CN117046770B - High-efficient cleaning device to air conditioner production line - Google Patents

Abstract

The utility model discloses a high-efficiency cleaning device for an air conditioner production line, which relates to the technical field of air conditioner manufacturing and comprises a moving mechanism and a cleaning mechanism, wherein the moving mechanism comprises a first shielding plate, a conveying assembly, a clamping assembly, a limiting assembly, a resetting assembly and a turnover assembly, and the first shielding plate is provided with the conveying assembly, the clamping assembly, the limiting assembly, the resetting assembly and the turnover assembly; according to the utility model, through the cooperation of the conveying component, the clamping component and the limiting component, the air conditioner can be automatically clamped and fixed, so that the air conditioner can be turned over later; according to the utility model, the turnover assembly is arranged, so that the air conditioner fixed by the clamping assembly can be automatically turned over, the periphery of the air conditioner can be cleaned conveniently, and the air conditioner can be moved to the cleaning mechanism; the utility model can automatically convey the air conditioner and clean two surfaces of the air conditioner by arranging the cleaning mechanism.

Description

High-efficient cleaning device to air conditioner production line

Technical Field

The utility model relates to the technical field of air conditioner manufacturing, in particular to a high-efficiency cleaning device for an air conditioner production line.

Background

An air conditioner is a common device for adjusting indoor temperature and humidity, and can provide a comfortable living and working environment. In an air conditioner production line, air conditioner products need to be assembled, debugged, cleaned and the like, wherein the cleaning process is very important. Currently, cleaning an air conditioner usually requires manual operation, which is time-consuming and labor-consuming, and also easily causes problems of incomplete cleaning or product damage caused by misoperation.

The Chinese patent publication No. CN208019056U discloses a cleaning device and a production line for testing an outdoor unit of an air conditioner, wherein the cleaning device comprises a blowing part, and when the conveying device conveys the cleaning device, the blowing part blows air to the cleaning device so as to blow off foreign matters on the cleaning device.

Although the device can clean the device to be cleaned, the cleaning force is insufficient, the air blowing part may not thoroughly clean the foreign matters on the device to be cleaned, and the air blowing cleaning cannot cover all surfaces of the air conditioner which need to be cleaned, so that more time is required to ensure the cleaning effect, and the cleaning efficiency is reduced.

Disclosure of Invention

Aiming at the technical problems, the utility model adopts the following technical scheme: the efficient cleaning device for the air conditioner production line comprises a first platform, a second platform, a moving mechanism and a cleaning mechanism, wherein the first platform is provided with the moving mechanism, and the second platform is provided with the cleaning mechanism; the moving mechanism comprises a first shielding plate, a conveying assembly, a clamping assembly, a limiting assembly, a resetting assembly and a turnover assembly, wherein the first shielding plate is fixedly arranged on a first platform, and the first shielding plate is provided with the conveying assembly, the clamping assembly, the limiting assembly, the resetting assembly and the turnover assembly; the turnover assembly comprises a reciprocating unit, a fixed sleeve, a turnover gear and a gear ring, wherein the gear ring is fixedly arranged on the first shielding plate, the gear ring and the turnover gear are arranged in a meshed mode, the turnover gear and the fixed sleeve are fixedly arranged, and the reciprocating unit is used for driving the turnover gear to reciprocate on the gear ring.

Further, the reciprocating unit comprises an eccentric wheel and a linkage rod, the eccentric wheel is rotatably arranged on the first shielding plate, the linkage rod is rotatably arranged at the eccentric position of the eccentric wheel, and the linkage rod and the fixed sleeve are rotatably arranged.

Further, the conveying assembly comprises a conveying belt unit, a synchronous frame, a synchronous wheel I, a synchronous belt I and a connecting shaft, wherein the connecting shaft is connected with the conveying belt unit, a strip-shaped block is arranged on the connecting shaft, a clamping groove is formed in the synchronous wheel I, the clamping groove in the synchronous wheel I is matched with the strip-shaped block on the connecting shaft, the synchronous wheel I is provided with two synchronous frames, the synchronous frame is rotatably installed with the two synchronous wheels, and the two synchronous wheels are connected through the synchronous belt I.

