diode soldering flux comprises a cover plate, a cleaning tank, a rotating assembly, a connecting frame, a roller and a mounting frame; the rotating assembly comprises a first rotating mechanism and a second rotating mechanism, the first rotating mechanism is fixedly arranged at the upper end of the cover plate, the second rotating mechanism is fixedly arranged at the lower end of the cover plate, and the second rotating mechanism is in transmission connection with the first rotating mechanism; the connecting frame is of a U-shaped frame structure, the bottom end of the connecting frame is fixedly connected with the first rotating mechanism, and first through holes are formed in two side walls of the opening end of the connecting frame; the rotary support is coaxially arranged with the first through hole and is in running fit with the first through hole, the disc is coaxially arranged with the rotary support, the bottom of the rotary support is fixedly connected with the upper part of the rotary support, the cylindrical column is coaxially arranged with the disc and is fixedly connected with the disc, and the brackets are uniformly arranged along the circumferential direction on the side wall of the cylindrical column; the mounting bracket is evenly arranged along the circumferential direction of the roller and is fixedly connected with a bracket on the circumferential wall of the roller, a material tray, a screen plate, a clamping mechanism, an unlocking mechanism and an elastic piece are arranged on the mounting bracket, a notch is formed in the mounting bracket, sliding grooves are formed in the two sides of the notch, the material tray is inserted into the notch, the screen plate is inserted into the sliding grooves and is in sliding fit with the sliding grooves, one end of the screen plate is hinged to the mounting bracket, the clamping mechanism is fixedly arranged at the upper end of the sliding grooves, the unlocking mechanism is fixedly arranged in the middle of the side wall of the mounting bracket and is in sliding fit with the side wall of the mounting bracket, and the elastic piece is fixedly arranged at the bottom of the sliding grooves.

Preferably, the clamping mechanism comprises a clamping block, a first guide post, a first spring and a limiting block; the inner side wall of the upper end of the sliding chute is provided with a first hole, the clamping block is arranged in the first hole in a sliding way, and the clamping block is provided with a second through hole; the first guide post and the second through hole are coaxially arranged and are in sliding fit, and the bottom of the first guide post is fixedly connected with the inner side wall of the first hole; the first spring is sleeved on the first guide post, and the bottom of the first spring is fixedly connected with the inner side wall of the first hole; the stopper is fixedly arranged at one end, far away from the inner side wall of the first hole, of the first guide pillar.

Preferably, the unlocking mechanism comprises a pressing unit, a linkage unit and a resetting unit; the side wall of the mounting frame is provided with a second hole, and the pressing unit is inserted into the second hole and is in sliding fit with the second hole; the linkage unit is fixedly arranged on the inner side wall of the second hole and is rotationally connected with the inner side wall of the second hole; the reset unit is fixedly connected with the bottom of the pressing unit.

Preferably, the pressing unit includes a button and a connection post; the connecting column is inserted into the second hole and is in sliding fit with the second hole; the button is fixedly arranged at the top end of the connecting column.

Preferably, the linkage unit comprises a pulley and a steel wire rope, and the pressing unit further comprises a locking rope buckle; the locking rope buckle is fixedly arranged at the bottom of the connecting column; the pulley is fixedly arranged on the inner side wall of the second hole and is rotationally connected with the inner side wall of the second hole; the two ends of the steel wire rope are fixedly connected with the back of the clamping block and the locking rope buckle respectively, and the middle part of the steel wire rope is lapped on the pulley.

Preferably, the reset unit comprises a second guide post and a second spring; the second guide post is fixedly arranged in the center of the bottom of the connecting post; the second spring is sleeved on the second guide post.

Preferably, the elastic piece comprises a spring piece, a third guide post and a third spring; the elastic sheet is fixedly arranged at the bottom of the sliding groove of the mounting frame, and a plurality of third through holes are formed in the elastic sheet; the bottom of the sliding groove of the mounting frame extends downwards to form a groove, the third guide pillar is coaxially arranged with the third through hole and is in sliding fit with the third through hole, and the bottom of the third guide pillar is fixedly connected with the bottom of the groove; the third spring is sleeved on the third guide post, and the bottom of the third spring is fixedly connected with the bottom of the groove.

