阅读说明：本技术 流水线式碗体清洗机 (Assembly line type bowl cleaning machine ) 是由 王靖儒 谢平 于 2021-10-19 设计创作，主要内容包括：本发明提供了一种流水线式碗体清洗机,包括将碗体持续输送的、由三条输送机构成的输送线,输送线的前部设置有清洗碗体的清洗组件,后部设置有对碗体烘干的烘干组件,通过隔板分隔,清洗组件包括设置在输送线两侧的第一清洗结构、设置在输送线下方的第二清洗结构,以及设置在输送线上方的第三清洗结构,通过输送线将碗体连续往复输送,在转移到相邻的输送线时碗体与输送线接触面发生相对移动并换向,利用输送线两侧的导向装置完成换向,使碗体在持续输送过程中无需停机,经多次换向运动而得到360度无死角的充分清洗和烘干,适用于工业流水线式生产,提升了碗体的清洗效率及质量。(The invention provides a production line type bowl body cleaning machine, which comprises a conveying line consisting of three conveyors and used for continuously conveying bowl bodies, wherein a cleaning assembly used for cleaning the bowl bodies is arranged at the front part of the conveying line, a drying assembly used for drying the bowl bodies is arranged at the rear part of the conveying line, separated by a clapboard, the cleaning component comprises a first cleaning structure arranged at two sides of the conveying line and a second cleaning structure arranged below the conveying line, and a third cleaning structure arranged above the conveying line, the bowl bodies are continuously conveyed to and fro through the conveying line, when the bowl body is transferred to an adjacent conveying line, the contact surface of the bowl body and the conveying line relatively moves and reverses, and the reversing is completed by utilizing the guide devices on two sides of the conveying line, so that the bowl body is not required to be stopped in the continuous conveying process, 360-degree full cleaning and drying without dead angles are obtained through multiple reversing motions, the bowl body cleaning device is suitable for industrial production line type production, and the cleaning efficiency and quality of the bowl body are improved.)

1. The utility model provides a pipelined bowl body cleaning machine, its characterized in that includes transfer chain (10) with bowl body (20) continuous transport, the front portion of transfer chain (10) is provided with washing subassembly (30) of wasing bowl body (20), the rear portion of transfer chain (10) is provided with stoving subassembly (40) of drying to bowl body, the front portion and the rear portion of transfer chain (10) are passed through baffle (60) and are separated, wash subassembly (30) including setting up the first washing structure of transfer chain (10) both sides, set up in the second washing structure of transfer chain (10) below, and set up the third washing structure of transfer chain (10) top, the side of bowl body (20) is washd to first washing structure, the bottom surface of bowl body (20) is washd to the second washing structure, the top surface of bowl body (20) is washd to the third washing structure, transfer chain (10) adopt the structure that can see through gas and liquid, the conveying line (10) enables the bowl body (20) to continuously change angles in the continuous conveying process through multi-section arrangement.

2. The pipelined bowl body cleaning machine according to claim 1, wherein the conveyor line (10) comprises a first conveyor line (11), a second conveyor line (12) and a third conveyor line (13) which are arranged in parallel in sequence, the first end of the first conveyor line (11) is a feeding port (14), the second end of the first conveyor line is a discharging port (15), the second conveyor line (12) and the first conveyor line (11) are opposite in moving direction, the third conveyor line (13) and the first conveyor line (11) are the same in moving direction, an X-shaped guide plate (16) is arranged in the middle of the first conveyor line (11) and the second conveyor line (12), the X-shaped guide plate (16) enables bowls (20) conveyed from the first end to the middle of the first conveyor line (11) to enter the middle of the second conveyor line (12), and enables bowls (20) conveyed from the second end to the middle of the second conveyor line (12) to enter the first conveyor line (11) at the same time ) The middle part of, second transfer chain (12) with the first end of third transfer chain (13) is provided with first V type deflector (17), first V type deflector (17) make carry extremely the bowl body (20) of the first end of second transfer chain (12) get into the first end of third transfer chain (13), third transfer chain (13) with be provided with second V type deflector (18) between the second end of second transfer chain (12), second V type deflector (18) make carry extremely the bowl body (20) of third transfer chain (13) second end get into the second end of second transfer chain (12).