Further, clamping assembly include wedge one, connecting seat, gag lever post, L type pole, movable rod, clamping gear, centre gripping rack and grip block, wedge one and gag lever post fixed mounting, wedge one on fixed mounting have the centre gripping rack, the gag lever post pass through L type pole and movable rod fixed mounting, the movable rod at fixed sleeve's inside slidable mounting, connecting seat and fixed sleeve fixed mounting, slidable mounting has the gag lever post on the connecting seat, the clamping gear is installed in the rotation on the connecting seat, the connecting seat on slidable mounting have the grip block, fixed mounting has the centre gripping rack on the grip block, clamping rack and centre gripping gear meshing installation on wedge one, centre gripping rack meshing installation on centre gripping gear and the grip block.

Further, spacing subassembly include spacing wheel, taper block, reset lever, reset spring one and arc, spacing wheel and movable rod fixed mounting, spacing wheel on fixed mounting have the taper block, taper block and two contact cooperations of wedge, spacing wheel at the inside slidable mounting of arc, arc and synchronous frame fixed mounting, arc slidable mounting on the reset lever, the cover is equipped with reset spring one on the reset lever.

Further, reset assembly include wedge second, connecting rod, sliding seat, reset spring second, reset slip table, dwang and reset plate, the sliding seat on slidable mounting have reset slip table, reset slip table's both ends are provided with reset spring second, rotate on the reset slip table and install the dwang, fixed mounting has reset plate on the dwang, connecting rod and reset slip table fixed mounting, fixed mounting has wedge second on the connecting rod.

Further, the cleaning mechanism comprises a second shielding plate, a conveying assembly, a first cleaning assembly and a second cleaning assembly, wherein the second shielding plate is provided with the conveying assembly, the first cleaning assembly and the second cleaning assembly.

Further, the first cleaning component comprises a synchronizing unit and a rolling brush, the rolling brush is connected with the conveying component through the synchronizing unit, and the conveying component drives the rolling brush to rotate through the synchronizing unit.

Further, the second cleaning component comprises a screw rod, a fixing frame, a round rod, a transverse sliding table and a brush head, the round rod is fixedly installed on the fixing frame, the transverse sliding table is slidably installed on the round rod, the transverse sliding table is in threaded installation with the screw rod, and the screw rod is connected with the synchronous unit.

Compared with the prior art, the utility model has the beneficial effects that: (1) According to the utility model, through the cooperation of the conveying component, the clamping component and the limiting component, the air conditioner can be automatically clamped and fixed, so that the air conditioner can be turned over later; (2) According to the utility model, the turnover assembly is arranged, so that the air conditioner fixed by the clamping assembly can be automatically turned over, the periphery of the air conditioner can be cleaned conveniently, and the air conditioner can be moved to the cleaning mechanism; (3) The utility model can automatically convey the air conditioner and clean two surfaces of the air conditioner by arranging the cleaning mechanism.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a moving mechanism according to the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a schematic view of a part of the moving mechanism according to the present utility model;

FIG. 5 is a schematic view of another partial structure of the moving mechanism of the present utility model;

FIG. 6 is a partial enlarged view at B in FIG. 5;

FIG. 7 is a schematic view of a cleaning mechanism according to the present utility model;

FIG. 8 is a schematic view of a cleaning mechanism according to the present utility model;

FIG. 9 is a schematic view of another partial structure of the cleaning mechanism of the present utility model.

Reference numerals: 1-platform one; 2-a second platform; 301-a first shielding plate; 302-conveyor belt; 303-a transfer roller; 304-wedge one; 305-connecting seats; 306-a limit rod; 307-L shaped rod; 308-movable bar; 309-clamping gear; 310-clamping a rack; 311-clamping plates; 312-fixing sleeve; 313-turning gear; 314-limit wheels; 315-conical blocks; 316-a synchronization frame; 317-synchronous wheel one; 318-synchronous belt one; 319-eccentric; 320-linkage rod; 321-rotating shaft; 322-first coil spring; 323-a connecting shaft; 324-gear ring; 325-connecting plate; 326-reset lever; 327-reset spring one; 328-wedge two; 329-connecting rod; 330-sliding seat; 331-a second reset spring; 332-resetting the sliding table; 333-turning the lever; 334-reset plate; 335-an arcuate plate; 336-a securing ring; 337-stop lever; 401-second shielding plate; 402-cleaning the motor; 403-conveyor belt; 404-conveying rollers; 405-synchronizing gear one; 406-synchronizing gear two; 407-pulley one; 408-belt one; 409-pulley two; 410-belt two; 411-pulley three; 412-pulley four; 413—a roller brush; 414-gas lance; 415-incomplete gear; 416-a reciprocating gear; 417-bevel gear one; 418-bevel gear two; 419-axis; 420-a fifth belt wheel; 421-belt five; 422-bevel gear three; 423-bevel gear IV; 424-lead screw; 425-a fixing frame; 426—round bar; 427-a traversing slipway; 428-brush head; 429-belt three; 430-belt four; 431-circular plate; 432-a stent; 5-air conditioning.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Examples: the efficient cleaning device for the air conditioner production line as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9 comprises a first platform 1, a second platform 2, a moving mechanism and a cleaning mechanism, wherein the moving mechanism is arranged on the first platform 1, and the cleaning mechanism is arranged on the second platform 2.

