CN219357150U

CN219357150U - Cleaning machine

Info

Publication number: CN219357150U
Application number: CN202320486903.XU
Authority: CN
Inventors: 丘礼扬; 韩伟华; 席晓锋; 李晓五; 刘永吉; 邢明元; 曾志良; 王照; 李世君
Original assignee: Zhuhai Handi Automation Equipment Co ltd
Current assignee: Zhuhai Handi Automation Equipment Co ltd
Priority date: 2023-03-13
Filing date: 2023-03-13
Publication date: 2023-07-18
Anticipated expiration: 2033-03-13

Abstract

The utility model provides a cleaning machine, which comprises an ultrasonic cleaning mechanism, a drying mechanism, a rotary lifting mechanism and a rotary cleaning mechanism; the ultrasonic cleaning mechanism and the drying mechanism are arranged along the up-down direction, a moving passage is formed between the ultrasonic cleaning mechanism and the drying mechanism, the rotary cleaning mechanism is arranged between the ultrasonic cleaning mechanism and the drying mechanism, and the rotary cleaning mechanism can rotate up and down to conduct the moving passage; the rotary lifting mechanism is arranged on one side of the moving path, the rotary lifting mechanism is provided with a positioning tool, the positioning tool stretches into the moving path and can move along the extending direction of the moving path, the positioning tool can be turned up and down, and the rotary cleaning mechanism can rotate around the positioning tool. The utility model has the advantages of multiple stations, full functions, reasonable structure and good cleaning effect.

Description

Cleaning machine

Technical Field

The utility model relates to the field of cleaning equipment, in particular to a cleaning machine.

Background

The red copper and carbon steel type metal parts generally need to be cleaned after processing is completed to remove surface scraps and grease. The existing cleaning machine generally comprises a high-pressure spray cleaning mechanism and a blow-drying mechanism, wherein the high-pressure spray cleaning mechanism is provided with a spray head which is fixedly arranged, cleaning liquid can be sprayed to a workpiece only from a specific direction, and the cleaning coverage area is small. In order to clean the whole workpiece, a plurality of spray heads with a large number are required to be arranged, and the plurality of spray heads are respectively arranged on the periphery of the workpiece so as to flush the workpiece in multiple directions. However, the spray heads are arranged on the periphery of the workpiece to limit the movement of the workpiece, so that inconvenience is brought to the operation of moving the workpiece to the next station.

Disclosure of Invention

The utility model aims to provide a cleaning machine which can improve the cleaning coverage area and can not prevent the movement of a workpiece.

In order to achieve the above object, the cleaning machine provided by the utility model comprises an ultrasonic cleaning mechanism, a drying mechanism, a rotary lifting mechanism and a rotary cleaning mechanism; the ultrasonic cleaning mechanism and the drying mechanism are arranged along the up-down direction, a moving passage is formed between the ultrasonic cleaning mechanism and the drying mechanism, the rotary cleaning mechanism is arranged between the ultrasonic cleaning mechanism and the drying mechanism, and the rotary cleaning mechanism can rotate up and down to conduct the moving passage; the rotary lifting mechanism is arranged on one side of the moving path, the rotary lifting mechanism is provided with a positioning tool, the positioning tool stretches into the moving path and can move along the extending direction of the moving path, the positioning tool can be turned up and down, and the rotary cleaning mechanism can rotate around the positioning tool.

As can be seen from the above, the rotary lifting mechanism is arranged between the ultrasonic cleaning mechanism and the drying mechanism for fixing and moving the workpiece; by arranging the rotary cleaning mechanism to rotate up and down, on one hand, the movement of a workpiece in a moving passage can be avoided, so that the workpiece can smoothly pass through the rotary cleaning mechanism, and on the other hand, the workpiece can rotate up and down around a positioning tool during cleaning, thereby being beneficial to increasing the cleaning coverage area and avoiding the occurrence of cleaning dead angles; through setting up the location frock and can overturn from top to bottom, on the one hand when ultrasonic cleaning, the location frock can drive the work piece down, and when drying, the location frock can drive the work piece up, is favorable to corresponding different mechanisms with most suitable orientation, makes it reach best clean and stoving effect, and on the other hand is used for pouring the inside washing liquid that gathers of work piece after the high pressure sprays, is favorable to accelerating drying speed. The utility model is provided with a plurality of different cleaning stations and has the advantages of complete functions, reasonable structure, convenient operation and good cleaning effect.