3. The pipelined bowl cleaning machine according to claim 2, characterized in that a bowl pressing assembly is further arranged above the first conveyor line (11), the second conveyor line (12) and the third conveyor line (13), the bowl pressing assembly comprises a bowl pressing plate (19) arranged parallel to the conveying direction, two ends of the bowl pressing plate (19) are connected with the cross beam (110) through adjusting screws (111), and locking nuts (112) are sleeved on the adjusting screws (111).

4. The pipelined bowl cleaning machine according to claim 3, wherein the first cleaning structure is a guide profile (31), the guide profile (31) is located on both sides of the front part of the conveyor line (10), and a plurality of water spray holes (32) are formed on the inner side of the guide profile (31); the second cleaning structure is a water spraying straight pipe (33), the water spraying straight pipe (33) is located below the front part of the conveying line (10), and the upper surface of the water spraying straight pipe (33) is connected with a plurality of first spray heads (34); the third cleaning structure comprises a plurality of external thread water spraying pipes (35), the external thread water spraying pipes (35) are positioned above the front part of the conveying line (10), the bottom ends of the external thread water spraying pipes (35) are connected with second spray heads (36), and the shapes of the external thread water spraying pipes (35) can be adjusted; the guide profile (31), the water spray straight pipe (33) and the external thread water spray pipe (35) are all communicated with a main distribution water pipe (37), the main distribution water pipe (37) is simultaneously communicated with a water pump (38), and the first spray head (34) and the second spray head (36) are flat nozzle spray heads.

5. The pipelined bowl cleaning machine according to claim 4, characterized in that the drying assembly (40) comprises a first drying structure located at both sides of the rear portion of the conveyor line (10), a second drying structure located below the rear portion of the conveyor line (10), and a third drying structure located above the rear portion of the conveyor line (10), the first drying structure drying the side surface of the bowl (20), the second drying structure drying the bottom surface of the bowl (20), and the third drying structure drying the top surface of the bowl (20).

6. The pipelined bowl cleaning machine according to claim 5, wherein the first drying structure comprises a side air pipe, a first air knife (42) is connected to the side air pipe, the second drying structure comprises a bottom air pipe (43), a second air knife (44) is connected to the bottom air pipe (43), the third drying structure comprises a wind guide pipe (45), a third air knife (46) is connected to the wind guide pipe (45), the side air pipe, the bottom air pipe (43) and the wind guide pipe (45) are all communicated with a main air pipe (47), and the main air pipe (47) is simultaneously communicated with a fan (48).

7. The pipelined bowl cleaning machine according to claim 6, wherein the first air knife (42) comprises an air knife mounting seat (49) fixed with the side air pipe, a first end of the first air knife (42) is hinged to the air knife mounting seat (49), an adjusting bolt (410) for locking the first air knife (42) is connected to the air knife mounting seat (49) in a threaded mode, an air inlet (411) of the first air knife (42) is communicated with the side air pipe through a hose (412), and the second air knife (44) and the third air knife (46) are identical to the mounting structure of the first air knife (42).

8. The pipelined bowl cleaning machine according to claim 4, further comprising a water storage circulation assembly (50), wherein the water storage circulation assembly (50) comprises a water receiving tank (51) arranged below the front portion of the conveyor line (10), a collection port (52) is formed at the bottom end of the water receiving tank (51), a water storage tank (53) is arranged below the collection port (52), a sewage discharge tank (54) is connected to the upper portion of the water storage tank (53), the sewage discharge tank (54) is communicated with the water receiving tank (51) through a filter port (55), the filter port (55) is provided with a filter screen, the water storage tank (53) is communicated with the water pump (38), a water filling port (56) and a water discharge port (57) are formed on the side wall of the water storage tank (53), the water filling port (56) is communicated with a water level compensation device, and the water discharge port (57) is used for discharging water in the water storage tank (53), a liquid level detection device (58) is further arranged in the water storage tank (53), the liquid level detection device (58) controls the opening and closing of the water injection port (56), and a sewage discharge port (512) is further formed in the side wall of the sewage discharge groove (54).

9. The pipelined bowl cleaning machine according to claim 8, wherein the liquid level detection device (58) comprises a sensor bracket (59) connected to an inner side wall of the water storage tank (53), an upper liquid level sensor (510) and a lower liquid level sensor (511) are connected to the sensor bracket (59), and the feedback signal controls the water filling port (56) to open water when the liquid level is lower than the lower liquid level sensor (511) and controls the water filling port (56) to close when the liquid level is higher than the upper liquid level sensor (510).