The moving mechanism comprises a first shielding plate 301, a conveying assembly, a clamping assembly, a limiting assembly, a resetting assembly and a turnover assembly, wherein the first shielding plate 301 is fixedly arranged on the first platform 1, the first shielding plate 301 is provided with the conveying assembly, the clamping assembly, the limiting assembly, the resetting assembly and the turnover assembly, and the clamping assembly, the limiting assembly, the resetting assembly and the turnover assembly are symmetrically provided with two groups.

The conveying assembly comprises a conveying belt unit, a synchronous frame 316, a synchronous wheel I317, a synchronous belt I318, a rotating shaft 321, a coil spring I322, a connecting shaft 323 and a fixed ring 336, wherein the conveying belt unit is arranged on the first baffle plate 301, the connecting shaft 323 is connected with the conveying belt unit, the synchronous wheel I317 is provided with two synchronous wheels I318 in a sleeved mode, the two synchronous wheels I317 are driven through the synchronous belt I318, a strip-shaped block is arranged on the connecting shaft 323, a clamping groove is arranged on the synchronous wheel I317, a clamping groove on the first synchronous wheel I317 is matched with the strip-shaped block on the connecting shaft 323, the first synchronous wheel I317 is installed in a sliding mode on the connecting shaft 323, the synchronous frame 316 and the two synchronous wheels I317 are installed in a rotating mode, the synchronous frame 316 and the two synchronous wheels I317 are not separated, the second synchronous wheel I317 and the rotating shaft 321 are installed in a sliding mode, the strip-shaped block is also arranged on the rotating shaft 321, the clamping groove on the second synchronous wheel I317 is matched with the block 322 on the rotating shaft 321, the rotating shaft 321 is installed on the first baffle plate 301 in a rotating mode, the coil spring I321 is installed on the fixed ring is installed on the first baffle plate 301, and the coil spring I322 is installed on the fixed ring I322, and the coil spring I is installed on one end of the fixed ring is fixed on the fixed ring 322.

The conveyor belt unit comprises a conveyor belt 302 and two conveyor rollers 303, wherein the conveyor rollers 303 are arranged in two, the two conveyor rollers 303 are rotatably arranged on the first shielding plate 301, one conveyor roller 303 is connected with a motor, two sides of the other conveyor roller 303 are fixedly arranged on the connecting shaft 323, the conveyor belt 302 is sleeved on the two conveyor rollers 303, and the two conveyor rollers 303 are driven through the conveyor belt 302.

The clamping assembly comprises a first wedge block 304, a connecting seat 305, a limit rod 306, an L-shaped rod 307, a movable rod 308, a clamping gear 309, a clamping rack 310 and a clamping plate 311, wherein the connecting seat 305 and a fixed sleeve 312 are fixedly installed, the limit rod 306 is slidably installed on the connecting seat 305, the first wedge block 304 and the limit rod 306 are fixedly installed, an inclined plane is arranged on the first wedge block 304, the clamping rack 310 is fixedly installed on the first wedge block 304, the clamping rack 310 and the clamping gear 309 on the first wedge block 304 are installed in a meshed mode, the clamping gear 309 is rotatably installed on the connecting seat 305, the clamping plate 311 is slidably installed on the connecting seat 305, the clamping plate 311 can only reciprocate along one direction, rubber is arranged on the clamping plate 311, the clamping rack 310 is fixedly installed on the clamping gear 309 and the clamping rack 310 on the clamping plate 311, the L-shaped rod 307 and the movable rod 308 are fixedly installed, and the movable rod 308 is slidably installed in the fixed sleeve 312.

