CN115716069B - Full-automatic hydrocarbon vacuum ultrasonic cleaning equipment - Google Patents

Abstract

The invention belongs to the technical field of cleaning devices, and discloses full-automatic hydrocarbon vacuum ultrasonic cleaning equipment which comprises a base, wherein an ultrasonic cleaning box is fixedly arranged on the base, an ultrasonic generating equipment main body is fixedly arranged in the ultrasonic cleaning box, a first supporting table and a second supporting table which are distributed on two sides of the ultrasonic cleaning box are fixedly arranged on the base, and a top plate is fixedly arranged on the base through supporting columns. Compared with the prior art, the invention has the beneficial effects that: realize with the quick connect release of wasing the basket to realize the quick material loading and the unloading of part, improve abluent speed and efficiency, realize the self-cleaning of part, need not the manual work and participated in steps such as wasing stoving, reduced workman's work load, saved the labour, reduced the time waste of transferring the part, can dry the part after wasing through multiple drying method, realize the quick drying of part, improve abluent speed and efficiency.

Description

Full-automatic hydrocarbon vacuum ultrasonic cleaning equipment

Technical Field

The invention belongs to the technical field of cleaning devices, and particularly relates to full-automatic hydrocarbon vacuum ultrasonic cleaning equipment.

Background

The principle of the ultrasonic cleaner is mainly that the ultrasonic cleaner converts the sound energy of a power ultrasonic frequency source into mechanical vibration, and the ultrasonic waves are radiated to the cleaning liquid in the tank through the wall of the cleaning tank, so that the microbubbles in the liquid in the tank can keep vibrating under the action of the sound waves due to the radiation of the ultrasonic waves, the absorption of dirt and the surface of a cleaning piece is damaged, and the fatigue damage of a dirt layer is caused to be stripped.

The existing ultrasonic cleaning equipment mostly needs to transfer parts and feed and discharge when in use, so that the cleaning process is complex, a large amount of cleaning time is wasted, the use is not facilitated, and meanwhile, the subsequent drying means is single, so that the drying speed of the parts after cleaning is slow, and the use is not facilitated.

Disclosure of Invention

The embodiment of the invention aims to provide full-automatic hydrocarbon vacuum ultrasonic cleaning equipment, which aims to solve the problems set forth in the background.

The present invention has been achieved in such a way that,

the utility model provides a full-automatic hydrocarbon vacuum ultrasonic cleaning equipment, includes the base, fixed mounting has the ultrasonic cleaning case on the base, and fixed mounting has the ultrasonic wave equipment main part that takes place in the ultrasonic cleaning case, and fixed mounting has first brace table and the second brace table that are located ultrasonic cleaning case both sides distribution on the base, there is the roof through pillar fixed mounting on the base, is provided with the lifter plate that runs through the roof on the roof, and the lifter plate is close to the fixed surface of base and installs the second slide rail of parallel distribution, and the second slide rail cooperation is used and is had the first slide rail of fixed mounting on the roof, second slide rail slidable mounting has the carriage, is provided with the power component that drives the carriage and remove on the carriage, the fixed surface that the carriage is close to the base installs the second rotary power spare, and fixed surface that is close to the base on the mounting plate has the second extensible member, and the directional base of second extensible member and its output are provided with the cleaning basket, and the second extensible member output is provided with the connecting assembly of connection, ultrasonic cleaning basket side fixed mounting has the stoving case, and the inside fixed surface that the stoving case is provided with the communicating pipe, and the inside of multiunit is located communicating pipe intercommunication that communicates on the drying box spaced apart.

As a further scheme of the invention: the lifting device comprises a lifting plate, a support, a first telescopic piece, a lifting plate, a groove, a support, a first telescopic piece output end and a second telescopic piece.

As a further scheme of the invention: the first slide rail is provided with the multiunit and sets up to U type structure, and first slide rail distributes in second slide rail both sides and first slide rail and second slide rail terminal surface contact, and first slide rail and second slide rail cross-section all set up to T type structure.

As a further scheme of the invention: and the sliding frame is rotatably provided with balls which are respectively in rolling contact with each side face of the second sliding rail.

As a further scheme of the invention: and a third telescopic piece parallel to the second telescopic piece is fixedly arranged on the mounting plate, and a cover plate matched with the cleaning basket is fixedly arranged at the output end of the third telescopic piece.

As a further scheme of the invention: and a backflow hole penetrating through the side wall of the ultrasonic cleaning box is formed in the side wall of the drying box.

As a further scheme of the invention: the power assembly comprises a first rotary power piece, the first rotary power piece is fixedly arranged on the side face of the sliding frame, an output shaft of the first rotary power piece is back to the base, a gear is fixedly arranged at the tail end of the output shaft of the first rotary power piece, and the gear is meshed with a first rack and a second rack which are fixedly arranged on the top plate and the lifting plate.

As a further scheme of the invention: the first racks are arranged to be of U-shaped structures and distributed on two sides of the second racks, and the distribution of the first racks and the second racks is identical to that of the first sliding rail and the second sliding rail.