Further, the rotary cleaning mechanism comprises a rotary driving device, a rotary frame, a plurality of blowing nozzles and/or a plurality of water spray nozzles; the rotating frame comprises a first arm and two second arms, the two second arms are oppositely connected to the two ends of the first arm, a cavity is formed between the first arm and the two second arms, an opening is formed in one side of the cavity, a plurality of blowing nozzles and a plurality of water spraying nozzles are all arranged on the cavity wall of the cavity, the blowing nozzles and the water spraying nozzles are all arranged towards the cavity, a rotary driving device is connected to the outer side of the cavity, and the rotary driving device can drive the rotating frame to rotate.

According to the scheme, the cavity is arranged, so that a workpiece can enter the cavity, and the workpiece can be conveniently cleaned from multiple directions by the air blowing nozzle or the water spraying nozzle, and the cleaning coverage area is improved; through setting up the swivel mount in order to drive blowing mouth or water jet and rotate around the work piece, be favorable to further improving clean coverage area on the one hand, on the other hand can not block the reciprocating of work piece again for the work piece can get into next process smoothly.

Further, the rotating shaft of the rotating frame is arranged on one end of the second arm far away from the first arm, or the rotating shaft is arranged on the middle part of the second arm.

Further, the water way is arranged in the rotating frame, the water way is communicated with the first arm and the two second arms, the plurality of water spray nozzles are respectively connected to the first arm and the second arms, and the water way is respectively communicated with the plurality of water spray nozzles.

The further scheme is that the rotating frame is provided with blowing modules on the first arm and the two second arms, a plurality of blowing nozzles are respectively connected to the corresponding blowing modules, air paths are formed in the blowing modules, and the air paths are respectively communicated with the plurality of blowing nozzles.

The rotary lifting mechanism comprises a fixed frame, a sliding plate, a workbench, a turnover driving device and a lifting driving device, wherein the fixed frame extends along the up-down direction, the sliding plate is arranged on the fixed frame, and the lifting driving device can drive the sliding plate to move up and down; the workbench and the overturning driving device are arranged on the sliding plate, the positioning tool is arranged on the workbench, and the overturning driving device can drive the workbench and the positioning tool to overturn up and down.

The further scheme is that the middle part of fixed frame is provided with dodges the hole, and the slide covers on dodging the hole, and the slide all is provided with the baffle at its direction of movement's both ends, and the baffle moves along with the slide.

By the scheme, through setting up the baffle, conveniently when the slide reciprocates, the baffle can fold the gap of dodging the hole, avoids water smoke to leak.

The further scheme is, the cleaning machine is provided with closed cavity and cleaning chamber, is provided with the cleaning chamber in the closed cavity, and stoving mechanism, rotatory elevating system, rotatory clean mechanism and ultrasonic cleaning mechanism all set up in the closed cavity, and ultrasonic cleaning mechanism sets up in the cleaning chamber, and rotatory clean mechanism sets up in the top of cleaning chamber.

According to the scheme, the closed cavity is arranged, so that the labor environment is improved, the water mist is prevented from dispersing, and recycling is facilitated.

The further scheme is that the cleaning machine is also provided with a liquid storage tank and a filter, the liquid storage tank is communicated with the cleaning chamber, and the filter is arranged at the water inlet end of the liquid storage tank.

The further scheme is that the cleaning machine is also provided with an oil mist purifier, and two ends of the oil mist purifier are respectively communicated with the closed cavity and the liquid storage tank.

Drawings

Fig. 1 is a block diagram of an embodiment of the present utility model.

Fig. 2 is a block diagram of an embodiment of the present utility model omitting a frame.

Fig. 3 is a block diagram of a first view of a rotary lift mechanism in accordance with an embodiment of the present utility model.

Fig. 4 is a block diagram of a second view of a rotary lift mechanism in accordance with an embodiment of the present utility model.

Fig. 5 is a block diagram of a rotary cleaning mechanism in an embodiment of the utility model.

