CN114515719A - A wash transfer system for not gluing pot - Google Patents

Abstract

The invention discloses a cleaning and transferring system for non-stick pans. The cleaning and transferring system for the non-stick pans automatically feeds all the non-stick pans to the cleaning and transferring mechanism by using the feeding device, so that the automatic feeding of the cleaning device is realized, and the labor cost is saved; the spraying cleaning mechanism is used for washing the non-stick pan on the cleaning transmission mechanism, and oil stain or wax on the non-stick pan is washed off, so that the non-stick pan is automatically cleaned; the non-stick pan is conveyed by the horizontal centering conveying mechanism, and is centered and adjusted, so that the problem that the non-stick pan cannot be stably transferred by the discharging mechanism during discharging due to the deviation of the angle and the position of the non-stick pan is avoided; utilize the cooperation of unloading mechanism and unloading conveying mechanism to realize automatic unloading to transport the non-stick pan to next processing step or transport and store the storehouse and store, practiced thrift the human cost.

Description

A wash transfer system for not gluing pot

Technical Field

The invention relates to a cleaning and transferring system, in particular to a cleaning and transferring system for non-stick pans.

Background

The non-stick pan is a pan which can not stick to the bottom of the pan when cooking, because the bottom of the pan adopts the non-stick coating; in the processing process, an anti-sticking coating is coated after the aluminum pot blank of the non-stick pot is subjected to plasticity, and before the anti-sticking coating is coated, the aluminum pot blank is cleaned to be clean and dry, so that the aluminum pot blank can ensure that the anti-sticking coating attached subsequently is firm and has strong adhesive force; the existing cleaning system has certain disadvantages when in use, and the cleaning system at least needs two operators to respectively carry out feeding and blanking.

Disclosure of Invention

The purpose of the invention is as follows: the utility model provides a wash transfer system for non-stick pan can realize the self-cleaning and the automatic unloading of non-stick pan.

The technical scheme is as follows: the invention provides a cleaning and transferring system for non-stick pans, which comprises a feeding device, a cleaning device, a transmission device and a discharging device, wherein the feeding device is arranged on the feeding device; the cleaning device comprises a device shell, a cleaning transmission mechanism, a spraying cleaning mechanism and a drying mechanism; the transmission device comprises a support flat plate, an end transmission mechanism, a horizontal centering transmission mechanism and an angle adjusting mechanism; the blanking device comprises a blanking mechanism and a blanking conveying mechanism;

the cleaning and conveying mechanism is transversely arranged on the device shell in a penetrating manner and is used for obliquely placing the non-stick pan and conveying the non-stick pan to the left side from the right side of the device shell; the feeding device is arranged on the right side of the device shell and is used for conveying the non-stick pan to the cleaning and conveying mechanism; the spraying and cleaning mechanism is arranged on the device shell and is used for spraying and cleaning the non-stick pan on the transmission mechanism; the drying mechanism is arranged on the device shell and used for drying the cleaned non-stick pan; supporting legs are fixed at four top corners of the lower side surface of the supporting flat plate, and the supporting flat plate is positioned on the left side of the device shell; the horizontal centering transmission mechanism is arranged on the supporting flat plate and is used for centering transmission of the non-stick pan; the end part transmission mechanism is arranged on the right end of the support flat plate and is used for transferring the cleaned non-stick pan; the angle adjusting mechanism is arranged on the support leg and used for adjusting the pitching angle of the end part transmission mechanism; the blanking mechanism is arranged at the left end of the supporting flat plate, the blanking conveying mechanism is arranged at the left side of the blanking mechanism, the nonstick pan which is transmitted to the left side is conveyed to the blanking conveying mechanism by the blanking mechanism, and the nonstick pan is conveyed to the next processing link by the blanking conveying mechanism.

Furthermore, the cleaning transmission mechanism comprises a cleaning transmission motor, a cleaning driven chain wheel, two cleaning transmission chains, two transmission shafts, four transmission chain wheels and a plurality of transmission seats;

the mounting seats are respectively arranged at the same height positions on the left and right edges of the front and rear side walls of the device shell; the two transmission shafts are respectively and longitudinally arranged on the two mounting seats on the left side and the two mounting seats on the right side in a rotating mode; the four transmission chain wheels are respectively arranged on the front side and the rear side of the two transmission shafts; the two cleaning transmission chains are respectively installed on the two transmission chain wheels on the front side and the two transmission chain wheels on the rear side in a transmission manner; the cleaning transmission motor is arranged on the device shell, and a cleaning driving chain wheel is arranged on an output shaft of the cleaning transmission motor; the cleaning driven chain wheel is arranged on one end part of one of the transmission shafts; the cleaning driving chain wheel drives the cleaning driven chain wheel through the cleaning transmission chain; each conveying seat is longitudinally fixed on the front and the rear cleaning and conveying chains at intervals; a plurality of U-shaped metal frames are longitudinally arranged on each conveying seat at intervals.

Further, the feeding device comprises a feeding driving motor and a strip-shaped groove; the strip-shaped groove is arranged on the right side of the device shell through a support rod, and the rear side of the strip-shaped groove inclines downwards; the rear end of the strip-shaped groove extends to the upper parts of the two right mounting seats; a discharge opening is arranged at the rear end of the lower side surface of the strip-shaped groove; the feeding driving motor is arranged on the rear side of the strip-shaped groove; four barrier strips are arranged on an output shaft of the feeding driving motor and perpendicular to the axis, and the four barrier strips are distributed in a cross shape and used for blocking the discharging openings in turn.

Further, the spraying cleaning mechanism comprises a water tank, a water pump, a water receiving tray, a water return pipe, a main water pipe and two horizontal water distribution pipes;

the water tank is arranged on the front side of the device shell; the main water pipe is vertically arranged on the front side surface of the device shell; the water pump is arranged in the water tank, and the water outlet of the water pump is butted with the lower end of the main water pipe; the two horizontal water diversion pipes are transversely arranged on the front side surface of the device shell and are communicated with the main water pipe; a plurality of branch water pipes penetrating through the front side wall of the device shell are arranged on the rear side surfaces of the two horizontal water distribution pipes in a communicated manner, and the branch water pipes on the lower side are positioned between the upper side edge and the lower side edge of the cleaning and conveying chain; a plurality of nozzles are communicated and arranged on the opposite sides of the branched water pipes on the upper side and the lower side at intervals; a water valve is arranged on the main water pipe below the horizontal diversion pipe on the lower side; the heater is arranged on the water tank and used for heating water in the water tank; a mounting plate which divides the water tank into a water outlet cavity and a water return cavity is transversely fixed in the water tank; the mounting plate is provided with a mounting notch, the edge of the mounting notch is provided with a buckling groove, and a filter plate is inserted in the buckling groove; the water pump is positioned in the water outlet cavity; the water receiving tray is arranged at the lower side in the device shell and is communicated with the water return cavity through a water return pipe; a top window for replacing the filter plate is arranged at the top of the water tank.

Further, the drying mechanism comprises a heat exchanger, a blowing fan, a main air pipe and two flat air boxes;

the heat exchanger and the blowing fan are both arranged at the top of the device shell, and the air inlet of the blowing fan is communicated with the air outlet of the heat exchanger; the main air pipe is vertically arranged in the device shell, and the upper end of the main air pipe penetrates through the top of the device shell and then is butted with an air outlet of the air blowing fan; the two flat air boxes are horizontally arranged in the device shell and are communicated with the main air pipe; the flat air box at the lower side is positioned between the upper layer and the lower layer of the cleaning transmission chain; a plurality of blowpipes are arranged on opposite sides of the flat air box; the mouth of each blowpipe is rotatably provided with a diffusion fan blade; the air inlet of the heat exchanger extends into the device shell.