Preferably, the two ends of the screen plate are fixedly provided with connecting blocks.

Preferably, the first rotating mechanism comprises a motor, a first driving wheel, a first driven wheel, a first linkage belt and a main shaft; the motor is fixedly arranged on the cover plate, and the working direction of the motor is vertically arranged; the first driving wheel is fixedly connected with the output end of the motor; the first driven wheel is horizontally arranged and in transmission connection with the first driving wheel; the first linkage belt is respectively wound on the first driving wheel and the first driven wheel; a fourth hole is formed in the center of the cover plate, the main shaft is fixedly arranged in the fourth hole and is in running fit with the fourth hole, the upper portion of the main shaft is fixedly connected with the first driven wheel, and the bottom of the main shaft is fixedly connected with the connecting frame.

Preferably, the second rotating mechanism comprises a driving bevel gear, a driven bevel gear, a second driving wheel, a second driven wheel and a second linkage belt; the driving bevel gear is fixedly arranged at the lower part of the main shaft, and the upper part of the driving bevel gear is fixedly connected with the lower end of the cover plate; a slot is arranged on one side wall of the connecting frame, which is close to the inside of the driving bevel gear, and a driven bevel gear is fixedly arranged in the slot and is rotationally connected with the slot and is meshed with the driving bevel gear; the second driving wheel is coaxially arranged at the bottom of the driven bevel gear and is fixedly connected with the bottom of the driven bevel gear; the second driven wheel is horizontally arranged with the second driving wheel and is in transmission connection with the second driving wheel, and the second driven wheel is coaxially arranged with the bottom of the rotary support and is fixedly connected with the bottom of the rotary support; the second linkage belt is respectively wound on the second driving wheel and the second driven wheel.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the effect of efficiently and automatically cleaning the diode is realized through the rotating assembly, the connecting frame, the roller and the mounting frame, the residue of soldering flux is avoided, a plurality of trays can be cleaned at the same time, the cleaning effect and the working efficiency are improved through rotation and autorotation, and the labor cost is reduced.

Drawings

FIG. 1 is an external perspective view of an automatic cleaning device for diode flux;

FIG. 2 is an interior side view of a diode flux self-cleaning apparatus;

FIG. 3 is a schematic perspective view of a drum of a diode flux automatic cleaning apparatus;

FIG. 4 is a perspective view of a mounting bracket of a diode flux automatic cleaning apparatus;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a side view of a mounting bracket of a diode flux self-cleaning apparatus;

FIG. 7 is a schematic perspective view of a clamping mechanism of an automatic diode flux cleaning apparatus;

FIG. 8 is a perspective view of a first guide post of an automatic diode flux cleaning apparatus;

FIG. 9 is a perspective view of an unlocking mechanism of a diode flux automatic cleaning apparatus;

fig. 10 is a schematic view of a pressing unit of the automatic cleaning device for diode soldering flux;

FIG. 11 is a perspective view of a linkage unit and reset unit installation of a diode flux automatic cleaning apparatus;

FIG. 12 is a perspective view of an elastic member of a diode flux automatic cleaning apparatus;

FIG. 13 is a perspective view of a first rotary mechanism of a diode flux automatic cleaning apparatus;

fig. 14 is a side view of a second rotating mechanism of the diode flux automatic cleaning apparatus.