The utility model is further described below with reference to the drawings and examples.

Detailed Description

Referring to fig. 1 and 2, the cleaning machine provided in this embodiment includes a frame and a closed chamber 10, the closed chamber 10 is disposed in the frame, and a touch display screen (not shown in the drawings) is disposed on the frame. A cleaning chamber 20, an ultrasonic cleaning mechanism 1, a drying mechanism 2, a rotary lifting mechanism 3 and a rotary cleaning mechanism 4 are arranged in the closed chamber 10. The closed chamber 10 is provided with an automatic lifting door and a cleaning observation window (not shown in the drawings).

The ultrasonic cleaning mechanism 1 comprises an ultrasonic generator 11 and an ultrasonic vibration plate 12, cleaning liquid is arranged in a cleaning chamber 20, the ultrasonic vibration plate 12 is arranged in the cleaning liquid, and the ultrasonic generator 11 is arranged on the outer side of the closed cavity 10 and connected with the ultrasonic vibration plate 12 and used for driving the ultrasonic vibration plate 12 to vibrate.

The drying mechanism 2 and the ultrasonic cleaning mechanism 1 are arranged up and down, and a moving path is formed between the ultrasonic cleaning mechanism 1 and the drying mechanism 2 in the vertical direction, so that workpieces can be conveniently moved from the ultrasonic cleaning mechanism 1 to the drying mechanism 2. The drying mechanism 2 comprises a high-pressure air heater assembly 21, a ventilation pipe 22 and a drying cover 23, wherein the drying cover 23 is arranged right above the ultrasonic cleaning mechanism 1, preferably on the top wall of the closed chamber 10, the drying cover 23 is arranged into a box body with a downward opening, inclined plates are arranged at the lower parts of four side walls of the drying cover 23, and the inclined plates extend outwards and downwards in an inclined manner. Both ends of the ventilation pipe 22 are respectively communicated with the drying hood 23 and the high-pressure air heater assembly 21. The high pressure air heater assembly 21 includes a high pressure air blower and a heater for supplying high pressure hot air into the drying hood 23.

The rotary cleaning mechanism 4 is arranged between the ultrasonic cleaning mechanism 1 and the drying mechanism 2, the rotary cleaning mechanism 4 extends along the horizontal direction, two ends of the rotary cleaning mechanism 4 are respectively connected with two opposite side cavity walls of the closed cavity 10 in a rotating mode, the middle of the rotary cleaning mechanism 4 is arranged above the ultrasonic cleaning mechanism 1 in a suspending mode, the rotary cleaning mechanism 4 can rotate up and down in the horizontal direction to conduct a moving path, and a sufficient avoiding space is provided for up-and-down movement of the rotary lifting mechanism 3.

The rotary lifting mechanism 3 is arranged on one side of the moving path in an extending manner along the up-down direction, the rotary lifting mechanism 3 is provided with a positioning tool 36, and the positioning tool 36 stretches into the moving path and can move along the extending direction of the moving path, so that the rotary lifting mechanism is convenient to move between the cleaning station and the drying station. In order to adapt to the positions of the ultrasonic cleaning mechanism 1 and the drying mechanism 2, the positioning tool 36 can also be turned up and down, so that when ultrasonic cleaning is performed, the positioning tool 36 drives a workpiece to be immersed into cleaning liquid downwards, and when drying is performed, the positioning tool 36 drives the workpiece to be upward, so that the workpiece is dried conveniently. To increase the cleaning coverage, the rotary cleaning mechanism 4 can also be rotated about the positioning fixture 36.

The cleaning machine is further provided with a liquid storage tank 30 and a filter 40, wherein the liquid storage tank 30 is communicated with the cleaning chamber 20 and used for storing excessive cleaning liquid in the cleaning chamber 20, and the filter 40 is arranged at the water inlet end of the liquid storage tank 30 and used for filtering debris in the cleaning liquid. The liquid storage tank 30 includes a scraping oil tank provided with a scraping oil machine 70 for scraping oil from the surface of the cleaning liquid, a cleaning liquid tank, and an oil storage tank. The cleaning water tank is provided with a high-pressure water pump 50, and the high-pressure water pump 50 is communicated with the rotary cleaning mechanism 4 through a water pipe and is used for supplying high-pressure spraying water to the rotary cleaning mechanism 4, wherein the high-pressure spraying water is sprayed on the surface of a workpiece and flows into the cleaning chamber 20, so that the recycling of cleaning liquid is realized.