Further, the horizontal centering transmission mechanism comprises a horizontal transmission motor, a transmission driving chain wheel, a transmission driven chain wheel, a plurality of supporting rollers, a centering driving screw rod, a centering adjusting plate, two deflector rods, two deflector rod driving shafts and two cranks;

a through groove is transversely arranged on the upper side surface of the support flat plate; each supporting roller is rotatably and longitudinally arranged on the through groove; the horizontal transmission motor is arranged on the supporting flat plate; the transmission driving chain wheel is arranged on an output shaft of the horizontal transmission motor; the transmission driven chain wheel is coaxially arranged on the shaft end of one of the supporting rollers; the transmission driving chain wheel and the transmission driven chain wheel are connected and driven through a horizontal transmission chain; each supporting roller is synchronously driven in the same direction through chain transmission; the centrally driving screw rod is rotatably and transversely arranged on the lower side surface of the supporting flat plate; a rotating handle is arranged at one end of the central driving screw rod; the centering adjusting plate is transversely and slidably arranged on the lower side surface of the supporting flat plate; a driving adjusting seat is arranged on the centering adjusting plate, and a centering driving screw rod is screwed on the driving adjusting seat; a centering adjusting groove is longitudinally arranged on the lower side surface of the centering adjusting plate; the two driving rod driving shafts are respectively and vertically installed on the front side surface and the rear side surface of the supporting flat plate in a rotating mode through rotating seats; one end of each of the two deflector rods is respectively fixed on the upper ends of the two deflector rod driving shafts, and the other ends of the two deflector rods extend to the upper part of the support flat plate; one end of each crank is provided with an adjusting cylinder which is arranged on the centering adjusting groove in a sliding mode, and the other ends of the two cranks are fixed to the lower ends of the two driving lever driving shafts respectively.

Further, the end part transmission mechanism comprises a hinge shaft, a strip supporting plate, two connecting plates, two end part transmission chain wheels and a plurality of transmission branches; the transmission branch comprises an end transmission strip, a synchronous chain wheel and a front-end chain wheel;

one end of each connecting plate is respectively arranged at the right ends of the front side surface and the rear side surface of the support flat plate; two ends of the articulated shaft are respectively and rotatably arranged on the two connecting plates, and one end transmission chain wheel is arranged on one shaft end of the articulated shaft; the other end transmission chain wheel is arranged on the shaft end of one of the supporting rollers; the two end part transmission chain wheels are connected and driven through an end part transmission chain; two hinge strips are rotatably arranged on a hinge shaft between the two connecting plates; the front end and the rear end of the long supporting plate are respectively fixed on the two hinged strips; the angle adjusting mechanism is supported on the lower side surface of the long supporting plate; the synchronous chain wheels of each transmission branch are mounted on the articulated shaft at intervals; the long supporting plate is used for fixing the left end of each end part transmission strip in a penetrating manner; a guide groove is transversely arranged on the upper side surface and the lower side surface of the end part transmission strip; the front-end chain wheel is arranged on the right end of the end part transmission strip; the front end chain wheel and the corresponding synchronous chain wheel are connected and driven through a synchronous chain, and the synchronous chain is matched with the two guide grooves.

Further, the angle adjusting mechanism comprises an angle adjusting seat, an angle adjusting screw rod, an angle adjusting sleeve, an adjusting nut and a U-shaped adjusting plate; the angle adjusting seat is fixed on the two supporting legs on the right side; the lower end of the angle adjusting sleeve is hinged on the angle adjusting plate; the parallel plate at the lower side of the U-shaped adjusting plate is fixed on the upper end of the angle adjusting sleeve; the upper end of the angle adjusting screw rod is hinged on the lower side surface of the long supporting plate, and the lower end of the angle adjusting screw rod penetrates through the two parallel plates of the U-shaped adjusting plate and then extends into the angle adjusting sleeve; the adjusting nut is screwed on the angle adjusting screw rod, and the two parallel plates of the U-shaped adjusting plate clamp the adjusting nut.

Further, the blanking mechanism comprises a blanking auxiliary structure, a blanking driving motor, a blanking supporting frame, a blanking driving worm, two blanking driving worm wheels, two transfer rods, two worm wheel mounting shafts and four synchronous swing rods; the blanking auxiliary structure comprises a gear lever, two tension springs and two linkage levers;

the blanking support frame is fixed on the two support legs on the left side; the two worm wheel mounting shafts are longitudinally mounted on the blanking support frame; the two blanking driving worm gears are respectively arranged on the two worm gear mounting shafts; the blanking driving worm is transversely installed on the blanking supporting frame in a rotating mode and is meshed with the two blanking driving worm wheels simultaneously; the blanking driving motor is used for driving the blanking driving worm to rotate; the lower ends of the four synchronous swing rods are respectively fixed on the front end and the rear end of the two worm wheel mounting shafts; the two transfer rods are respectively connected and fixed on the upper ends of the two synchronous swing rods on the front side and the upper ends of the two synchronous swing rods on the rear side; two blanking take-up levers used for extending into a gap between adjacent supporting rollers are longitudinally arranged on the opposite side surfaces of the two transfer levers; the front end and the rear end of the blocking rod extend downwards to form a vertical rod; the two vertical rods are vertically and slidably arranged on the front side surface and the rear side surface of the supporting flat plate through two sliding installation seats; the right ends of the two linkage rods are respectively fixed on the two vertical rods, and the left ends of the two linkage rods are respectively provided with a linkage roller; when the synchronous swing rod swings rightwards, the linkage idler wheel is pressed, so that the blocking rod descends and extends into a gap between adjacent supporting rollers; the two tension springs are respectively sleeved on the two vertical rods, the upper ends and the lower ends of the tension springs are respectively fixed on the linkage rod and the mounting seat on the upper side, and the tension springs are used for driving the gear rods to extend out from a gap between the adjacent supporting rollers to block the next non-stick pan when the synchronous swing rods swing leftwards to leave the linkage roller; a baffle plate for blocking the non-stick pan is arranged on the upper edge of the left side of the supporting flat plate.

Further, the blanking conveying mechanism comprises a conveying guide rail, a blanking conveying motor, a conveying driving chain wheel, a conveying driving chain and each receiving branch; the receiving branches comprise transmission seats, height adjusting internal threaded pipes, height adjusting screw rods, cantilever plates and cross-shaped trays;

the transportation guide rail is longitudinally arranged on the left side of the support flat plate; a transmission groove is longitudinally arranged on the upper side surface of the transportation guide rail; a roller groove is longitudinally arranged on the left and right groove walls of the transmission groove; the left side and the right side of the transmission seat are both provided with transmission rollers which run on the roller grooves on the corresponding sides; the conveying driving chain is arranged in the conveying groove in a rotary and longitudinal mode, and each conveying seat is arranged on the conveying driving chain at intervals; the blanking conveying motor is arranged on the conveying guide rail, and the end part of an output shaft of the blanking conveying motor extends into the conveying groove; the conveying driving chain wheel is arranged on the extending end of the blanking conveying motor and is in matched transmission with the conveying driving chain; the lower end of the height adjusting internal threaded pipe is fixed on the upper side surface of the transmission seat; the lower end of the height adjusting screw rod is screwed on the height adjusting internal threaded pipe, and a locknut for friction locking is screwed on the height adjusting screw rod; the left end of the cantilever plate is fixed on the upper end of the height adjusting screw rod; the cross tray is fixed on the right end of the upper side face of the cantilever plate, and the front branch rod and the rear branch rod of the cross tray are respectively used for penetrating between the two blanking cantilever rods at the front side and the two blanking cantilever rods at the rear side.