10. The pipelined bowl cleaning machine according to claim 1, wherein the conveyor belt of the conveyor line (10) is of a mesh-belt structure;

the transfer chain (10) still are provided with scrub the mechanism and spray the mechanism, scrub the mechanism including setting up brush (113) and with brush (113) both ends are connected of transfer chain (10) top and below and scrub the removal frame, scrub the removal frame drive brush (113) are followed the both ends round trip movement of transfer chain (10) is right transfer chain (10) are scrubbed, spray the mechanism including setting up shower (114) of transfer chain (10) top and with spray the removal frame that sprays that shower (114) both ends are connected, it drives to spray the removal frame shower (114) are followed the both ends round trip movement of transfer chain (10), it is right transfer chain (10) spray and wash.

Technical Field

The invention relates to the technical field of cleaning equipment, in particular to an industrial automatic assembly line type bowl body cleaning machine.

Background

In an industrial bowl packaging product production line, bowl packaging products need to be cleaned after being manufactured or stored for a certain time, and oil and stains on the surfaces of bowls are removed, so that subsequent storage and sale are facilitated. At present, the production line of the product is finished by manually scrubbing the product by using the rag, the efficiency is low, the quality is difficult to ensure, a large amount of manpower is required to be consumed, and the requirement of industrial production cannot be met.

It should be noted that the above background description is only for the convenience of clear and complete description of the technical solutions of the present application and for the understanding of those skilled in the art. Such solutions are not considered to be known to the person skilled in the art merely because they have been set forth in the background section of the present application.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a production line type bowl cleaning machine suitable for industrial production, so that bowl packaged products are cleaned and dried in the continuous conveying process, and the cleaning efficiency and quality are improved.

In order to achieve the above object, the present invention provides a production line type bowl cleaning machine, comprising a conveying line for continuously conveying bowl bodies, the front part of the conveying line is provided with a cleaning component for cleaning the bowl body, the rear part of the conveying line is provided with a drying component for drying the bowl body, the front part and the rear part of the conveying line are separated by a clapboard, the cleaning assembly comprises first cleaning structures arranged at two sides of the conveying line and second cleaning structures arranged below the conveying line, and a third cleaning structure arranged above the conveying line, wherein the first cleaning structure cleans the side surface of the bowl body, the second cleaning structure cleans the bottom surface of the bowl body, the third cleaning structure cleans the top surface of the bowl body, the transfer chain adopts the structure that can see through gas and liquid, the transfer chain sets up through the multistage and makes the bowl body constantly change the angle at continuous transportation process.

Further, the conveying line comprises a first conveying line, a second conveying line and a third conveying line which are arranged in parallel in sequence, the first end of the first conveying line is a feeding port, the second end of the first conveying line is a discharging port, the second conveying line and the first conveying line are opposite in moving direction, the third conveying line and the first conveying line are same in moving direction, an X-shaped guide plate is arranged in the middle of the first conveying line and the second conveying line, the X-shaped guide plate enables the bowl bodies conveyed from the first end to the middle of the first conveying line to enter the middle of the second conveying line, meanwhile, the bowl bodies conveyed from the second end to the middle of the second conveying line enter the middle of the first conveying line, a first V-shaped guide plate is arranged at the first end of the second conveying line and the first end of the third conveying line, and enables the bowl bodies conveyed to the first end of the second conveying line to enter the first end of the third conveying line, and a second V-shaped guide plate is arranged between the third conveying line and the second end of the second conveying line, and the second V-shaped guide plate enables the bowl bodies conveyed to the second end of the third conveying line to enter the second end of the second conveying line.

Further, the bowl pressing assemblies are further arranged above the first conveying line, the second conveying line and the third conveying line and comprise bowl pressing plates arranged in parallel with the conveying direction, two ends of each bowl pressing plate are connected with the cross beam through adjusting screws, and locking nuts are sleeved on the adjusting screws.