Referring to fig. 3 and 4, the rotary lifting mechanism 3 includes a fixed frame 31, a slide plate 32, a table 33, a turnover driving device 34, and a lifting driving device 35. The fixed frame 31 extends in the vertical direction and sets up in the one side of sealed cavity 10, and fixed frame 31 middle part is provided with dodges the hole, and slide 32 sets up in the one side of fixed frame 31 towards sealed cavity 10, and slide 32 covers on dodging the hole, and lift drive 35 sets up in dodging the hole for be connected and drive slide 32 reciprocates with slide 32. The lifting drive device 35 may be a combination of a servo motor and a ball screw, or may be an air cylinder or a hydraulic cylinder, and the former is preferable in this embodiment. The fixed frame 31 all is provided with fixed plate 311 in the width both sides of dodging the hole, and fixed plate 311 part is striden and is established in dodging the hole, can shelter from the part and dodge the hole, is provided with the slide rail on the fixed plate 311, and one side of slide is provided with the slider with slide rail complex, and the both sides overlap joint of slide 32 width is on fixed plate 311, can block water smoke and leak from dodging the hole. When the sliding plate 32 moves from top to bottom or from bottom to top, the end part of the sliding plate 32 can expose part of the avoidance hole, for this purpose, the baffle 37 can be arranged at the upper end and the lower end of the sliding plate 32, the baffle 37 extends along the width of the avoidance hole, the extending length of the baffle 37 is equal to or slightly greater than the width of the avoidance hole, and is used for shielding the avoidance hole and avoiding the water vapor in the closed chamber 10 from leaking outwards from the avoidance hole.

The table 33 is provided on a side of the slide plate 32 facing the closed chamber 10, and one end of the table 33 is rotatably connected to the slide plate 32 through a rotation shaft 331. The turning driving device 34 is arranged on the side of the sliding plate 32 facing away from the closed chamber 10, and the turning driving device 34 can drive the workbench 33 to turn up and down by 180 degrees. The tumble drive 34 includes a servo motor and a drive assembly, which may be a chain drive assembly or a belt drive assembly, with the chain drive assembly being preferred in this embodiment. The rotating shaft 331 is provided with a sprocket 332, and the chain transmission assembly drives the sprocket 332 to rotate. Two positioning tools 36 are arranged on the workbench 33 in an arrayed manner, and the two positioning tools 36 extend into the moving passage. The positioning tool 36 is used for positioning and locking the workpiece, and can drive the workpiece to turn over together by 180 degrees, so as to pour the cleaning liquid in the workpiece after ultrasonic cleaning and/or high-pressure spraying. In this embodiment, the positioning tool 36 is preferably a tool chuck that pneumatically locks the workpiece.

Referring to fig. 5 in combination with fig. 2, the rotary cleaning mechanism 4 includes a rotary driving device 41, a rotary frame 42, a plurality of blowing modules 43, a plurality of blowing nozzles (not shown in the drawings) and/or a plurality of water spray nozzles 44, where the blowing nozzles and the water spray nozzles 44 may be alternatively or simultaneously disposed, and in this embodiment, the plurality of blowing nozzles and the plurality of water spray nozzles 44 are preferably simultaneously disposed.

The rotating frame 42 is set to be "U" shaped, the rotating frame 42 includes a first arm 421 and two second arms 422, the two second arms 422 are oppositely connected to two ends of the first arm 421, a "U" shaped cavity 423 is formed between the first arm 421 and the two second arms 422, and the cavity 423 is opened towards one side. The plurality of blowing nozzles and the plurality of water spray nozzles 44 are all arranged on the three side cavity walls of the cavity 423, and the blowing nozzles and the water spray nozzles 44 are all arranged towards the cavity 423 and are used for blowing or spraying the workpiece at high pressure at multiple angles. The air nozzle and the water nozzle 44 are independently provided for spraying water and/or blowing air to the work piece entering the chamber 423. Specifically, for a general steel workpiece, after being cleaned by the ultrasonic cleaning mechanism 1, the steel workpiece enters the cavity 423 to be sprayed with high-pressure water of the water spray nozzle 44, then is cleaned by high-pressure air of the air blowing nozzle, and then enters a drying procedure; for workpieces such as electrodes, high-pressure spraying is not needed, and after ultrasonic cleaning, high-pressure air cleaning can be directly carried out, and then drying is carried out.