Compared with the prior art, the invention has the beneficial effects that: the non-stick pans are automatically fed to the cleaning and conveying mechanism by the feeding device, so that the automatic feeding of the cleaning device is realized, and the labor cost is saved; the spraying cleaning mechanism is utilized to wash the non-stick pan on the cleaning transmission mechanism, and oil stain or wax on the non-stick pan is washed off, so that the non-stick pan is automatically cleaned; drying the cleaned non-stick pan by using a drying mechanism, and ensuring that the non-stick pan leaving the conveying mechanism is clean and dry; the end part transmission mechanism is used for facilitating the matching and butt joint of the cleaning transmission mechanism and the non-stick pan for transferring, so that the non-stick pan is matched with the horizontal middle transmission mechanism and is transmitted to the left side of the support flat plate for blanking; the inclination angle of the end part transmission mechanism is adjusted by using the angle adjusting mechanism, so that the matching continuity of the end part transmission mechanism and the cleaning transmission mechanism is ensured; the non-stick pan is conveyed by the horizontal centering conveying mechanism, and is centered and adjusted, so that the situation that the non-stick pan cannot be stably transferred when the blanking mechanism carries out blanking due to the deviation of the angle and the position of the non-stick pan is avoided; utilize the cooperation of unloading mechanism and unloading conveying mechanism to realize automatic unloading to transport the non-stick pan to next processing step or transport and store the storehouse and store, practiced thrift the human cost.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the spray cleaning mechanism of the present invention;

FIG. 3 is a right side view of the purge transport mechanism of the present invention;

FIG. 4 is a schematic view of a heat drying mechanism according to the present invention;

FIG. 5 is an enlarged view of the conveyor and the blanking device of the present invention;

FIG. 6 is a top view of the transfer device of the present invention;

FIG. 7 is a top view of the blanking device of the present invention;

fig. 8 is a schematic structural diagram of the feeding device of the present invention.

Detailed Description

The technical solution of the present invention is described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1 to 8, the present invention provides a cleaning transfer system for non-stick pan, comprising: the device comprises a feeding device, a cleaning device, a transmission device and a discharging device; the cleaning device comprises a device shell 1, a cleaning transmission mechanism, a spraying cleaning mechanism and a drying mechanism; the transmission device comprises a support flat plate 601, an end transmission mechanism, a horizontal centering transmission mechanism and an angle adjusting mechanism; the blanking device comprises a blanking mechanism and a blanking conveying mechanism;

the cleaning and conveying mechanism is transversely arranged on the device shell 1 in a penetrating manner and is used for obliquely placing the non-stick pan and conveying the non-stick pan to the left side from the right side of the device shell 1; the feeding device is arranged on the right side of the device shell 1 and is used for conveying the non-stick pan to the cleaning and conveying mechanism; the spraying and cleaning mechanism is arranged on the device shell 1 and is used for spraying and cleaning the non-stick pan on the transmission mechanism; the drying mechanism is arranged on the device shell 1 and is used for drying the cleaned non-stick pan; supporting feet 602 are fixed at four top corners of the lower side of the supporting flat plate 601, and the supporting flat plate 601 is positioned at the left side of the device shell 1; the horizontal centering transmission mechanism is arranged on the supporting flat plate 601 and is used for centering transmission of the non-stick pan; the end part transmission mechanism is arranged on the right end of the support flat plate 601 and is used for transferring the cleaned non-stick pan; the angle adjusting mechanism is mounted on the support leg 602 and is used for adjusting the pitch angle of the end transmission mechanism; the blanking mechanism is arranged at the left end of the supporting flat plate 601, the blanking conveying mechanism is arranged at the left side of the blanking mechanism, the nonstick pan conveyed to the left side by the blanking mechanism is conveyed to the blanking conveying mechanism, and the nonstick pan is conveyed to the next processing link by the blanking conveying mechanism.

The non-stick pans are automatically fed to the cleaning and conveying mechanism by the feeding device, so that the automatic feeding of the cleaning device is realized, and the labor cost is saved; the spraying cleaning mechanism is utilized to wash the non-stick pan on the cleaning transmission mechanism, and oil stain or wax on the non-stick pan is washed off, so that the non-stick pan is automatically cleaned; drying the cleaned non-stick pan by using a drying mechanism, and ensuring that the non-stick pan leaving the conveying mechanism is clean and dry; the end part transmission mechanism is used for facilitating the matching and butt joint of the cleaning transmission mechanism and the non-stick pan for transferring, so that the non-stick pan is matched with the horizontal middle transmission mechanism and is transmitted to the left side of the supporting flat plate 601 for blanking; the inclination angle of the end part transmission mechanism is adjusted by using the angle adjusting mechanism, so that the matching continuity of the end part transmission mechanism and the cleaning transmission mechanism is ensured; the non-stick pan is conveyed by the horizontal centering conveying mechanism, and is centered and adjusted, so that the situation that the non-stick pan cannot be stably transferred when the blanking mechanism carries out blanking due to the deviation of the angle and the position of the non-stick pan is avoided; utilize the cooperation of unloading mechanism and unloading conveying mechanism to realize automatic unloading to transport the non-stick pan to next processing step or transport and store the storehouse and store, practiced thrift the human cost.

Further, the cleaning transmission mechanism comprises a cleaning transmission motor 101, a cleaning driven chain wheel 102, two cleaning transmission chains 106, two transmission shafts 108, four transmission chain wheels 105 and a plurality of conveying seats 107;

the mounting seats 103 are respectively arranged at the same height position on the left edge and the right edge of the front side wall and the rear side wall of the device shell 1; the two transmission shafts 108 are respectively and rotatably and longitudinally arranged on the two mounting seats 103 on the left side and the two mounting seats 103 on the right side; four transmission chain wheels 105 are respectively arranged on the front side and the rear side of the two transmission shafts 108; two cleaning transmission chains 106 are respectively installed on the two transmission chain wheels 105 on the front side and the two transmission chain wheels 105 on the rear side in a transmission manner; the cleaning transmission motor 101 is arranged on the device shell 1, and a cleaning driving chain wheel is arranged on the output shaft of the cleaning transmission motor 101; the washing driven sprocket 102 is mounted on one end of one of the transmission shafts 108; the cleaning driving chain wheel drives and cleans the driven chain wheel 102 through the cleaning transmission chain 111; each conveying seat 107 is longitudinally fixed on the front cleaning conveying chain 106 and the rear cleaning conveying chain 106 at intervals; a plurality of U-shaped metal frames 104 are longitudinally arranged on each conveying seat 107 at intervals; a plurality of roller supports 109 are arranged on the inner walls of the front side and the rear side of the device shell 1 at intervals; a support pulley 110 is mounted on each roller support 109, and each support pulley 110 supports the cleaning transport chain 106 on the upper layer of the corresponding side, respectively.

The two cleaning and conveying chains 106 are used for driving each conveying seat 107 to move, so that each non-stick pan is driven to sequentially pass through the spraying cleaning mechanism and the heating and drying mechanism, and the non-stick pan is conveyed; the non-stick pan is positioned by the U-shaped metal frame 104, so that the non-stick pan is prevented from rolling off in the conveying process, and meanwhile, the non-stick pan is ensured to keep an inclined state, so that the cleaning and drying efficiency is improved; the roller support 109 and the support pulley 110 are used for supporting the cleaning transmission chain 106, so that the cleaning transmission chain 106 is prevented from collapsing in the movement process, and the non-stick pan is prevented from shaking in the transmission process.

Further, the feeding device comprises a feeding driving motor 221 and a strip-shaped groove 223; the strip-shaped groove 223 is installed on the right side of the device housing 1 through a support rod 224, and the rear side of the strip-shaped groove 223 is inclined downward; the rear end of the strip-shaped groove 223 extends to the upper part of the two right mounting seats 103; a discharge opening is arranged at the rear end of the lower side surface of the strip-shaped groove 223; the feeding driving motor 221 is installed at the rear side of the strip-shaped groove 223; four barrier strips 222 are arranged on an output shaft of the feeding driving motor 221 in a manner of being perpendicular to the axis, and the four barrier strips 222 are distributed in a cross shape and used for blocking the feeding openings in turn.