The reference numerals in the figures are:

1-a cover plate;

2-cleaning the tank;

3-a rotating assembly;

31-a first rotation mechanism; 311-motor; 312-a first drive wheel; 313-a first driven wheel; 314—a first linkage band;

315-spindle;

32-a second rotation mechanism; 321-a driving bevel gear; 322-driven bevel gear; 323-second a driving wheel; 324-a second driven wheel; 325-a second linkage belt;

4-connecting frames;

5-a roller;

51-rotating support;

52-a disc;

53-a column;

54-bracket;

6-mounting rack;

61-material tray;

62-mesh plate; 621-connecting blocks;

63-a clamping mechanism; 631-clamping blocks; 632-first guide post; 633-first spring; 634-limiting blocks;

64-unlocking mechanism; 641-a pressing unit; 6411-button; 6412-a connecting column; 6413-locking rope fastener; 642-linkage unit;

6421-a pulley; 6422-wire rope; 643-a reset unit; 6431-a second guide post; 6432-a second spring;

65-an elastic member; 651-shrapnel; 652-third guide post; 653-a third spring.

Detailed Description

The utility model will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the utility model and the specific objects and functions achieved.

See fig. 1-14: the automatic cleaning equipment for the diode soldering flux comprises a cover plate 1, a cleaning tank 2, a rotating assembly 3, a connecting frame 4, a roller 5 and a mounting frame 6. The rotating assembly 3 comprises a first rotating mechanism 31 and a second rotating mechanism 32, the first rotating mechanism 31 is fixedly arranged at the upper end of the cover plate 1, the second rotating mechanism 32 is fixedly arranged at the lower end of the cover plate 1, and the second rotating mechanism 32 is in transmission connection with the first rotating mechanism 31. The connecting frame 4 is a U-shaped frame structure, the bottom end of the connecting frame is fixedly connected with the first rotating mechanism 31, and the two side walls of the opening end of the connecting frame 4 are provided with first through holes. The roller 5 comprises a rotary support 51, a disc 52, a cylindrical column 53 and a bracket 54, wherein the rotary support 51 is coaxially arranged with the first through hole and is in rotary fit, the disc 52 is coaxially arranged with the rotary support 51, the bottom of the disc 52 is fixedly connected with the upper part of the rotary support 51, the cylindrical column 53 and the disc 52 are coaxially arranged and fixedly connected with the disc 52, and the brackets 54 are uniformly arranged along the circumferential direction on the side wall of the cylindrical column 53. The mounting bracket 6 is evenly arranged along the circumferential direction of the roller 5 and fixedly connected with the bracket 54 on the circumferential wall of the roller 5, a material tray 61, a screen plate 62, a clamping mechanism 63, an unlocking mechanism 64 and an elastic piece 65 are arranged on the mounting bracket 6, a notch is formed in the mounting bracket 6, sliding grooves are formed in two sides of the notch, the material tray 61 is inserted into the notch, the screen plate 62 is inserted into the sliding grooves and is in sliding fit with the sliding grooves, one end of the screen plate 62 is hinged with the mounting bracket 6, the clamping mechanism 63 is fixedly arranged at the upper end of the sliding grooves, the unlocking mechanism 64 is fixedly arranged in the middle of the side wall of the mounting bracket 6 and is in sliding fit with the side wall of the mounting bracket 6, and the elastic piece 65 is fixedly arranged at the bottom of the sliding grooves.

The tray 61 with the diode is inserted on the mounting bracket 6 along the notch, the screen 62 is closed along the chute, the draw-in groove that the screen 62 lower extreme set up can overlap joint on the dog of mounting bracket 6 bottom, in the process that the screen 62 descends along the chute, the screen 62 is with the inboard butt pressure of card solid mechanism 63, simultaneously the bottom of screen 62 is with elastic component 65 to the butt pressure, the draw-in groove of taking the screen 62 just in time overlap joint on the dog, the screen 62 upper end no longer supports card solid mechanism 63, card solid mechanism 63 pops out and fixes screen 62 chucking and then makes the tray 61 fix on the mounting bracket 6, screen 62 also has the effect of supporting the butt-joint to both sides limit of tray 61, the installation of tray 61 is accomplished to mounting bracket 6 on the rotating drum 5 in proper order, cover plate 1 is covered, start first rotary mechanism 31 drives link 4 rotation, the rotation of link 4 drives the rotation of second rotary mechanism 32 simultaneously, this moment second rotary mechanism 32 drives rotary support 51 and rotates simultaneously, make disc 52, barrel 53 and support 54 rotate simultaneously, and then drive the rotation of mounting bracket 6, can accomplish the automatic cleaning efficiency through the butt joint mechanism 64, the automatic cleaning device is realized to the screen 62, the automatic cleaning efficiency is realized through the automatic cleaning device is realized to the automatic rotary joint plate 62, the automatic cleaning device is realized, the automatic cleaning efficiency is realized, the efficiency is improved, the automatic cleaning efficiency is realized and the cost is realized, the automatic cleaning efficiency is realized, the cleaning device is realized and the cost is high, and the efficiency is realized and the automatic cleaning efficiency is realized.