The limiting assembly comprises a limiting wheel 314, a conical block 315, a connecting plate 325, a reset rod 326, a reset spring 327 and an arc plate 335, wherein the limiting wheel 314 and the movable rod 308 are fixedly installed, the conical block 315 is fixedly installed on the limiting wheel 314, the conical block 315 and the wedge block two 328 are in contact fit, an arc-shaped chute is formed in the arc plate 335, the limiting wheel 314 is slidably installed on the arc-shaped chute in the arc plate 335, the arc plate 335 and the synchronous frame 316 are fixedly installed, the arc plate 335 is slidably installed on the reset rod 326, a protrusion is arranged on the length direction of the reset rod 326, the cross section of the reset rod 326 is not circular, the limiting of the arc plate 335 is facilitated, the reset rod 326 is sleeved with the reset spring 327, a first end of the reset spring 327 is fixedly installed on the arc plate 335, a second end of the reset spring 327 is fixedly installed on the connecting plate 325, two reset rods 326 are fixedly installed on the connecting plate 325, and the reset rod 326 is fixedly installed on the first shielding plate 301.

The reset component comprises a second wedge block 328, a connecting rod 329, a sliding seat 330, a second reset spring 331, a reset sliding table 332, a rotating rod 333, reset plates 334 and a stop lever 337, wherein the sliding seat 330 is fixedly arranged on the first shielding plate 301, the sliding seat 330 is provided with the reset sliding table 332 in a sliding manner, two ends of the reset sliding table 332 are provided with the second reset spring 331, a first end of the second reset spring 331 is fixedly arranged with the reset sliding table 332, a second end of the second reset spring 331 is fixedly arranged with the sliding seat 330, the rotating rod 333 is rotatably arranged on the reset sliding table 332, the reset plates 334 are fixedly arranged on the rotating rod 333 in a sleeved mode, a coil spring is fixedly arranged on the reset sliding table 332 at the first end of the coil spring, the second end of the coil spring is fixedly arranged on the reset plates 334, the reset plates 334 are arranged in a two mode, the stop lever 337 is fixedly arranged on the reset sliding table 332 and is used for blocking the reset plates 334, the connecting rod 329 is fixedly arranged on the reset sliding table 332, the wedge block 328 is fixedly arranged on the connecting rod 329, and an inclined surface is arranged on the second wedge block 328.

The turnover assembly comprises a reciprocating unit, a fixed sleeve 312, a turnover gear 313 and a gear ring 324, wherein the gear ring 324 is fixedly arranged on the first shielding plate 301, the gear ring 324 and the turnover gear 313 are in meshed installation, the turnover gear 313 and the fixed sleeve 312 are fixedly arranged, the fixed sleeve 312 and the connecting seat 305 are fixedly arranged, a sliding groove is formed in the length direction of the fixed sleeve 312 and used for enabling the L-shaped rod 307 to slide in the length direction of the fixed sleeve 312, and the reciprocating unit is used for driving the turnover gear 313 to reciprocate on the gear ring 324.

The reciprocating unit includes eccentric wheel 319 and linkage rod 320, and eccentric wheel 319 and axis of rotation 321 fixed mounting have linkage rod 320 on the eccentric position of eccentric wheel 319, and linkage rod 320 and fixed cover 312 rotate the installation.

The cleaning mechanism comprises a second shielding plate 401, an air ejector tube 414, a conveying assembly, a first cleaning assembly and a second cleaning assembly, wherein the conveying assembly, the first cleaning assembly and the second cleaning assembly are arranged on the second shielding plate 401, and the air ejector tube 414 is fixedly arranged on the second shielding plate 401.

The conveying assembly comprises a cleaning motor 402, a conveying belt 403 and conveying rollers 404, wherein the conveying rollers 404 are arranged in two, the two conveying rollers 404 are rotatably arranged on the second shielding plate 401, the conveying belt 403 is sleeved on the two conveying rollers 404, the two conveying rollers 404 are driven by the conveying belt 403, the cleaning motor 402 is fixedly arranged on the second shielding plate 401, and an output shaft of the cleaning motor 402 and the conveying rollers 404 are fixedly arranged.

The first cleaning assembly includes a synchronization unit and a roller brush 413, the roller brush 413 being connected to the transport assembly by the synchronization unit.