The four barrier strips 222 are driven by the feeding driving motor 221 to cover the discharging opening in turn, so that the non-stick pans can fall in sequence, the non-stick pans can fall on the conveying seat 103 one by one, automatic feeding is realized, and the labor cost is saved.

Further, the spray cleaning mechanism comprises a water tank 121, a water pump 122, a water receiving tray 128, a water return pipe 129, a main water pipe 123 and two horizontal water diversion pipes 126;

the water tank 121 is installed at the front side of the apparatus case 1; the main water pipe 123 is vertically installed on the front side surface of the device housing 1; the water pump 122 is installed in the water tank 121, and a water outlet of the water pump 122 is butted with the lower end of the main water pipe 123; the two horizontal water diversion pipes 126 are transversely arranged on the front side surface of the device shell 1, and both the two horizontal water diversion pipes 126 are communicated with the main water pipe 123; a plurality of branch water pipes 125 penetrating through the front side wall of the device shell 1 are respectively installed on the rear side surfaces of the two horizontal water diversion pipes 126 in a communicating manner, and the branch water pipes 125 on the lower side are respectively positioned between the upper side edge and the lower side edge of the cleaning transmission chain 106; a plurality of nozzles 127 are arranged on the opposite sides of the branched water pipes 125 on the upper and lower sides in a spaced-apart communication manner; a water valve 124 is arranged on the main water pipe 123 below the horizontal diversion pipe 126 at the lower side; a heater 133 installed on the water tank 121 for heating water in the water tank 121; a mounting plate 130 which divides the water tank 121 into a water outlet cavity and a water return cavity is transversely fixed in the water tank 121; the mounting plate 130 is provided with a mounting notch, the edge of the mounting notch is provided with a buckling groove, and the filtering plate 131 is inserted in the buckling groove; the water pump 122 is positioned in the water outlet cavity; the water receiving tray 128 is arranged at the lower side in the device shell 1, and the water receiving tray 128 is communicated with the water return cavity through a water return pipe 129; a top window 132 for replacing the filter plate 131 is provided at the top of the water tank 121.

The heater 133 is used for heating cold water, and the sprayed hot water dissolves oil stains or wax, so that the oil stains or wax are more easily washed; the nozzles 127 on the upper and lower layers of branch water pipes 125 are used for spraying water, so that the non-stick pan is efficiently cleaned; the water spraying area is increased by using a plurality of branch water pipes 125, so that the cleaning efficiency is further improved; the water receiving tray 128 is used for receiving water, and the received water is conveyed back to the water tank 121, so that the loss is reduced, and the water consumption is saved; the water collected by the water receiving tray 128 is filtered by the filter plate 131 to remove oil or wax in the water and keep the water in the water outlet chamber clean; the filter plates 131 are easily removed and replaced by the top windows 132 and mounting notches in the mounting plate 130.

Further, the drying mechanism comprises a heat exchanger 201, a blowing fan 202, a main air pipe 204 and two flat air boxes 203;

the heat exchanger 201 and the blowing fan 202 are both arranged at the top of the device shell 1, and the air inlet of the blowing fan 202 is communicated with the air outlet of the heat exchanger 201; the main air pipe 204 is vertically arranged in the device shell 1, and the upper end of the main air pipe 204 penetrates through the top of the device shell 1 and then is butted with an air outlet of the blowing fan 202; the two flat bellows 203 are both horizontally arranged in the device shell 1, and the two flat bellows 203 are both communicated with the main air pipe 204; the flat bellows 203 on the lower side is positioned between the upper layer and the lower layer of the cleaning transmission chain 106; a plurality of blowpipes are provided on opposite sides of the flat windbox 203; a diffusing fan blade 206 is rotatably arranged at the opening of each blowpipe; the air inlet 207 of the heat exchanger 201 extends into the device housing 1.

The air heated by the heat exchanger 201 is blown out by the blowing fan 202, and hot air is transmitted to the two flat air boxes 203 through the main air pipe 204 and blown out through each blowing pipe, so that the drying of the non-stick pan is realized; the hot air blown out by the blowpipe drives the diffusion fan blades 206 to rotate, so that the area covered by the hot air is increased, and the drying efficiency is improved; air is returned by the air inlet 207, so that the air is heated by the heat exchanger 201 and then blown out by the air blowing fan 202, thereby realizing circular air blowing, reducing the energy consumption of repeatedly heating the air and saving the cost.

Further, the horizontal centering transmission mechanism comprises a horizontal transmission motor 603, a transmission driving chain wheel 604, a transmission driven chain wheel 605, a plurality of supporting rollers 606, a centering driving screw 701, a centering adjusting plate 702, two shift levers 711, two shift lever driving shafts 709 and two cranks 708;

a through groove 610 is transversely arranged on the upper side surface of the support flat plate 601; each support roller 606 is rotatably and longitudinally arranged on the through groove 610; the horizontal transmission motor 603 is installed on the support flat plate 601; a transmission driving sprocket 604 is installed on the output shaft of the horizontal transmission motor 603; a transmission driven sprocket 605 is coaxially mounted on the shaft end of one of the support rollers 606; the transmission driving chain wheel 604 and the transmission driven chain wheel 605 are connected and driven through a transmission chain; each support roller 606 is synchronously driven in the same direction through chain transmission; the central driving screw 701 is rotatably and transversely arranged on the lower side surface of the support flat plate 601; a rotating handle 705 is arranged at one end of the central driving screw rod 701; a centering adjustment plate 702 is laterally slidably mounted on the lower side of the support plate 601; a driving adjusting seat 704 is arranged on the centering adjusting plate 702, and a centering driving screw rod 701 is screwed on the driving adjusting seat 704; a centering adjusting groove 707 is longitudinally arranged on the lower side surface of the centering adjusting plate 702; two driving lever driving shafts 709 are respectively vertically installed on the front side surface and the rear side surface of the supporting flat plate 601 in a rotating mode through rotating seats 710; one end of each of the two shift levers 711 is fixed to the upper end of each of the two shift lever driving shafts 709, and the other end of each of the two shift levers extends to the upper side of the support plate 601; an adjusting cylinder 706 slidably disposed in a central adjusting groove 707 is provided at one end of each of the two cranks 708, and the other ends of the two cranks 708 are respectively fixed to lower ends of two lever driving shafts 709.

The conveying driving chain wheel 604 is driven to rotate by the supporting roller driving motor 603, the conveying driving chain wheel 604 drives the conveying driven chain wheel 605 to rotate through a driving belt, so that one supporting roller 606 is driven to rotate, all the supporting rollers 606 synchronously rotate in the same direction, and the conveying of the non-stick pan is realized; the centering driving screw rod 701 is rotated to drive the driving adjusting seat 704 to move transversely, so that the centering adjusting plate 702 is driven to move, the adjusting cylinders 706 on the two cranks 708 are driven to swing, the two deflector rod driving shafts 709 are driven to rotate, the two deflector rods 711 are synchronously driven to swing, the gap between the two deflector rods 711 is adjusted, the centering of the non-stick pan is realized, meanwhile, the non-stick pan with different sizes can be adapted, and the universality is enhanced; the rotating handle 705 is used for an operator to drive the centering driving screw rod 701 to rotate, and the gap between the two shift rods 711 can be adjusted manually.