See fig. 4-8: the clamping mechanism 63 includes a clamping block 631, a first guide post 632, a first spring 633 and a limiting block 634. The inner side wall of the upper end of the chute is provided with a first hole, the clamping block 631 is arranged in the first hole in a sliding way, and the clamping block 631 is provided with a second through hole. The first guide post 632 is coaxially arranged with the second through hole and in sliding fit, and the bottom of the first guide post 632 is fixedly connected with the inner side wall of the first hole. The first spring 633 is sleeved on the first guide post 632, and the bottom thereof is fixedly connected with the inner sidewall of the first hole. The limiting block 634 is fixedly arranged at one end, far away from the inner side wall of the first hole, of the first guide post 632.

When the screen plate 62 descends along the chute, the side wall of the screen plate 62 pushes the clamping blocks 631 into the first holes along the first guide posts 632 and enables the first springs 633 to shrink, the screen plate 62 continues to slide downwards until the clamping grooves formed in the lower end of the screen plate 62 are just overlapped on the stop blocks at the bottom of the mounting frame 6, at the moment, the upper ends of the screen plate 62 do not push the clamping blocks 631, the clamping blocks 631 rebound outwards to the initial positions along the first guide posts 632 under the action of the first springs 633 and clamp and fix the screen plate 62, and further the screen plate 62 has the supporting and clamping effects on two sides of the material disc 61, so that the problem of how to clamp the material disc 61 is solved, the falling of the material disc 61 in the rotating cleaning process is avoided, and the normal cleaning is ensured.

See fig. 6-11: the unlocking mechanism 64 includes a pressing unit 641, a linking unit 642, and a resetting unit 643. A second hole is formed in the side wall of the mounting frame 6, and the pressing unit 641 is inserted into the second hole and is fixedly arranged on the inner side wall of the second hole and is rotationally connected with the inner side wall of the second hole in a sliding fit with the second hole linkage unit 642. The reset unit 643 is fixedly connected to the bottom of the pressing unit 641.

After cleaning is completed in the cleaning tank 2, the cover plate 1 can be automatically opened through a mechanism such as hinged linkage and the like, the pressing unit 641 is pressed down to tightly press the reset unit 643, meanwhile, the linkage unit 642 pulls the clamping block 631 in the moving process of the pressing unit 641 to further relieve the clamping and fixing effect of the clamping block 631 on the screen plate 62, the screen plate 62 is ejected under the action of the elastic piece 65, the pressed down pressing unit 641 is restored to the initial position by the reset unit 643, the problem of how to relieve the clamping effect on the screen plate 62 is solved, the damage to equipment caused by contradiction between components is avoided, the disassembly and assembly of the material disc 61 are facilitated, and the flexibility of use is improved.

See fig. 10: the pressing unit 641 includes a button 6411 and a connection post 6412. The connecting post 6412 is inserted into the second hole and slidingly engaged with the second hole. The button 6411 is fixedly installed at the top end of the connection post 6412.

When accomplishing the cleaning operation to charging tray 61, need take out charging tray 61 from mounting bracket 6, support and press button 6411 this moment, button 6411 downwardly moving and support and press spliced pole 6412, the removal of spliced pole 6412 drives linkage unit 642, linkage unit 642 drives the shrinkage of fixture block 631 in order to release the chucking effect to otter board 62, press and release the operation and return to the initial position by reset unit 643 after accomplishing, the problem of how to realize releasing the chucking effect has been solved, the operation of being convenient for has reduced the operation cost, the convenience of using has been improved, work efficiency has been improved.