The synchronous unit comprises a first synchronous gear 405, a second synchronous gear 406, a first belt pulley 407, a first belt 408, a second belt 409, a second belt 410, a third belt 411, a fourth belt 412, an incomplete gear 415, a reciprocating gear 416, a first bevel gear 417, a second bevel gear 418, a shaft 419, a fifth belt 420, a fifth belt 421, a third bevel gear 422, a fourth bevel gear 423, a third belt 429, a fourth belt 430, a circular plate 431 and a bracket 432, wherein the first synchronous gear 405 and the conveying roller 404 are fixedly arranged, the first synchronous gear 405 and the second synchronous gear 406 are in meshed arrangement, the second synchronous gear 406 is rotatably arranged on the second shielding plate 401, the first belt 407 is fixedly arranged on the second synchronous gear 406, the first belt 407 and the second belt 409 are driven through the first belt 408, the second belt 409 is rotatably arranged on the second shielding plate 401, the second belt 409 and the third belt 411 are driven through the second belt 410, the third belt 411 is rotatably arranged on the second shielding plate 401, the pulley III 411 and the pulley IV 412 are driven by a belt III 429, the pulley IV 412 is rotatably arranged on the shielding plate II 401, the pulley III 411 and the pulley IV 412 are fixedly provided with a rolling brush 413, a circular plate 431 is provided with a synchronous wheel, the synchronous wheel on the circular plate 431 is driven by the belt IV 430 and the pulley II 409, the circular plate 431 is rotatably arranged on the shielding plate II 401, the circular plate 431 is provided with teeth, the teeth on the circular plate 431 are meshed with a reciprocating gear 416, the circular plate 431 is fixedly provided with an incomplete gear 415, the incomplete gear 415 is meshed with the reciprocating gear 416, the reciprocating gear 416 is rotatably arranged on a bracket 432, the bracket 432 is fixedly arranged on the shielding plate II 401, the reciprocating gear 416 and a bevel gear 417 are coaxially and fixedly arranged, the bevel gear II 418 and a shaft 419 are fixedly arranged, the pulley V420 is provided with two shafts 419 and a first pulley V420 are fixedly arranged, the two pulleys five 420 are driven by the belt five 421, the second pulley five is coaxially and fixedly arranged with the bevel gear three 422, the bevel gear three 422 is rotatably arranged on the shielding plate two 401, the bevel gear three 422 and the bevel gear four 423 are in meshed arrangement, and the bevel gear four 423 and the screw 424 are fixedly arranged.

The second cleaning component comprises a lead screw 424, a fixing frame 425, round rods 426, a traversing sliding table 427 and brush heads 428, wherein the fixing frame 425 is fixedly arranged on the second shielding plate 401, the round rods 426 are fixedly arranged on the fixing frame 425, the traversing sliding table 427 is slidably arranged on the round rods 426, the traversing sliding table 427 is in threaded installation with the lead screw 424, and two brush heads 428 are fixedly arranged on the traversing sliding table 427.

The working principle of the utility model is as follows: the motor drives the conveying roller 303 to rotate, the conveying roller 303 drives another conveying roller 303 to rotate through the conveying belt 302, the air conditioner 5 is driven to move through the conveying belt 302, after the air conditioner 5 moves to be in contact with the inclined surface of the first wedge block 304, the limiting rod 306, the L-shaped rod 307, the movable rod 308, the limiting wheel 314 and the conical block 315, the limiting wheel 314 drives the arc plate 335 to move, the arc plate 335 pushes the reset plate 334 to rotate until the arc plate 335 passes through the reset plate 334, the reset plate 334 resets under the action of a coil spring, the stop lever 337 stops the reset plate 334 after reset, and at the moment, the reset plate 334 limits the arc plate 335 to prevent the arc plate 335 from reversely moving; while the first wedge block 304 moves, the clamping rack 310 on the first wedge block 304 drives the clamping gear 309 to rotate, the clamping gear 309 drives the clamping rack 310 and the clamping plate 311 on the clamping plate 311 to move, and the two clamping plates 311 clamp and fix the air conditioner 5.