Further, the end transfer mechanism includes a hinge shaft 904, a strip support plate 909, two connecting plates 903, two end transfer sprockets 901, and a plurality of transfer branches; the transmission branch comprises an end transmission bar 911, a synchronization chain 906, a synchronization sprocket 905 and a front end sprocket 907;

one end of each of the two connecting plates 903 is respectively arranged at the right ends of the front side surface and the rear side surface of the support flat plate 601; both ends of the hinge shaft 904 are rotatably mounted on the two connection plates 903, respectively, and one of the end transmission sprockets 901 is mounted on one of the shaft ends of the hinge shaft 904; the other end transmission sprocket 901 is mounted on the shaft end of one of the support rollers 606; two end transmission chain wheels 901 are connected and driven through an end transmission chain 902; two hinge strips 910 are rotatably mounted on the hinge shaft 904 between the two connecting plates 903; the front and rear ends of the elongated support plate 909 are fixed to the two hinge strips 910; the angle adjusting mechanism is supported on the lower side surface of the elongated support plate 909; the synchronous sprockets 905 of each transmission branch are mounted on the hinge shaft 904 at intervals; a long support plate 909 penetratingly-fixing the left end of each end transmission bar 911; a guide groove 908 is transversely arranged on each of the upper side surface and the lower side surface of the end transmission bar 911; a front end sprocket 907 is mounted on the right end of the end transfer bar 911; the front end chain wheel 907 is connected with the corresponding synchronous chain wheel 905 for transmission through a synchronous chain 906, and the synchronous chain 906 is matched with the two guide grooves 908.

The two end transmission chain wheels 901 and the end transmission chain wheels 901 are matched to enable the hinged shaft 904 and each supporting roller 606 to synchronously rotate in the same direction, so that each synchronous chain wheel 905 synchronously rotates in the same direction, the moving speed of each synchronous chain 906 is the same, and the non-stick pan which is finished in the middle is ensured to be always positioned on the transverse middle line of the end transmission mechanism; the timing chain 906 is guided and supported by the guide groove 908, and the timing chain 906 is prevented from shifting during driving.

Further, the angle adjusting mechanism comprises an angle adjusting seat 801, an angle adjusting screw 805, an angle adjusting sleeve 802, an adjusting nut 804 and a U-shaped adjusting plate 803; the angle adjusting base 801 is fixed on the two support legs 602 on the right side; the lower end of the angle adjusting sleeve 802 is hinged on the angle adjusting plate 801; the parallel plates on the lower side of the U-shaped adjusting plate 803 are fixed on the upper end of the angle adjusting sleeve 802; the upper end of the angle adjusting screw 805 is hinged on the lower side surface of the long supporting plate 909, and the lower end of the angle adjusting screw penetrates through the two parallel plates of the U-shaped adjusting plate 803 and then extends into the angle adjusting sleeve 802; the adjusting nut 804 is screwed on the angle adjusting screw 805, and the two parallel plates of the U-shaped adjusting plate 803 clamp the adjusting nut 804.

The angle adjusting screw 805 is driven by the rotation of the adjusting nut 804 to stretch into the angle adjusting sleeve 802 for a length, so that the inclination angle of each end part transmission strip 911 is adjusted, and the non-stick pan can be stably transferred from the horizontal centering transmission mechanism to the end part transmission mechanism.

Further, the blanking mechanism comprises a blanking auxiliary structure, a blanking driving motor 401, a blanking supporting frame 405, a blanking driving worm 403, two blanking driving worm gears 404, two transfer rods 406, two worm gear mounting shafts 411 and four synchronous swing rods 402; the blanking auxiliary structure comprises a stop lever 410, two tension springs 409 and two linkage levers 407;

the blanking support frame 405 is fixed on the two support legs 602 on the left side; the two worm wheel mounting shafts 411 are longitudinally mounted on the blanking support frame 405; two blanking driving worm gears 404 are respectively arranged on the two worm gear mounting shafts 411; the blanking driving worm 403 is transversely installed on the blanking supporting frame 405 in a rotating mode, and the blanking driving worm 403 is meshed with the two blanking driving worm wheels 404 simultaneously; the blanking driving motor 401 is used for driving the blanking driving worm 403 to rotate; the lower ends of the four synchronous swing rods 402 are respectively fixed on the front and rear ends of the two worm wheel mounting shafts 411; the two transfer rods 406 are respectively connected and fixed on the upper ends of the two synchronous swing rods 402 on the front side and the upper ends of the two synchronous swing rods 402 on the rear side; two blanking take-up levers 412 which are used for extending into a gap between adjacent supporting rollers 606 are longitudinally arranged on the opposite side surfaces of the two transfer levers 406; the front and rear ends of the blocking rod 410 both extend downwards to form a vertical rod; the two vertical rods are vertically and slidably mounted on the front side surface and the rear side surface of the supporting flat plate 601 through the two sliding mounting seats 414; the right ends of the two linkage rods 407 are respectively fixed on the two vertical rods, and the left ends of the two linkage rods 407 are respectively provided with a linkage roller 408; when the synchronous swing rod 402 swings rightwards, the linkage roller 408 is pressed, so that the blocking rod 410 descends and extends into a gap between adjacent supporting rollers 606; the two tension springs 409 are respectively sleeved on the two vertical rods, the upper ends and the lower ends of the tension springs 409 are respectively fixed on the linkage rod 407 and the mounting seat 414 on the upper side, and the tension springs are used for driving the blocking rod 410 to extend out from a gap between the adjacent supporting rollers 606 when the synchronous swing rod 402 swings left and leaves the linkage roller 408, so as to block the next non-stick pan; a baffle 413 for blocking the non-stick pan is provided on the left upper edge of the support plate 601.

The blanking driving motor 401 is used for synchronously driving the two blanking driving worm gears 404 to rotate through the blanking driving worm 403, so that the four synchronous swing rods 402 synchronously swing to drive the two transfer rods 406 to synchronously move, the non-stick pan is transferred from the horizontal centered conveying mechanism to the blanking conveying mechanism, the transfer and blanking of the non-stick pan are realized, and the stability of the non-stick pan in transfer is ensured; the four blanking take-up levers 412 extend into gaps between the supporting rollers 606, so that the non-stick pan can be smoothly transported to the positions above the four blanking take-up levers 412 by the supporting rollers 606 before blanking, and when the synchronous swing link 402 swings leftwards, the four blanking take-up levers 412 can stably take up the non-stick pan upwards, so that stable transfer blanking is realized; when the linkage rod 407 swings rightwards in the synchronous swing rod 402, the vertical rod is driven to move downwards to overcome the tension of the tension spring 409, the blocking rod 410 enters a gap between the supporting rollers 606, so that the non-stick pan can be conveyed to the positions above the four blanking take-up levers 412 by the supporting rollers 606, and meanwhile, the fact that the blanking take-up levers 412 stretch into the gap of the supporting rollers 606 every time is ensured, the non-stick pan does not exist at the left end of the supporting flat plate 601, the non-stick pan is prevented from blocking the blanking take-up levers 412, and therefore the non-stick pan is blanked one by one; the non-stick pan is prevented from sliding off the left end of the support flat plate 601 by the baffle 413; the friction of the linking roller 408 can be reduced to ensure that the linking rod 407 can drive the gear lever 410 to move down.