In order to increase the cleaning coverage area, the rotary frame 42 is configured to rotate, so that the air blowing nozzle and the water spraying nozzle 44 can both rotate around the workpiece while blowing or spraying. Specifically, the rotating shafts 45 are provided on both sides of the rotating frame 42, the rotating shafts 45 are disposed in parallel with the first arm 421, and the two rotating shafts 45 are disposed coaxially in the horizontal direction. The first end of the rotation shaft 45 is rotatably connected to the wall of the closed chamber 10, and the second end of the rotation shaft 45 may be connected to the end of the second arm 422 remote from the first arm 421, or the second end of the rotation shaft 45 may be connected to the middle of the second arm 422, which is preferred in this embodiment. The rotation driving device 41 is disposed outside the cavity 423 and connected to one of the rotation shafts 45. The workpiece can enter the cavity 423, and the rotary driving device 41 can drive the rotary frame 42 to rotate around the workpiece, so that the omnidirectional cleaning is realized.

The first arm 421 and the two second arms 422 are integrally formed, a waterway is formed in the rotary frame 42, the waterway is communicated with the first arm 421 and the two second arms 422, the plurality of water spray nozzles 44 are respectively connected to the side walls of the first arm 421 and the second arms 422, and the waterway is respectively communicated with the plurality of water spray nozzles 44. The swivel mount 42 is provided with a high-pressure pipe joint 47 communicating with a waterway on the outer side of the first arm 421 for supplying high-pressure water for spraying to the water spout 44.

The rotating frame 42 is provided with air blowing modules 43 on the first arm 421 and the two second arms 422, a plurality of air blowing nozzles are respectively connected to the corresponding air blowing modules 43, air paths are formed in the air blowing modules 43, and the air paths are respectively communicated with the plurality of air blowing nozzles. The air paths of the three air blowing modules 43 can be arranged independently or communicated with each other, and the air paths of the air blowing modules 43 are preferably arranged in the latter mode, namely, the two adjacent air blowing modules 43 are communicated through air pipes. The rotating frame 42 is provided with an air inlet nozzle 46 communicating with the air path at the outer side of the other first arm 421 for supplying high-pressure air to the air blowing nozzle.

Because a large amount of water mist can be generated during high-pressure spraying and high-temperature drying, the cleaning machine is further provided with an oil mist purifier 60, the oil mist purifier 60 is arranged outside the closed chamber 10, one end of the oil mist purifier 60 is connected with a pipeline, the pipeline stretches into the closed chamber 10 and is used for sucking away the water mist, and the other end of the oil mist purifier 60 is communicated with the liquid storage tank 30.

In summary, the utility model is used for fixing and moving the workpiece by arranging the rotary lifting mechanism between the ultrasonic cleaning mechanism and the drying mechanism; by arranging the rotary cleaning mechanism to rotate up and down, on one hand, the movement of a workpiece in a moving passage can be avoided, so that the workpiece can smoothly pass through the rotary cleaning mechanism, and on the other hand, the workpiece can rotate up and down around a positioning tool during cleaning, thereby being beneficial to increasing the cleaning coverage area and avoiding the occurrence of cleaning dead angles; through setting up the location frock and can overturn from top to bottom, on the one hand when ultrasonic cleaning, the location frock can drive the work piece down, and when drying, the location frock can drive the work piece up, is favorable to corresponding different mechanisms with most suitable orientation, makes it reach best clean and stoving effect, and on the other hand is used for pouring the inside washing liquid that gathers of work piece after the high pressure sprays, is favorable to accelerating drying speed. The utility model is provided with a plurality of different cleaning stations and has the advantages of complete functions, reasonable structure, convenient operation and good cleaning effect.