In the initial position, the clamping groove on the first synchronizing wheel 317 is not contacted with the bar-shaped block on the connecting shaft 323, the first synchronizing wheel 317 is driven to move by the arc-shaped plate 335, the first synchronizing wheel 317 is driven to move by the synchronous frame 316, the clamping groove on the first synchronizing wheel 317 is matched with the bar-shaped block on the connecting shaft 323, the clamping groove on the second synchronizing wheel 317 is matched with the bar-shaped block on the rotating shaft 321, the conveying roller 303 drives the connecting shaft 323 to rotate, the first synchronizing wheel 317 is driven to rotate by the clamping groove on the connecting shaft 323 through the first synchronizing wheel 317, the second synchronizing wheel 317 is driven to rotate by the first synchronizing wheel 317 through the synchronous belt 318, the first coil spring 322 is driven to stretch by the rotating shaft 321, the eccentric wheel 319 is driven to rotate by the rotating shaft 321, the eccentric wheel 319 drives the fixed sleeve 312 and the limiting wheel 314 to slide on the arc-shaped plate 335 through the linkage rod 320, the turnover gear 313 on the fixed sleeve 312 is meshed with the gear 324, so that the turnover gear 313 is driven to rotate by the clamping groove on the first synchronizing wheel 317, and the air conditioning roller 413 is driven to rotate by the second synchronizing wheel 317 through the clamping groove 318, and the air conditioning roller 413 is driven to move by the second synchronizing wheel 413 to move by the air conditioning roller 413, and the air conditioning roller assembly is driven to move 5 to the air conditioning roller assembly to the 5.

After the conical block 315 moves to contact with the inclined surface of the second wedge block 328, the conical block 315 drives the second wedge block 328 to ascend, the second wedge block 328 drives the connecting rod 329, the reset sliding table 332, the rotating rod 333 and the reset plate 334 to ascend, the reset plate 334 does not limit the arc 335, the reset plate 335 is driven to reset by the first reset spring 327, the clamping assembly loosens the air conditioner 5, the air conditioner 5 falls on the conveying belt 403, and then the eccentric wheel 319 is reset by the first coil spring 322, so that the limiting wheel 314 is reset.

The cleaning motor 402 is started, the cleaning motor 402 drives the conveying roller 404 to rotate, the conveying roller 404 drives the other conveying roller 404 to rotate through the conveying belt 403, thereby the conveying roller 404 drives the air conditioner 5 to move, the first synchronous gear 405 is driven to rotate while the conveying roller 404 rotates, the first synchronous gear 405 drives the second synchronous gear 406 to rotate, the second synchronous gear 406 drives the first belt pulley 407 to rotate, the first belt pulley 407 drives the second belt pulley 409 to rotate through the first belt 408, the second belt pulley 409 drives the third belt pulley 411 to rotate through the second belt pulley 410, the third belt pulley 411 drives the fourth belt pulley 412 to rotate through the third belt pulley 429, the fourth belt pulley 412 drives the second belt pulley 413 to rotate, and the four surfaces of the air conditioner 5 in overturning are cleaned through the two belt pulleys 413.

The belt pulley II 409 rotates and drives the other belt pulley II 409 to rotate through the belt IV 430, the belt pulley II 409 drives the circular plate 431 and the incomplete gear 415 to rotate, the teeth on the circular plate 431 and the incomplete gear 415 respectively drive the reciprocating gear 416 to rotate positively and negatively, the reciprocating gear 416 drives the bevel gear I417 to rotate, the bevel gear I417 drives the bevel gear II 418 to rotate, the bevel gear II 418 drives the belt pulley V420 to rotate through the shaft 419, the belt pulley V420 drives the other belt pulley V420 to rotate through the belt V421, the belt pulley V420 drives the bevel gear III 422 to rotate, the bevel gear III 422 drives the bevel gear IV 423 to drive the lead screw 424 to rotate, the lead screw 424 drives the traversing sliding table 427 to reciprocate on the round rod 426, the two brush heads 428 on the traversing sliding table 427 clean the two remaining surfaces of the air conditioner 5, and the air spraying pipe 414 can blow dust on the conveying belt 403.

Claims (1)

1. The utility model provides a high-efficient cleaning device to air conditioner production line, includes platform one (1), platform two (2), moving mechanism and clean mechanism, its characterized in that: the first platform (1) is provided with a moving mechanism, and the second platform (2) is provided with a cleaning mechanism;

the moving mechanism comprises a first shielding plate (301), a conveying assembly, a clamping assembly, a limiting assembly, a resetting assembly and a turnover assembly, wherein the first shielding plate (301) is fixedly arranged on a first platform (1), and the first shielding plate (301) is provided with the conveying assembly, the clamping assembly, the limiting assembly, the resetting assembly and the turnover assembly;