Further, the blanking conveying mechanism comprises a conveying guide rail 301, a blanking conveying motor 302, a conveying driving chain wheel 303, a conveying driving chain 314 and each access branch; the access branches comprise a transmission seat 307, a height adjusting internal threaded pipe 308, a height adjusting screw rod 310, a cantilever plate 311 and a cross-shaped tray 312;

the transport rail 301 is longitudinally arranged on the left side of the support flat plate 601; a conveying groove 304 is longitudinally arranged on the upper side surface of the conveying guide rail 301; a roller groove 305 is longitudinally arranged on the left and right groove walls of the conveying groove 304; the left and right sides of the transmission seat 307 are provided with transmission rollers 306 which run on the corresponding side roller grooves 305; the transport driving chain 314 is rotatably and longitudinally arranged in the transmission groove 304, and each transmission seat 307 is arranged on the transport driving chain 314 at intervals; the blanking conveying motor 302 is arranged on the conveying guide rail 301, and the end part of an output shaft of the blanking conveying motor 302 extends into the conveying groove 304; the conveying driving chain wheel 303 is arranged at the extending end of the blanking conveying motor 302, and the conveying driving chain wheel 303 is in matched transmission with the conveying driving chain 314; the lower end of the height-adjusting internally threaded tube 308 is fixed on the upper side surface of the transmission seat 307; the lower end of the height adjusting screw rod 310 is screwed on the height adjusting internal threaded pipe 308, and a locknut 309 for friction locking is screwed on the height adjusting screw rod 310; the left end of the cantilever plate 311 is fixed on the upper end of the height adjusting screw rod 310; the cross-shaped tray 312 is fixed on the right end of the upper side surface of the cantilever plate 311, and the front and rear branch rods of the cross-shaped tray 312 are respectively used for passing through between the two blanking take-up rods 412 at the front side and the two blanking take-up rods 412 at the rear side; an L-shaped stop bar 313 for limiting the non-stick pan is arranged on each branch bar of each cross-shaped tray 312.

The blanking transportation motor 302 is used for driving each take-off branch to move through the transportation driving chain wheel 303 and the transportation driving chain 314, and the take-off branches move to transport the non-stick pan to the next processing step or transport the non-stick pan to a storage bin for storage, so that automatic blanking transportation is realized, and the labor cost is saved; the height of the cross-shaped tray 312 is adjusted by utilizing the matching between the height adjusting internal threaded pipe 308 and the height adjusting screw rod 310, when the synchronous swing rod 402 swings leftwards to drive the non-stick pan to move, the cross-shaped tray 312 can pass through the space between the blanking take-up levers 412 and lift the non-stick pan, at the moment, the synchronous swing rod 402 continues swinging downwards, when the cross-shaped tray 312 longitudinally moves out of the swinging range of the synchronous swing rod 402, the synchronous swing rod 402 swings back to the upper part of the left end of the supporting flat plate 601, and the cross-shaped tray 312 is matched with the blanking take-up levers 412, so that the non-stick pan can be smoothly transported; the anti-loosening nut 309 is used for realizing friction anti-loosening, so that the height adjusting screw rod 310 is ensured not to rotate in the transmission process; the non-stick pan is prevented from sliding off the cross tray 312 by the L-shaped stop bar 313.

In the cleaning and transferring system for the non-stick pan provided by the invention, the feeding driving motor 221, the cleaning and transferring motor 101, the horizontal transferring motor 603, the blanking driving motor 401 and the blanking conveying motor 302 all adopt the existing stepping motors.

When the cleaning and transferring system for the non-stick pan is installed and used, firstly, the angle of the end part transmission mechanism is adjusted according to the cleaning and transmitting mechanism, the two adjusting nuts 804 are screwed to adjust the length of the angle adjusting screw rod 805 extending into the angle adjusting sleeve 802, so that the inclination angle of each end part transmission strip 911 is adjusted, when the transmission seat 107 drives the U-shaped metal frames 104 to turn upwards, each U-shaped metal frame 104 can pass through the corresponding end part transmission strips 911, and the non-stick pan is lifted upwards to enable the non-stick pan to stably slide into the U-shaped metal frame 104; then, a horizontal centering transmission mechanism is adjusted according to the diameter of the non-stick pan, a centering driving screw rod 701 rotates to drive a driving adjusting seat 704 to transversely move, a centering adjusting plate 702 is driven to move, so that adjusting cylinders 706 on two cranks 708 are driven to slide along a centering adjusting groove 707, two deflector rod driving shafts 709 are driven to rotate, two deflector rods 711 are synchronously driven to swing, a gap between the two deflector rods 711 is adjusted, and the non-stick pan is ensured to be positioned on the transverse middle line of the horizontal centering transmission mechanism after passing through the non-stick pan;

then, the heater 133 is turned on to heat the water in the water tank 121, the water valve 124 is opened after the water is heated, the water pump 122 conveys the water to the two horizontal water diversion pipes 126 through the main water pipe 123 and then to each branch water pipe 125, and then the water is sprayed out from each nozzle 127; air enters the heat exchanger 201 through the air inlet 207 to be heated, the air heated by the heat exchanger 201 is blown out by the blowing fan 202, and hot air is transmitted to the two flat air boxes 203 through the main air pipe 204 and blown out through each blowing pipe to drive the diffusion fan blades 207 to rotate;

when the cleaning and transferring system works, the feeding driving motor 221 rotates according to the moving speed of the conveying seat 107, so that the four barrier strips 222 move away from the discharging opening in turn for discharging, and the falling non-stick pan falls into each U-shaped metal frame 104 on the conveying seat 107; the cleaning transmission motor 101 drives the cleaning driving chain wheel to rotate, the cleaning driving chain wheel drives the cleaning driven chain wheel 102 to rotate through the transmission chain 411, so as to drive the transmission shaft 108 to rotate, and the four transmission chain wheels 105 drive the transmission seats 107 to move through the synchronous transmission of the cleaning transmission chain 106; the external feeding device feeds the non-stick pan to each conveying seat 107; the two cleaning transmission chains 106 drive each conveying seat 107 to sequentially pass through the spraying cleaning mechanism to complete cleaning, and then pass through the heating drying mechanism to complete drying, so that the non-stick pan is clean and dry;

the cleaned non-stick pan is conveyed to a horizontal centering conveying mechanism through an end conveying strip 911, each supporting roller 606 drives the non-stick pan to pass through a centering adjusting mechanism and then to the right side of a blanking auxiliary structure, at the moment, a synchronous swing rod 402 is pressed on a linkage roller 408, a blanking pick-up bar 412 is located between gaps of the supporting rollers 606, the supporting rollers 606 convey the non-stick pan to the upper side of the blanking pick-up bar 412, a blanking driving motor 401 rotates, two blanking driving worm wheels 404 are synchronously driven to rotate through a blanking driving worm 403, so that the four synchronous swing rods 402 synchronously swing, and the non-stick pan is conveyed to a cross-shaped tray 312; at the moment, the synchronous swing rod 402 swings leftwards to leave the linkage roller 408, the tension spring 409 drives the stop lever 410 to move upwards to block the next non-stick pan, and at the moment, the left side of the blanking auxiliary structure is not provided with the non-stick pan; the four synchronous swing rods 402 drive the non-stick pan to swing leftwards, the cross-shaped tray 312 penetrates through the space between the blanking take-up levers 412 and supports the non-stick pan synchronous swing rods 402 to continuously swing downwards, the blanking conveying motor 302 drives the cross-shaped tray 312 to leave the swing range of the synchronous swing rods 402 through the cooperation between the conveying driving chain wheel 303 and the conveying driving chain 314, and then the synchronous swing rods 402 swing back to the upper portion of the left end of the supporting flat plate 601 to press down the gear lever 410 again.