See fig. 11: the linkage unit 642 includes a pulley 6421 and a wire rope 6422, and the pressing unit 641 further includes a rope locking buckle 6413. The locking rope buckle 6413 is fixedly arranged on the bottom pulley 6421 of the connecting column 6412, fixedly arranged on the inner side wall of the second hole and rotationally connected with the inner side wall of the second hole. The two ends of the steel wire 6422 are respectively fixedly connected with the back of the clamping block 631 and the rope locking buckle 6413, and the middle part of the steel wire 6422 is lapped on the pulley 6421.

When the button 6411 is pressed down to move inwards, the movement of the connecting column 6412 drives the rope locking buckle 6413 at the bottom of the connecting column 6412 to move together, the movement of the rope locking buckle 6413 pulls one end of the steel wire rope 6422 to move together, the steel wire rope 6422 winds the clamping block 631 fixedly connected with the other end through the pulley 6421, so that the clamping block 631 contracts inwards to relieve the clamping effect on a net, when the net plate 62 is removed, the clamping block 631 returns to the initial position under the action of the reset unit 643 and the first spring 633, and meanwhile, the button 6411 returns to the initial position, so that the problem of how to realize the pressing linkage effect is solved, the convenience of use is improved, the clamping and the ejection of the net plate 62 are facilitated, and the smoothness of use is ensured.

See fig. 11: the reset unit 643 includes a second guide post 6431 and a second spring 6432. The second guide post 6431 is fixedly disposed at the center of the bottom of the connecting post 6412. The second spring 6432 is sleeved on the second guide post 6431.

When the connecting column 6412 moves downwards under the pressing force of the button 6411, the connecting column 6412 pushes the second guide column 6431 to move and tightly press the second spring 6432 to shrink, at this time, the movement of the connecting column 6412 drives the steel wire rope 6422 to wind the movable pulley 6421, so that the clamping block 631 moves inwards to release the clamping effect on the screen plate 62, when the pressure on the button 6411 is released, the second spring 6432 rebounds to enable the connecting column 6412 to return to the initial position, so that the next use is facilitated, the problem of returning the pressing unit 641 to the initial position when how is performed is solved, the operation smoothness is ensured, the continuous use is facilitated, the operation time is reduced, the working efficiency is improved, and the labor cost is reduced.

See fig. 12: the elastic member 65 includes a spring plate 651, a third guide post 652 and a third spring 653. The elastic sheet 651 is fixedly arranged at the bottom of the sliding groove of the mounting frame 6, and a plurality of third through holes are formed in the elastic sheet 651. The bottom of the spout of mounting bracket 6 downwardly extending has the recess, and third guide pillar 652 and the coaxial setting of third through-hole and sliding fit, the bottom of third guide pillar 652 and the bottom fixed connection of recess. The third spring 653 is sleeved on the third guide post 652 and the bottom is fixedly connected with the bottom of the groove.

When the screen plate 62 slides downwards along the chute, the bottom of the screen plate 62 downwards pushes against the elastic sheet 651, the elastic sheet 651 continuously moves downwards into the groove under the action of pressure, at the moment, the third spring 653 is pushed against and contracted, the upper part of the screen plate 62 is clamped and fixed by the clamping block 631, when the button 6411 is pressed to push the connecting column 6412 to move, the rope locking buckle 6413 drives the steel wire rope 6422 to move and drive the clamping block 631 to move inwards, the clamping effect on the screen plate 62 is relieved, at the moment, the third spring 653 which is pushed against rebounds the elastic sheet 651, the elastic sheet 651 upwards ejects the screen plate 62, the problem of how to eject the screen plate 62 is solved, the screen plate 62 is conveniently moved out of the chute so as to replace the material disc 61, the condition that the screen plate 62 is clamped in the chute and inconvenient to operate is avoided, the operation time is saved, and the cleaning efficiency and the working efficiency are improved.