Further, the first cleaning structure is a guide profile connected with the conveying line, the guide profile is positioned on two sides of the front part of the first conveying line, the second conveying line and the third conveying line, and a plurality of water spraying holes are formed in the inner side of the guide profile; the second cleaning structure is a water spraying straight pipe, the water spraying straight pipe is positioned below the front parts of the first conveying line, the second conveying line and the third conveying line, and the upper surface of the water spraying straight pipe is connected with a plurality of first spray heads; the third cleaning structure comprises a plurality of external thread water spraying pipes, the external thread water spraying pipes are positioned above the front parts of the first conveying line, the second conveying line and the third conveying line, the bottom ends of the external thread water spraying pipes are connected with a second spray head, and the shapes of the external thread water spraying pipes can be adjusted; the guide profile, the water spray straight pipe and the external thread water spray pipe are all communicated with a main distribution water pipe, the main distribution water pipe is communicated with a water pump, and the first spray head and the second spray head are flat nozzle spray heads.

Further, the stoving subassembly is including being located first transfer chain the second transfer chain and the first stoving structure of third transfer chain rear portion both sides is located first transfer chain the second transfer chain and the second stoving structure of third transfer chain rear portion below, and be located first transfer chain the second transfer chain and the third stoving structure of third transfer chain rear portion top, first stoving structure is dried to the side of the bowl body, second stoving structure is dried to the bottom surface of the bowl body, third stoving structure is dried to the top surface of the bowl body.

Further, the first drying structure comprises a side air pipe, a first air knife is connected to the side air pipe, the second drying structure comprises a bottom air pipe, the bottom air pipe is connected with a second air knife, the third drying structure comprises an air guide pipe, a third air knife is connected to the air guide pipe, the side air pipe, the bottom air pipe and the air guide pipe are all communicated with a main air pipe, and the main air pipe is communicated with a fan.

Further, first air knife include with the fixed air knife mount pad of side tuber pipe, the first end of first air knife with the air knife mount pad is articulated, threaded connection has on the air knife mount pad is right the adjusting bolt of first air knife locking, the air intake of first air knife pass through the hose with the side tuber pipe intercommunication, second air knife and third air knife all with the mounting structure of first air knife is the same.

Further, still include the water storage circulation subassembly, the water storage circulation subassembly is including setting up first transfer chain the second transfer chain and the water receiving tank of the anterior below of third transfer chain, the bottom of water receiving tank is formed with collects the mouth, the below of collecting the mouth is provided with the tank, the upper portion of tank is connected with the blowdown groove, the blowdown groove with the water receiving tank passes through the filter junction intercommunication, the filter junction is provided with the filter screen, the tank with the water pump intercommunication, the lateral wall of tank is formed with water filling port and outlet, water filling port and water level compensation device intercommunication, the outlet is used for the water of evacuation tank, still be provided with liquid level detection device in the tank, liquid level detection device control the switching of water filling port, the lateral wall of blowdown groove still is formed with the drain.

Further, the liquid level detection device is including connecting the sensor support of tank inside wall, be connected with level sensor and lower level sensor on the sensor support, be less than when the liquid level feedback signal control during level sensor down the moisturizing is opened to the water filling port, is higher than when the liquid level feedback signal control during last level sensor the water filling port is closed.

Further, the conveying belt of the conveying line is of a mesh belt structure. The transfer chain still is provided with scrubs the mechanism and sprays the mechanism, scrub the mechanism including setting up the brush of transfer chain top and below and with the scrubbing removal frame that the brush both ends are connected, scrub and remove the frame drive the brush is followed the both ends round trip movement of transfer chain is right the transfer chain is scrubbed, spray the mechanism including setting up the shower of transfer chain top and with the shower both ends are connected spray and remove the frame, spray and remove the frame drive the shower is followed the both ends round trip movement of transfer chain is right the transfer chain sprays and washes.

The scheme of the invention has the following beneficial effects:

according to the production line type bowl body cleaning machine, bowl bodies are continuously conveyed through the conveying line, and the bowl bodies are sequentially cleaned and dried by the cleaning assemblies and the drying assemblies arranged on the two sides, the lower part and the upper part of the conveying line, so that the bowl bodies are fully processed without stopping in the continuous conveying process, the structural arrangement is reasonable, the connection and the matching are compact, the control is realized in a full-automatic mode, the production line type bowl body cleaning machine is suitable for industrial production line type production, and the cleaning efficiency and the quality of the bowl bodies, particularly bowl packaging products are improved;