Finally, it should be emphasized that the foregoing is merely a preferred embodiment of the present utility model, and is not intended to limit the utility model, but rather that various changes and modifications can be made by those skilled in the art without departing from the spirit and principles of the utility model, and any modifications, equivalent substitutions, improvements, etc. are intended to be included within the scope of the present utility model.

Claims

1. Cleaning machine, its characterized in that: comprises an ultrasonic cleaning mechanism, a drying mechanism, a rotary lifting mechanism and a rotary cleaning mechanism;

the ultrasonic cleaning mechanism and the drying mechanism are arranged along the up-down direction, a moving passage is formed between the ultrasonic cleaning mechanism and the drying mechanism, the rotary cleaning mechanism is arranged between the ultrasonic cleaning mechanism and the drying mechanism, and the rotary cleaning mechanism can rotate up and down to conduct the moving passage;

the rotary lifting mechanism is arranged on one side of the moving path, the rotary lifting mechanism is provided with a positioning tool, the positioning tool stretches into the moving path and can move along the extending direction of the moving path, the positioning tool can also be turned up and down, and the rotary cleaning mechanism can also rotate around the positioning tool.

2. The cleaning machine of claim 1, wherein:

the rotary cleaning mechanism comprises a rotary driving device, a rotary frame, a plurality of blowing nozzles and/or a plurality of water spray nozzles;

the rotating frame comprises a first arm and two second arms, the two second arms are oppositely connected to two ends of the first arm, a cavity is formed between the first arm and the two second arms, an opening is formed in one side of the cavity, a plurality of blowing nozzles and a plurality of water spraying nozzles are all arranged on the cavity wall of the cavity, the blowing nozzles and the water spraying nozzles are all arranged towards the cavity, a rotary driving device is connected to the outer side of the cavity, and the rotary driving device can drive the rotating frame to rotate.

3. The cleaning machine of claim 2, wherein:

the rotating shaft of the rotating frame is arranged on one end of the second arm far away from the first arm, or the rotating shaft is arranged on the middle part of the second arm.

4. The cleaning machine of claim 2, wherein:

the inside water route of having seted up of swivel mount, the water route intercommunication first arm and two the second arm, a plurality of the water spout is connected respectively on the first arm with the second arm, the water route respectively with a plurality of the water spout intercommunication.

5. The cleaning machine of claim 2, wherein:

the rotating frame is provided with blowing modules on the first arm and the two second arms, a plurality of blowing nozzles are respectively connected to the corresponding blowing modules, air paths are formed in the blowing modules, and the air paths are respectively communicated with the blowing nozzles.

6. The cleaning machine of claim 1, wherein:

the rotary lifting mechanism comprises a fixed frame, a sliding plate, a workbench, a turnover driving device and a lifting driving device, wherein the fixed frame extends along the up-down direction, the sliding plate is arranged on the fixed frame, and the lifting driving device can drive the sliding plate to move up and down;

the workbench and the overturning driving device are arranged on the sliding plate, the positioning tool is arranged on the workbench, and the overturning driving device can drive the workbench and the positioning tool to overturn up and down.

7. The cleaning machine of claim 6, wherein:

the middle part of fixed frame is provided with dodges the hole, the slide covers dodge on the hole, just the slide all is provided with the baffle at its direction of movement's both ends, the baffle is followed the slide removes.

8. The cleaning machine of any one of claims 1 to 7, wherein:

the cleaning machine is provided with a closed cavity, a cleaning chamber is arranged in the closed cavity, the drying mechanism, the rotary lifting mechanism, the rotary cleaning mechanism and the ultrasonic cleaning mechanism are all arranged in the closed cavity, the ultrasonic cleaning mechanism is arranged in the cleaning chamber, and the rotary cleaning mechanism is arranged above the cleaning chamber.

9. The cleaning machine of claim 8, wherein:

the cleaning machine is further provided with a liquid storage tank and a filter, the liquid storage tank is communicated with the cleaning chamber, and the filter is arranged at the water inlet end of the liquid storage tank.

10. The cleaning machine of claim 9, wherein:

the cleaning machine is further provided with an oil mist purifier, and two ends of the oil mist purifier are respectively communicated with the closed cavity and the liquid storage tank.