See fig. 5: the two ends of the screen 62 are fixedly provided with connecting blocks 621.

When the otter board 62 moves along the spout, the connecting block 621 fixedly installed at the two ends of the otter board 62 enables the otter board 62 at the two sides to realize synchronous movement, and simultaneously, when the clamping block 631 clamps the fixed otter board 62, the connecting block 621 just presses the edge of the tray 61, when the button 6411 is pressed to release the clamping of the clamping block 631 to the otter board 62, the elastic piece 65 ejects the otter board 62, the connecting block 621 enables the otter board 62 at the two sides to be simultaneously ejected, the problem of how to realize the simultaneous movement of the otter board 62 at the two sides is solved, the moving integrity of the otter board 62 is ensured, the stability of the tray 61 in the cleaning process is improved, the otter board 62 is conveniently taken out from the spout at the same time, the operation time is saved, the work efficiency is improved, and the operation cost is reduced.

See fig. 13: the first rotating mechanism 31 comprises a motor 311, a first driving wheel 312, a first driven wheel 313, a first linkage belt 314 and a main shaft 315, wherein the motor 311 is fixedly arranged on the cover plate 1, and the working direction of the motor is vertical. The output end of the first driving wheel 312 and the motor 311 is fixedly connected with the first driven wheel 313, and the first driving wheel 312 is horizontally arranged and in transmission connection. The first linkage belt 314 is wound around the first driving pulley 312 and the first driven pulley 313, respectively. A fourth hole is formed in the center of the cover plate 1, a main shaft 315 is fixedly arranged in the fourth hole and is in running fit with the fourth hole, the upper portion of the main shaft 315 is fixedly connected with the first driven wheel 313, and the bottom of the main shaft 315 is fixedly connected with the connecting frame 4.

The first driving wheel 312 is driven to rotate by the starting motor 311, the first driven wheel 313 is driven to rotate by the first driving wheel 312 through the first linkage belt 314, the spindle 315 is enabled to rotate by the rotation of the first driven wheel 313, the spindle 315 drives the connecting frame 4 at the bottom to rotate, the problem of how to realize the rotation of the connecting frame 4 is solved, the cleaning effect is improved, and the working efficiency is improved.

See fig. 14: 1 the second rotating mechanism 32 comprises a driving bevel gear 321, a driven bevel gear 322, a second driving wheel 323, a second driven wheel 324 and a second linkage belt 325. The driving bevel gear 321 is fixedly installed at the lower part of the main shaft 315, and the upper part of the driving bevel gear 321 is fixedly connected with the lower end of the cover plate 1. A slot is arranged on one side wall of the connecting frame 4, which is close to the inside of the driving bevel gear 321, a driven bevel gear 322 is fixedly arranged in the slot and is rotationally connected with the slot, and the driven bevel gear 322 is meshed with the driving bevel gear 321. The second driving wheel 323 is coaxially arranged and fixedly connected with the bottom of the driven bevel gear 322. The second driven wheel 324 is horizontally arranged with the second driving wheel 323 and is in transmission connection with the second driving wheel 323, and the second driven wheel 324 is coaxially arranged with the bottom of the rotary support 51 and is fixedly connected with the bottom of the rotary support 51. The second link belt 325 is wound around the second driving pulley 323 and the second driven pulley 324, respectively.

When the first driven wheel 313 drives the main shaft 315 to rotate, the main shaft 315 drives the connecting frame 4 at the bottom to rotate, the driven bevel gear 322 rotates along the driving bevel gear 321 along with the rotation of the connecting frame 4, the rotation of the driven bevel gear 322 drives the second driving wheel 323 to rotate together, the second driving wheel 323 drives the second driven wheel 324 through the second linkage belt 325, the second driven wheel 324 drives the rotary support 51 to rotate together, the rotation of the rotary support 51 drives the disc 52, the cylinder 53 and the mounting frame 6 arranged on the cylinder 53 to rotate together, the problem of how to realize the rotation of the cylinder 53 is solved, the cleaning efficiency of the material tray 61 is further improved, meanwhile, the rotation of the cylinder 53 is convenient for the disassembly and assembly of the material tray 61 at one time, the operation time is saved, and the labor cost is reduced.