according to the invention, the bowl body is transferred among the three conveying lines under the action of the guide plate in the conveying process, and continuously passes through the cleaning area and the drying area for three times respectively, and the bowl body continuously rotates in the direction and relatively moves and rotates with the equipment structure when being transferred among the sections of the conveying lines, and is subjected to high-pressure spraying in the direction of 360 degrees by using high-pressure water and high-pressure air, so that multiple times of cleaning and drying are completed, the surface positions of the bowl body are more fully cleaned and dried while the arrangement space of the conveying lines is fully utilized, and the cleaning and drying effects are further improved;

according to the invention, the cleaning sewage is collected and filtered in the water storage tank through the water storage circulation assembly arranged below the conveying line, and is conveyed back to the cleaning assembly through the water pump for reuse, so that water resources are effectively saved, and the emission and cleaning cost is reduced;

other advantages of the present invention will be described in detail in the detailed description that follows.

Drawings

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

FIG. 2 is a schematic illustration of the conveyor line configuration of the present invention;

FIG. 3 is a schematic view of a mounting structure of the bowl pressing plate according to the present invention;

FIG. 4 is a schematic view of the cleaning assembly of the present invention;

FIG. 5 is another schematic view of the cleaning assembly of the present invention;

FIG. 6 is a schematic structural diagram of a drying assembly according to the present invention;

FIG. 7 is a schematic view of the air knife mounting structure of the present invention;

FIG. 8 is a schematic view of a water storage circulation assembly according to the present invention;

FIG. 9 is a schematic structural view of the liquid level detection apparatus of the present invention.

[ description of reference ]

10-a conveying line; 11-a first conveyor line; 12-a second conveyor line; 13-a third conveyor line; 14-a feeding port; 15-a discharge hole; a 16-X type guide plate; 17-a first V-shaped guide plate; 18-a second V-shaped guide plate; 19-pressing a bowl plate; 110-a beam; 111-adjusting screws; 112-a locking nut; 113-a brush; 114-a shower; 20-a bowl body; 30-cleaning the assembly; 31-a guide profile; 32-water spray holes; 33-water spraying straight pipe; 34-a first spray head; 35-external thread water spraying pipe; 36-a second spray head; 37-main distribution water pipe; 38-a water pump; 40-a drying component; 42-a first air knife; 43-bottom air pipe; 44-a second air knife; 45-air guide pipe; 46-a third air knife; 47-main air pipe; 48-a fan; 49-air knife mounting seat; 410-adjusting bolts; 411-an air inlet; 412-a hose; 50-a water storage circulation component; 51-a water receiving tank; 52-a collection port; 53-a water storage tank; 54-a sewage draining tank; 55-a filter port; 56-water injection port; 57-water outlet; 58-liquid level detection device; 59-a sensor holder; 510-an upper level sensor; 511-lower level sensor; 512-a sewage draining outlet; 60-partition plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. The various features and embodiments described in the embodiments may be combined in any suitable manner, for example, different embodiments may be formed by combining different features/embodiments, and in order to avoid unnecessary repetition, various possible combinations of features/embodiments in the present invention will not be described in detail.

It should be noted that the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, directly disposed, installed, connected, or indirectly disposed and connected through intervening components and intervening structures. In addition, the directions or positional relationships indicated by "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like in the present invention are based on the directions or positional relationships shown in the drawings or the conventional placing states or using states, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the structures, features, devices or elements referred to must have a specific direction, be configured and operated in a specific direction, and thus, cannot be construed as limiting the present invention.

As shown in fig. 1, an embodiment of the present invention provides a pipelined bowl cleaning machine, which includes a conveyor line 10 for continuously conveying bowl bodies, wherein the conveyor line 10 has a mesh belt structure, so that a cleaning jet and a drying airflow can pass through the conveyor line to clean and dry the lower surface of the bowl body 20. The front portion of transfer chain 10 is provided with the washing subassembly 30 that washs the bowl body 20, and the rear portion of transfer chain 10 is provided with the stoving subassembly 40 of drying to the bowl body 20, and the front portion and the rear portion of transfer chain 10 pass through baffle 60 and separate, and when the bowl body 20 removed along transfer chain 10, accomplish earlier through washing subassembly 30 and wash, rethread stoving subassembly 40 accomplishes the stoving. Wherein, wash subassembly 30 including set up at the first structure of wasing of transfer chain 10 both sides, set up the second washing structure in transfer chain 10 below to and set up the third structure of wasing in transfer chain 10 top, the side of the bowl body 20 is washd to first washing structure, and the bottom surface of the bowl body 20 is washd to the second washing structure, and the upper surface of the bowl body 20 is washd to the third structure of wasing, makes each surface of the bowl body 20 all obtain fully washing.