the turnover assembly comprises a reciprocating unit, a fixed sleeve (312), a turnover gear (313) and a gear ring (324), wherein the gear ring (324) is fixedly arranged on the first shielding plate (301), the gear ring (324) and the turnover gear (313) are arranged in a meshed mode, the turnover gear (313) and the fixed sleeve (312) are fixedly arranged, and the reciprocating unit is used for driving the turnover gear (313) to reciprocate on the gear ring (324);

the reciprocating unit comprises an eccentric wheel (319) and a linkage rod (320), the eccentric wheel (319) is rotatably arranged on the first shielding plate (301), the linkage rod (320) is rotatably arranged at the eccentric position of the eccentric wheel (319), and the linkage rod (320) and the fixed sleeve (312) are rotatably arranged;

the conveying assembly comprises a conveying belt unit, a synchronous frame (316), synchronous wheels I (317), a synchronous belt I (318) and a connecting shaft (323), wherein the connecting shaft (323) is connected with the conveying belt unit, a strip-shaped block is arranged on the connecting shaft (323), a clamping groove is formed in the synchronous wheel I (317), the clamping groove in the synchronous wheel I (317) is matched with the strip-shaped block on the connecting shaft (323), two synchronous wheels I (317) are arranged, the synchronous frame (316) and the two synchronous wheels I (317) are rotatably installed, and the two synchronous wheels I (317) are connected through the synchronous belt I (318);

the clamping assembly comprises a first wedge block (304), a connecting seat (305), a limit rod (306), an L-shaped rod (307), a movable rod (308), a clamping gear (309), a clamping rack (310) and a clamping plate (311), wherein the first wedge block (304) and the limit rod (306) are fixedly arranged, the clamping rack (310) is fixedly arranged on the first wedge block (304), the limit rod (306) is fixedly arranged through the L-shaped rod (307) and the movable rod (308), the movable rod (308) is slidably arranged in a fixed sleeve (312), the connecting seat (305) and the fixed sleeve (312) are fixedly arranged, the limit rod (306) is slidably arranged on the connecting seat (305), the clamping gear (309) is rotatably arranged on the connecting seat (305), the clamping plate (311) is slidably arranged on the connecting seat (305), the clamping rack (310) is fixedly arranged on the clamping plate (311), the clamping rack (310) on the first wedge block (304) is fixedly arranged on the clamping plate (311), and the clamping rack (309) is meshed with the clamping rack (309) which is fixedly arranged on the connecting seat (305).

The limiting assembly comprises a limiting wheel (314), a conical block (315), a reset rod (326), a first reset spring (327) and an arc plate (335), wherein the limiting wheel (314) and the movable rod (308) are fixedly installed, the conical block (315) is fixedly installed on the limiting wheel (314), the conical block (315) and a second wedge block (328) are in contact fit, the limiting wheel (314) is slidably installed in the arc plate (335), the arc plate (335) and the synchronous frame (316) are fixedly installed, the arc plate (335) is slidably installed on the reset rod (326), and the first reset spring (327) is sleeved on the reset rod (326);

the reset assembly comprises a second wedge block (328), a connecting rod (329), a sliding seat (330), a second reset spring (331), a reset sliding table (332), a rotating rod (333) and a reset plate (334), wherein the reset sliding table (332) is slidably installed on the sliding seat (330), the second reset spring (331) is arranged at two ends of the reset sliding table (332), the rotating rod (333) is rotatably installed on the reset sliding table (332), the reset plate (334) is fixedly installed on the rotating rod (333), the connecting rod (329) and the reset sliding table (332) are fixedly installed, and the second wedge block (328) is fixedly installed on the connecting rod (329);

the cleaning mechanism comprises a second shielding plate (401), a conveying assembly, a first cleaning assembly and a second cleaning assembly, wherein the conveying assembly, the first cleaning assembly and the second cleaning assembly are arranged on the second shielding plate (401);

the first cleaning component comprises a synchronizing unit and a rolling brush (413), the rolling brush (413) is connected with the conveying component through the synchronizing unit, and the conveying component drives the rolling brush (413) to rotate through the synchronizing unit;

the second cleaning assembly comprises a screw rod (424), a fixing frame (425), a round rod (426), a transverse sliding table (427) and a brush head (428), the round rod (426) is fixedly installed on the fixing frame (425), the transverse sliding table (427) is slidably installed on the round rod (426), the transverse sliding table (427) is in threaded installation with the screw rod (424), and the screw rod (424) is connected with the synchronous unit.