The foregoing examples merely illustrate one or more embodiments of the utility model, which are described in greater detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (8)

1. The automatic cleaning equipment for the diode soldering flux comprises a cover plate (1) and a cleaning tank (2), and is characterized by further comprising a rotating assembly (3), a connecting frame (4), a roller (5) and a mounting frame (6);

the rotating assembly (3) comprises a first rotating mechanism (31) and a second rotating mechanism (32), the first rotating mechanism (31) is fixedly arranged at the upper end of the cover plate (1), the second rotating mechanism (32) is fixedly arranged at the lower end of the cover plate (1), and the second rotating mechanism (32) is in transmission connection with the first rotating mechanism (31);

the connecting frame (4) is of a U-shaped frame structure, the bottom end of the connecting frame is fixedly connected with the first rotating mechanism (31), and first through holes are formed in two side walls of the opening end of the connecting frame (4);

the rotary drum (5) comprises a rotary support (51), a disc (52), a cylindrical column (53) and a bracket (54), wherein the rotary support (51) is coaxially arranged with the first through hole and is in rotary fit, the disc (52) is coaxially arranged with the rotary support (51) and the bottom of the rotary support is fixedly connected with the upper part of the rotary support (51), the cylindrical column (53) is coaxially arranged with the disc (52) and is fixedly connected with the disc (52), and the bracket (54) is uniformly arranged along the circumferential direction on the side wall of the cylindrical column (53);

the mounting frame (6) is uniformly arranged along the circumferential direction of the roller (5) and is fixedly connected with a bracket (54) on the circumferential wall of the roller (5), a material tray (61), a screen plate (62), a clamping mechanism (63), an unlocking mechanism (64) and an elastic piece (65) are arranged on the mounting frame (6), a notch is formed in the mounting frame (6), sliding grooves are formed in two sides of the notch, the material tray (61) is inserted into the notch, the screen plate (62) is inserted into the sliding grooves and is in sliding fit with the sliding grooves, one end of the screen plate (62) is hinged with the mounting frame (6), the clamping mechanism (63) is fixedly arranged at the upper end of the sliding grooves, the unlocking mechanism (64) is fixedly arranged in the middle of the side wall of the mounting frame (6) and is in sliding fit with the side wall of the mounting frame (6), and the elastic piece (65) is fixedly arranged at the bottom of the sliding grooves;

the first rotating mechanism (31) comprises a motor (311), a first driving wheel (312), a first driven wheel (313), a first linkage belt (314) and a main shaft (315);

the motor (311) is fixedly arranged on the cover plate (1) and the working direction of the motor is vertically arranged;

the first driving wheel (312) is fixedly connected with the output end of the motor (311);

the first driven wheel (313) is horizontally arranged and in transmission connection with the first driving wheel (312);

the first linkage belt (314) is respectively wound on the first driving wheel (312) and the first driven wheel (313);

a fourth hole is formed in the center of the cover plate (1), a main shaft (315) is fixedly arranged in the fourth hole and is in running fit with the fourth hole, the upper part of the main shaft (315) is fixedly connected with a first driven wheel (313), and the bottom of the main shaft (315) is fixedly connected with a connecting frame (4);

the second rotating mechanism (32) comprises a driving bevel gear (321), a driven bevel gear (322), a second driving wheel (323), a second driven wheel (324) and a second linkage belt (325);

the driving bevel gear (321) is fixedly arranged at the lower part of the main shaft (315), and the upper part of the driving bevel gear (321) is fixedly connected with the lower end of the cover plate (1);

a slot is arranged on one side wall of the connecting frame (4) close to the inside of the driving bevel gear (321), a driven bevel gear (322) is fixedly arranged in the slot and is rotationally connected with the slot, and the driven bevel gear (322) is meshed with the driving bevel gear (321);

the second driving wheel (323) is coaxially arranged and fixedly connected with the bottom of the driven bevel gear (322);

the second driven wheel (324) is horizontally arranged with the second driving wheel (323) and is in transmission connection with the second driving wheel (323), and the second driven wheel (324) is coaxially arranged with the bottom of the rotary support (51) and is fixedly connected with the bottom of the rotary support;

the second linkage belt (325) is wound on the second driving wheel (323) and the second driven wheel (324) respectively.