Meanwhile, as shown in fig. 2, in order to further improve the cleaning and drying effect, the conveyor line 10 in this embodiment includes a first conveyor line 11, a second conveyor line 12 and a third conveyor line 13 which are sequentially arranged in parallel, wherein a first end of the first conveyor line 11 is a feeding port 14, a second end of the first conveyor line is a discharging port 15, the second conveyor line 12 is opposite to the first conveyor line 13, and the third conveyor line 13 is in the same direction as the first conveyor line 11. The middle part of first transfer chain 11 and second transfer chain 12 is provided with X type deflector 16, X type deflector 16 makes first transfer chain 11 carry the middle part that the bowl body 20 in middle part got into second transfer chain 12 from first end, make the bowl body 20 that second transfer chain 12 carried to the middle part from the second end get into the middle part of first transfer chain 11 simultaneously, the first end of second transfer chain 12 and third transfer chain 13 is provided with first V type deflector 17, first V type deflector 17 makes the bowl body 20 of carrying to the first end of second transfer chain 12 get into the first end of third transfer chain 13, be provided with second V type deflector 18 between the second end of third transfer chain 13 and second transfer chain 12, second V type deflector 18 makes the bowl body 20 of carrying to the second end of third transfer chain 13 get into the second end of second transfer chain 12. Through the arrangement of the X-shaped guide plate 16, the first V-shaped guide plate 17 and the second V-shaped guide plate 18, when the bowl body 20 moves to the corresponding position, the bowl body moves along the guide plates under the action of lateral force, and after passing through the center of the guide plates, the bowl body continues to move to the adjacent conveying lines 10 under the action of inertia, so that the bowl body moves reversely along with the adjacent conveying lines 10. Seamless lap joints are adopted between the conveying lines 10, and the distance is as minimum as possible, so that the bowl body 20 is prevented from being stopped between the conveying lines 10 due to the fact that the bottom surface is free of stress.

Adopt above-mentioned transfer chain 10 structure, the effect that relies on the deflector in the bowl body 20 transportation process shifts between three transfer chains, the cubic passes washing region and stoving region in succession respectively, and the bowl body 20 when shifting between each section transfer chain, constantly direction of rotation, the angle, and take place relative movement and rotation with the transfer chain structure, utilize high-pressure water and high-pressure gas 360 degrees ground to carry out high-pressure shower to the bowl body 20, thereby accomplished many times and washd the stoving, make bowl body 20 each surface position obtain more abundant washing stoving when make full use of transfer chain 10 arrangement space, further promoted washing stoving effect.

Meanwhile, as shown in fig. 3, since the bowl bodies 20 may collide with each other during the transportation process, or the bowl edges may be raised and placed on another bowl body 20 when reaching the corresponding guide plate, which may cause transportation disadvantages, the bowl pressing assemblies are further disposed above the first, second and third transportation lines 11, 12 and 13. The bowl pressing assembly comprises a bowl pressing plate 19 arranged parallel to the conveying direction to limit the conveying height and prevent the bowl body 20 from tilting. The two ends of the bowl pressing plate 19 are connected with the cross beam 110 through adjusting screws 111, locking nuts 112 are sleeved on the adjusting screws 111, the two ends of the bowl pressing plate 19 are locked with the corresponding cross beams 110 through the locking nuts 112, and the bowl pressing plate 19 is located at a preset height position.