As noted above, while the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a wash transfer system for non-stick pan which characterized in that: comprises a feeding device, a cleaning device, a transmission device and a discharging device; the cleaning device comprises a device shell (1), a cleaning transmission mechanism, a spraying cleaning mechanism and a drying mechanism; the transmission device comprises a support flat plate (601), an end transmission mechanism, a horizontal centering transmission mechanism and an angle adjusting mechanism; the blanking device comprises a blanking mechanism and a blanking conveying mechanism;

the cleaning and conveying mechanism is transversely arranged on the device shell (1) in a penetrating manner and used for obliquely placing the non-stick pan and conveying the non-stick pan to the left side from the right side of the device shell (1); the feeding device is arranged on the right side of the device shell (1) and is used for conveying the non-stick pan to the cleaning and conveying mechanism; the spraying and cleaning mechanism is arranged on the device shell (1) and is used for spraying and cleaning the non-stick pan on the transmission mechanism; the drying mechanism is arranged on the device shell (1) and is used for drying the cleaned non-stick pan; supporting legs (602) are fixed at four top corners of the lower side surface of the supporting flat plate (601), and the supporting flat plate (601) is positioned at the left side of the device shell (1); the horizontal centering transmission mechanism is arranged on the support flat plate (601) and is used for centering transmission of the non-stick pan; the end part transmission mechanism is arranged on the right end of the support flat plate (601) and is used for transferring the cleaned non-stick pan; the angle adjusting mechanism is arranged on the support leg (602) and is used for adjusting the pitching angle of the end part transmission mechanism; the blanking mechanism is arranged at the left end of the supporting flat plate (601), the blanking conveying mechanism is arranged at the left side of the blanking mechanism, the nonstick pan transmitted to the left side is conveyed to the blanking conveying mechanism by the blanking mechanism, and the nonstick pan is conveyed to the next processing link by the blanking conveying mechanism.

2. The washing transfer system for non-stick pans according to claim 1, characterised in that: the cleaning transmission mechanism comprises a cleaning transmission motor (101), a cleaning driven chain wheel (102), two cleaning transmission chains (106), two transmission shafts (108), four transmission chain wheels (105) and a plurality of transmission seats (107);

the mounting seats (103) are respectively arranged at the same height position on the left edge and the right edge of the front side wall and the rear side wall of the device shell (1); the two transmission shafts (108) are respectively and longitudinally arranged on the two mounting seats (103) on the left side and the two mounting seats (103) on the right side in a rotating mode; four transmission chain wheels (105) are respectively arranged at the front side and the rear side of the two transmission shafts (108); the two cleaning transmission chains (106) are respectively arranged on the two transmission chain wheels (105) at the front side and the two transmission chain wheels (105) at the rear side in a transmission way; the cleaning transmission motor (101) is arranged on the device shell (1), and a cleaning driving chain wheel is arranged on the output shaft of the cleaning transmission motor (101); a washing driven sprocket (102) is mounted on one end of one of the drive shafts (108); the cleaning driving chain wheel drives the cleaning driven chain wheel (102) through the cleaning transmission chain (111); each conveying seat (107) is longitudinally fixed on the front cleaning transmission chain (106) and the rear cleaning transmission chain (106) at intervals; a plurality of U-shaped metal frames (104) are longitudinally arranged on each conveying seat (107) at intervals.

3. The washing and transferring system for non-stick pans according to claim 2, wherein: the feeding device comprises a feeding driving motor (221) and a strip-shaped groove (223); the strip-shaped groove (223) is arranged on the right side of the device shell (1) through a support rod (224), and the rear side of the strip-shaped groove (223) inclines downwards; the rear end of the strip-shaped groove (223) extends to the upper parts of the two right mounting seats (103); a discharge opening is arranged at the rear end of the lower side surface of the strip-shaped groove (223); the feeding driving motor (221) is arranged at the rear side of the strip-shaped groove (223); four barrier strips (222) are arranged on an output shaft of the feeding driving motor (221) and perpendicular to the axis, and the four barrier strips (222) are distributed in a cross shape and used for blocking the material discharging openings in turn.

4. The washing transfer system for the non-stick pan according to claim 2, wherein: the spray cleaning mechanism comprises a water tank (121), a water pump (122), a water receiving tray (128), a water return pipe (129), a main water pipe (123) and two horizontal water distribution pipes (126);

the water tank (121) is arranged on the front side of the device shell (1); the main water pipe (123) is vertically arranged on the front side surface of the device shell (1); the water pump (122) is arranged in the water tank (121), and the water outlet of the water pump (122) is butted with the lower end of the main water pipe (123); the two horizontal water diversion pipes (126) are transversely arranged on the front side surface of the device shell (1), and the two horizontal water diversion pipes (126) are communicated with the main water pipe (123); a plurality of branch water pipes (125) penetrating through the front side wall of the device shell (1) are respectively arranged on the rear side surfaces of the two horizontal water distribution pipes (126) in a communication manner, and the branch water pipes (125) on the lower side are respectively positioned between the upper side edge and the lower side edge of the cleaning and conveying chain (106); a plurality of nozzles (127) are arranged on the opposite sides of the branched water pipes (125) on the upper side and the lower side in a spaced communication manner; a water valve (124) is arranged on the main water pipe (123) below the lower horizontal water diversion pipe (126); the heater (133) is arranged on the water tank (121) and is used for heating the water in the water tank (121); a mounting plate (130) which divides the water tank (121) into a water outlet cavity and a water return cavity is transversely fixed in the water tank (121); the mounting plate (130) is provided with a mounting notch, the edge of the mounting notch is provided with a buckling groove, and a filter plate (131) is inserted in the buckling groove; the water pump (122) is positioned in the water outlet cavity; the water receiving tray (128) is arranged at the lower side in the device shell (1), and the water receiving tray (128) is communicated with the water return cavity through a water return pipe (129); a top window (132) for replacing the filter plate (131) is provided on the top of the water tank (121).

5. The washing transfer system for the non-stick pan according to claim 2, wherein: the drying mechanism comprises a heat exchanger (201), a blowing fan (202), a main air pipe (204) and two flat air boxes (203);

the heat exchanger (201) and the blowing fan (202) are both arranged at the top of the device shell (1), and the air inlet of the blowing fan (202) is communicated with the air outlet of the heat exchanger (201); the main air pipe (204) is vertically arranged in the device shell (1), and the upper end of the main air pipe (204) penetrates through the top of the device shell (1) and then is in butt joint with an air outlet of the air blowing fan (202); the two flat air boxes (203) are horizontally arranged in the device shell (1), and the two flat air boxes (203) are communicated with the main air pipe (204); the flat bellows (203) at the lower side is positioned between the upper layer and the lower layer of the cleaning transmission chain (106); a plurality of blowpipes are communicated and arranged on the opposite side surfaces of the flat air box (203); a diffusing fan blade (206) is rotatably arranged at the pipe orifice of each air blowing pipe; an air inlet (207) of the heat exchanger (201) extends into the device shell (1).

6. The washing transfer system for non-stick pans according to claim 1, characterised in that: the horizontal centering transmission mechanism comprises a horizontal transmission motor (603), a transmission driving chain wheel (604), a transmission driven chain wheel (605), a plurality of supporting rollers (606), a centering driving screw rod (701), a centering adjusting plate (702), two shift levers (711), two shift lever driving shafts (709) and two cranks (708);

a through groove (610) is transversely arranged on the upper side surface of the support flat plate (601); each support roller (606) is rotatably and longitudinally arranged on the through groove (610); the horizontal transmission motor (603) is arranged on the support flat plate (601); a transmission driving chain wheel (604) is arranged on an output shaft of the horizontal transmission motor (603); a transmission driven sprocket (605) is coaxially mounted on the shaft end of one of the support rollers (606); the transmission driving chain wheel (604) and the transmission driven chain wheel (605) are connected and driven through a horizontal transmission chain; each supporting roller (606) is synchronously driven in the same direction through chain transmission; the central driving screw rod (701) is rotatably and transversely arranged on the lower side surface of the support flat plate (601); a rotating handle (705) is arranged at one end of the central driving screw rod (701); the centering adjusting plate (702) is transversely and slidably arranged on the lower side surface of the support flat plate (601); a drive adjusting seat (704) is arranged on the centering adjusting plate (702), and a centering drive screw rod (701) is screwed on the drive adjusting seat (704); a centering adjusting groove (707) is longitudinally arranged on the lower side surface of the centering adjusting plate (702); two driving rod driving shafts (709) are respectively and vertically installed on the front side surface and the rear side surface of the supporting flat plate (601) in a rotating mode through rotating seats (710); one ends of the two deflector rods (711) are respectively fixed on the upper ends of the two deflector rod driving shafts (709), and the other ends of the two deflector rod driving shafts extend to the upper part of the supporting flat plate (601); one end of each of the two cranks (708) is provided with an adjusting cylinder (706) which is arranged on the central adjusting groove (707) in a sliding way, and the other ends of the two cranks (708) are respectively fixed on the lower ends of two deflector rod driving shafts (709).