2. The automatic cleaning device for diode soldering flux according to claim 1, wherein the clamping mechanism (63) comprises a clamping block (631), a first guide post (632), a first spring (633) and a limiting block (634);

the inner side wall of the upper end of the sliding chute is provided with a first hole, a clamping block (631) is arranged in the first hole in a sliding way, and a second through hole is formed in the clamping block (631);

the first guide post (632) is coaxially arranged with the second through hole and is in sliding fit, and the bottom of the first guide post (632) is fixedly connected with the inner side wall of the first hole;

the first spring (633) is sleeved on the first guide post (632) and the bottom of the first spring is fixedly connected with the inner side wall of the first hole;

the limiting block (634) is fixedly arranged at one end, far away from the inner side wall of the first hole, of the first guide pillar (632).

3. The automatic cleaning device for diode soldering flux according to claim 1, wherein the unlocking mechanism (64) comprises a pressing unit (641), a linkage unit (642) and a resetting unit (643);

a second hole is formed in the side wall of the mounting frame (6), and the pressing unit (641) is inserted into the second hole and is in sliding fit with the second hole;

the linkage unit (642) is fixedly arranged on the inner side wall of the second hole and is rotationally connected with the inner side wall of the second hole;

the reset unit (643) is fixedly connected with the bottom of the pressing unit (641).

4. A diode soldering flux automatic cleaning apparatus according to claim 3, wherein the pressing unit (641) includes a button (6411) and a connecting column (6412);

the connecting column (6412) is inserted into the second hole and is in sliding fit with the second hole;

the button (6411) is fixedly arranged at the top end of the connecting column (6412).

5. A diode soldering flux automatic cleaning apparatus according to claim 3, wherein the linkage unit (642) comprises a pulley (6421) and a wire rope (6422), and the pressing unit (641) further comprises a locking rope buckle (6413);

the rope locking buckle (6413) is fixedly arranged at the bottom of the connecting column (6412);

the pulley (6421) is fixedly arranged on the inner side wall of the second hole and is rotationally connected with the inner side wall of the second hole;

the two ends of the steel wire rope (6422) are respectively fixedly connected with the back of the clamping block (631) and the rope locking buckle (6413), and the middle part of the steel wire rope (6422) is lapped on the pulley (6421).

6. A diode soldering flux automatic cleaning apparatus according to claim 3, wherein the reset unit (643) comprises a second guide post (6431) and a second spring (6432);

the second guide post (6431) is fixedly arranged in the center of the bottom of the connecting post (6412);

the second spring (6432) is sleeved on the second guide post (6431).

7. The automatic cleaning device for diode soldering flux according to claim 1, wherein the elastic member (65) comprises a spring plate (651), a third guide post (652) and a third spring (653);

the elastic sheet (651) is fixedly arranged at the bottom of the sliding groove of the mounting frame (6), and a plurality of third through holes are formed in the elastic sheet (651);

the bottom of the sliding groove of the mounting frame (6) extends downwards to form a groove, a third guide post (652) is coaxially arranged with the third through hole and is in sliding fit with the third through hole, and the bottom of the third guide post (652) is fixedly connected with the bottom of the groove;

the third spring (653) is sleeved on the third guide post (652) and the bottom is fixedly connected with the bottom of the groove.

8. The automatic cleaning apparatus for diode soldering flux according to claim 1, wherein the two ends of the mesh plate (62) are fixedly provided with connection blocks (621).