Meanwhile, as shown in fig. 4 and 5, the first cleaning structure of the cleaning assembly 30 is a guide profile 31, the guide profile 31 is located on two sides of the front portions of the first conveyor line 11, the second conveyor line 12 and the third conveyor line 13, the cross section of the guide profile 31 is rectangular, a plurality of water spray holes 32 are formed in the inner side wall, the aperture of each water spray hole 32 is preferably 3mm, and because the number of the water spray holes 32 is large and the positions are different, all positions of the bowl body 20 can be fully washed. The second cleaning structure is a water spraying straight pipe 33, the water spraying straight pipe 33 is located below the front portions of the first conveying line 11, the second conveying line 12 and the third conveying line 13, the upper surface of the water spraying straight pipe 33 is connected with a plurality of first spray heads 34, and water sprayed through the first spray heads 34 fully washes the lower surface of the conveyed bowl body 20. The third cleaning structure includes a plurality of external screw thread spray pipes 35, external screw thread spray pipe 35 is located first transfer chain 11, the anterior top of second transfer chain 12 and third transfer chain 13, the bottom of external screw thread spray pipe 35 is connected with second shower nozzle 36, wherein, external screw thread spray pipe 35 is the bamboo joint form, can adjust the direction of second shower nozzle 36 in a flexible way, according to actual conditions to a plurality of external screw thread spray pipes 35 the shape, the direction of second shower nozzle 36 is adjusted promptly, ensure to wash bowl body 20 upper portion comprehensively. Preferably, the first nozzle 34 and the second nozzle 36 are flat nozzle nozzles, so that the sprayed washing water is in a flat fan shape, thereby providing a better washing effect for the bowl body 20.

In this embodiment, the guide profile 31, the straight water spray pipe 33 and the externally threaded water spray pipe 35 are all communicated with a main distribution pipe 37, the main distribution pipe 37 is simultaneously communicated with a water pump 38, and the cleaning water is delivered and sprayed to each cleaning structure by the water pump 38 according to a certain pressure.

Meanwhile, as shown in fig. 6, the drying assembly 40 includes a first drying structure located at two sides of the rear portion of the first conveyor line 11, the second conveyor line 12 and the third conveyor line 13, a second drying structure located below the rear portion of the first conveyor line 11, the second conveyor line 12 and the third conveyor line 13, and a third drying structure located above the rear portion of the first conveyor line 11, the second conveyor line 12 and the third conveyor line 13, wherein the first drying structure dries the side surface of the bowl body 20, the second drying structure dries the bottom surface of the bowl body 20, and the third drying structure dries the upper surface of the bowl body 20, so that all the surfaces of the bowl body 20 which are stained with water are dried fully, and a certain secondary cleaning effect is achieved.

Specifically, first stoving structure includes the side tuber pipe, is connected with first air sword 42 on the side tuber pipe, and second stoving structure includes end tuber pipe 43, and end tuber pipe 43 is connected with second air sword 44, and third stoving structure includes guide duct 45, is connected with third air sword 46 on the guide duct 45. The side air duct, the bottom air duct 43 and the air guide duct 45 are all communicated with a main air duct 47, the main air duct 47 is simultaneously communicated with a fan 48, and under the action of the fan 48, the first air knife 42, the second air knife 44 and the third air knife 46 dry each surface of the bowl body 20.

Meanwhile, as shown in fig. 7, for flexibly controlling and adjusting the air outlet angle to ensure the drying effect, in this embodiment, the first air knife 42 includes an air knife mounting seat 49 fixed to the side air pipe, the first end of the first air knife 42 is hinged to the air knife mounting seat 49, and meanwhile, the air knife mounting seat 49 is screwed with an adjusting bolt 410 for locking the first air knife 42, and when the adjusting bolt 410 is locked, the side wall of the first air knife 42 is tightly pressed by a screw force to make the first air knife 42 unable to rotate. When the angle of the first air knife 42 needs to be adjusted, the adjusting bolt 410 is loosened, and the first air knife 42 is rotated by a certain angle and then the adjusting bolt 410 is tightened again. The air inlet 411 of the first air knife 42 is communicated with the side air pipe through the hose 412, so that the air flow is not influenced when the angle of the first air knife 42 is adjusted. The mounting structure of the second air knife 44 and the third air knife 46 is the same as the first air knife 42, and the description thereof is omitted.