7. The cleaning transfer system for non-stick pans according to claim 6, wherein: the end transmission mechanism comprises a hinge shaft (904), a strip support plate (909), two connecting plates (903), two end transmission chain wheels (901) and a plurality of transmission branches; the transmission branch comprises an end transmission bar (911), a synchronous chain (906), a synchronous chain wheel (905) and a front-end chain wheel (907);

one ends of the two connecting plates (903) are respectively arranged on the right ends of the front side surface and the rear side surface of the supporting flat plate (601); both ends of the hinge shaft (904) are respectively and rotatably mounted on the two connecting plates (903), and one of the end transmission chain wheels (901) is mounted on one of the shaft ends of the hinge shaft (904); the other end transmission chain wheel (901) is arranged on the shaft end of one support roller (606); the two end part transmission chain wheels (901) are connected and driven through an end part transmission chain (902); two hinge strips (910) are rotatably mounted on a hinge shaft (904) between the two connecting plates (903); the front end and the rear end of the long supporting plate (909) are respectively fixed on the two hinge strips (910); the angle adjusting mechanism is supported on the lower side surface of the long supporting plate (909); the synchronous chain wheels (905) of each transmission branch are arranged on the hinge shaft (904) at intervals; a long supporting plate (909) is used for fixing the left end of each end transmission strip (911) in a penetrating way; a guide groove (908) is transversely arranged on each of the upper side surface and the lower side surface of the end part transmission bar (911); a front end chain wheel (907) is arranged on the right end of the end transmission bar (911); the front end chain wheel (907) and the corresponding synchronous chain wheel (905) are in connected transmission through a synchronous chain (906), and the synchronous chain (906) is matched with the two guide grooves (908).

8. The washing transfer system for non-stick pans according to claim 7, wherein: the angle adjusting mechanism comprises an angle adjusting seat (801), an angle adjusting screw rod (805), an angle adjusting sleeve (802), an adjusting nut (804) and a U-shaped adjusting plate (803); the angle adjusting seat (801) is fixed on the two supporting legs (602) on the right side; the lower end of the angle adjusting sleeve (802) is hinged on the angle adjusting plate (801); the parallel plate at the lower side of the U-shaped adjusting plate (803) is fixed on the upper end of the angle adjusting sleeve (802); the upper end of the angle adjusting screw rod (805) is hinged on the lower side surface of the long supporting plate (909), and the lower end of the angle adjusting screw rod penetrates through the two parallel plates of the U-shaped adjusting plate (803) and then extends into the angle adjusting sleeve (802); the adjusting nut (804) is screwed on the angle adjusting screw rod (805), and the two parallel plates of the U-shaped adjusting plate (803) clamp the adjusting nut (804).

9. The cleaning transfer system for non-stick pans according to claim 6, wherein: the blanking mechanism comprises a blanking auxiliary structure, a blanking driving motor (401), a blanking supporting frame (405), a blanking driving worm (403), two blanking driving worm gears (404), two transfer rods (406), two worm gear mounting shafts (411) and four synchronous swing rods (402); the blanking auxiliary structure comprises a baffle rod (410), two tension springs (409) and two linkage rods (407);

the blanking support frame (405) is fixed on the two support legs (602) on the left side; the two worm wheel mounting shafts (411) are longitudinally mounted on the blanking support frame (405); two blanking driving worm gears (404) are respectively arranged on the two worm gear mounting shafts (411); the blanking driving worm (403) is transversely installed on the blanking supporting frame (405) in a rotating mode, and the blanking driving worm (403) is meshed with the two blanking driving worm wheels (404) simultaneously; the blanking driving motor (401) is used for driving the blanking driving worm (403) to rotate; the lower ends of the four synchronous swing rods (402) are respectively fixed on the front end and the rear end of the two worm wheel mounting shafts (411); the two transfer rods (406) are respectively connected and fixed on the upper ends of the two synchronous swing rods (402) on the front side and the upper ends of the two synchronous swing rods (402) on the rear side; two blanking lifting rods (412) which are used for extending into a gap between adjacent supporting rollers (606) are longitudinally arranged on opposite side surfaces of the two transfer rods (406); the front end and the rear end of the blocking rod (410) extend downwards to form a vertical rod; the two vertical rods are vertically and slidably arranged on the front side surface and the rear side surface of the supporting flat plate (601) through two sliding installation seats (414); the right ends of the two linkage rods (407) are respectively fixed on the two vertical rods, and the left ends of the two linkage rods (407) are respectively provided with a linkage roller (408); when the synchronous swing rod (402) swings rightwards, the linkage roller (408) is pressed, so that the stop lever (410) descends and extends into a gap between adjacent supporting rollers (606); the two tension springs (409) are respectively sleeved on the two vertical rods, the upper ends and the lower ends of the tension springs (409) are respectively fixed on the linkage rod (407) and the mounting seat (414) on the upper side, and the tension springs are used for driving the gear rods (410) to extend out of a gap between the adjacent supporting rollers (606) to block the next non-stick pan when the synchronous swing rod (402) swings left and leaves the linkage roller (408); a baffle (413) for blocking the non-stick pan is arranged on the upper edge of the left side of the support flat plate (601).

10. The cleaning transfer system for non-stick pans according to claim 9, wherein: the blanking conveying mechanism comprises a conveying guide rail (301), a blanking conveying motor (302), a conveying driving chain wheel (303), a conveying driving chain (314) and each take-off branch; the access branches comprise a transmission seat (307), a height adjusting internal threaded pipe (308), a height adjusting screw rod (310), a cantilever plate (311) and a cross-shaped tray (312);

the transport guide rail (301) is longitudinally arranged on the left side of the support flat plate (601); a conveying groove (304) is longitudinally arranged on the upper side surface of the conveying guide rail (301); a roller groove (305) is longitudinally arranged on the left and right groove walls of the transmission groove (304); the left side and the right side of the transmission seat (307) are respectively provided with a transmission roller (306) which runs on the corresponding roller groove (305); the conveying driving chain (314) is rotatably and longitudinally arranged in the conveying groove (304), and each conveying seat (307) is arranged on the conveying driving chain (314) at intervals; the blanking conveying motor (302) is arranged on the conveying guide rail (301), and the end part of an output shaft of the blanking conveying motor (302) extends into the conveying groove (304); the conveying driving chain wheel (303) is arranged at the extending end of the blanking conveying motor (302), and the conveying driving chain wheel (303) is in matched transmission with the conveying driving chain (314); the lower end of the height-adjusting internal thread pipe (308) is fixed on the upper side surface of the transmission seat (307); the lower end of the height adjusting screw rod (310) is screwed on the height adjusting internal threaded pipe (308), and a locknut (309) for friction locking is screwed on the height adjusting screw rod (310); the left end of the cantilever plate (311) is fixed on the upper end of the height adjusting screw rod (310); the cross-shaped tray (312) is fixed on the right end of the upper side face of the cantilever plate (311), and the front branch rod and the rear branch rod of the cross-shaped tray (312) are respectively used for penetrating between the two blanking cantilever rods (412) at the front side and the two blanking cantilever rods (412) at the rear side.

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