Meanwhile, as shown in fig. 8, since the bowl body 20 has a large washing amount and the washing unit 30 is kept open during the continuous transportation of the bowl body 20, the amount of water used is relatively large. In order to save water resources and reduce emission, the cleaning machine in the embodiment is further provided with a water storage circulation assembly 50, so that the cleaning sewage can be recycled for multiple times. Specifically, the water storage circulation unit 50 includes a water receiving tank 51 disposed under the front portion of the first transfer line 11, the second transfer line 12, and the third transfer line 13, and the wash sewage flows downward through the transfer line 10 and falls into the water receiving tank 51. A collecting port 52 is formed at the bottom end of the water receiving tank 51, a water storage tank 53 is arranged below the collecting port 52, a sewage discharge tank 54 is connected to the upper part of the water storage tank 53, the sewage discharge tank 54 is communicated with the water receiving tank 51 through a filtering port 55, and a filtering net is arranged at the position of the filtering port 55. The sewage in the water receiving tank 51 is collected to the collecting port 52 and flows into the sewage draining tank 54, and then passes through the filter screen of the filter port 55 to complete the filtering and purification, and flows into the water storage tank 53 for storage. The water storage tank 53 is communicated with the water pump 38 of the cleaning assembly 30, and clean water in the water storage tank 53 is guided into the cleaning structure through the water pump 38 so as to clean the conveyed bowl body 20 again, thus forming water recycling.

Meanwhile, the lateral wall of the water storage tank 53 is formed with a water filling port 56, the water filling port 56 is communicated with a water level compensation device, a liquid level detection device 58 is further arranged in the water storage tank 53, when the liquid level detection device 58 detects that the liquid level in the water storage tank 53 is lower than a set value, the water is opened by the water filling port 56 under the control of a feedback signal, when the liquid level detection device 58 detects that the liquid level in the water storage tank 53 is higher than another set value, the water filling port 56 is closed under the control of a feedback signal, the liquid level in the water storage tank 53 is ensured to be within a preset range as much as possible, and the use requirement of the cleaning assembly 30 is met.

As shown in fig. 9, the liquid level detecting assembly 58 includes a sensor bracket 59 connected to the inner side wall of the water storage tank 53, and the sensor bracket 59 is connected to a float-type upper liquid level sensor 510 and a lower liquid level sensor 511, and the feedback signal controls the water filling port 56 to open the water when the liquid level is lower than the lower liquid level sensor 511, and controls the water filling port 56 to close when the liquid level is higher than the upper liquid level sensor 510.

In addition, a drain port 57 is formed in the side wall of the reservoir tank 53, and the drain port 57 may be opened when the water in the reservoir tank 53 needs to be drained after completion of daily work. A drain outlet 512 is formed on the side wall of the drain tank 54, and the sewage substances left after being filtered by the drain tank 54 are discharged through the drain outlet 512.

As a further improvement, in the present embodiment, the conveyor line 10 is further provided with a brushing mechanism and a spraying mechanism, the brushing mechanism includes brushes 113 disposed above and below the conveyor line 10 and a brushing moving frame connected to both ends of the brushes 113, and the brushing moving frame drives the brushes 113 to move back and forth along both ends of the conveyor line 10 to brush the conveyor line 10. The spraying mechanism comprises a spraying pipe 114 arranged above the conveying line 10 and a spraying moving frame connected with two ends of the spraying pipe 114, and the spraying moving frame drives the spraying pipe 114 to move back and forth along two ends of the conveying line 10 to spray and flush the conveying line 10. Through the arrangement of the spraying mechanism and the brushing mechanism, residual stains on the equipment conveying line 10 can be removed, the bowl body 20 is prevented from secondary pollution, and the cleaning effect of the bowl body 20 is ensured.

The process flow of the scheme provided by the embodiment is as follows:

the bowl bodies 20 are sequentially fed from the first end of the conveyor line 10, are sequentially fed along the front portion of the conveyor line 10, are continuously changed in direction and angle in the reciprocating movement process, are cleaned under the spraying effect of the cleaning assembly 30, and then enter the rear portion of the conveyor line 10 and are also conveyed in a reciprocating mode. The front and rear portions of the conveyor line 10 are separated by the partition 60, so that the cleaning liquid at the front portion does not splash onto the bowl bodies 20 being dried when the bowl bodies 20 are dried by the drying assemblies 40 at the rear portion. The cleaning liquid is collected by the water storage circulation component 50, is guided into the cleaning component 30 again by the water pump 38 after certain filtering and purifying effects, and cleans the conveyed bowl body 20, and forms water recycling. In addition, before or after the bowl body 20 is cleaned and dried, the cleaning mechanism and the spraying mechanism are started to clean and flush the conveyor line 10, so that the conveyor line 10 is kept clean.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.