As a further scheme of the invention: the connecting assembly comprises a bottom plate, an electromagnet is fixedly arranged on the surface, far away from the sliding frame, of the bottom plate, and an iron plate is fixedly arranged in the cleaning basket in a matched mode.

As a further scheme of the invention: the bottom plate is fixedly provided with a plurality of groups of spacing rods which are distributed at intervals, the spacing rods extend into the side wall of the cleaning basket, and the cleaning basket is internally fixedly provided with protection cylinders which are distributed around the second telescopic parts.

Compared with the prior art, the invention has the beneficial effects that: realize with the quick connect release of wasing the basket to realize the quick material loading and the unloading of part, improve abluent speed and efficiency, realize the self-cleaning of part, need not the manual work and participated in steps such as wasing stoving, reduced workman's work load, saved the labour, reduced the time waste of transferring the part, can dry the part after wasing through multiple drying method, realize the quick drying of part, improve abluent speed and efficiency.

Drawings

Fig. 1 is a front view of a fully automatic hydrocarbon vacuum ultrasonic cleaning apparatus.

Fig. 2 is an enlarged view at A1 in fig. 1.

Fig. 3 is a left side view of a lifter plate in a fully automatic hydrocarbon vacuum ultrasonic cleaning apparatus.

Fig. 4 is a bottom view of a top plate in a fully automated hydrocarbon vacuum ultrasonic cleaning apparatus.

Fig. 5 is a schematic structural view of a lifter plate in a fully automatic hydrocarbon vacuum ultrasonic cleaning apparatus.

In the accompanying drawings: 1. a base; 2. an ultrasonic cleaning box; 3. an ultrasonic wave generating apparatus main body; 4. a support post; 5. a top plate; 6. a bracket; 7. a first telescopic member; 8. a lifting plate; 9. a first slide rail; 10. a second slide rail; 11. a first rack; 12. a second rack; 13. a carriage; 14. a ball; 15. a first rotary power member; 16. a gear; 17. a second rotary power member; 18. a mounting plate; 19. a second telescopic member; 20. a bottom plate; 21. an electromagnet; 22. a limit rod; 23. a cleaning basket; 24. an iron plate; 25. a third telescopic member; 26. a cover plate; 27. a protective cylinder; 28. a first support table; 29. a drying box; 30. a communicating pipe; 31. a gas lance; 32. an air heater; 33. a reflow hole; 34. a second support table; 35. a power assembly; 36. and a connection assembly.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1-5, as a preferred embodiment of the present invention, a full-automatic hydrocarbon vacuum ultrasonic cleaning apparatus includes a base 1, an ultrasonic cleaning tank 2 is fixedly installed on the base 1, an ultrasonic generating apparatus main body 3 is fixedly installed in the ultrasonic cleaning tank 2, a first supporting table 28 and a second supporting table 34 are fixedly installed on the base 1 and located at two sides of the ultrasonic cleaning tank 2, a top plate 5 is fixedly installed on the base 1 through a supporting column 4, a lifting plate 8 penetrating through the top plate 5 is provided on the top plate 5, a second sliding rail 10 which is parallel to the surface of the lifting plate 8 and is fixedly installed on the surface of the base 1, a first sliding rail 9 which is fixedly installed on the top plate 5 is matched with the second sliding rail 10, a sliding frame 13 is slidably installed on the second sliding rail 10, a power assembly 35 which drives the sliding frame 13 to move is fixedly installed on the surface of the sliding frame 13, a second rotary power member 17 is fixedly installed on the surface of the sliding frame 13 and located at two sides of the base 1, a second telescopic member 19 is fixedly installed on the surface of the mounting plate 18 and located at two sides of the base 1, a second telescopic member 19 is fixedly installed on the surface of the mounting plate 19, a plurality of groups of telescopic members 19 are fixedly installed on the second telescopic members 19, the second telescopic members 19 are located at the output ends of the second telescopic members 19 are located at the two sides of the second telescopic members 19 and are located at the two sides of the second telescopic members 23, and are located at the two sides of the second telescopic members are located at the two sides 30, and are connected with a common, and are connected with a drying basket 30, and a 3 is fixedly connected to the drying basket 30, and a drying basket 30 is fixedly connected to the drying basket 30.

The top plate 5 is provided with a groove for the lifting plate 8 to pass through, the top plate 5 is fixedly provided with a bracket 6, the bracket 6 is fixedly provided with a first telescopic piece 7 pointing to the base 1, and the output end of the first telescopic piece 7 is fixedly connected with the lifting plate 8.

The first slide rail 9 is provided with the multiunit and sets up to U type structure, and first slide rail 9 distributes in second slide rail 10 both sides and first slide rail 9 and second slide rail 10 terminal surface contact, and first slide rail 9 and second slide rail 10 cross-section all set up to T type structure.

The carriage 13 is rotatably mounted with balls 14 in rolling contact with respective sides of the second slide rail 10.

A third telescopic member 25 parallel to the second telescopic member 19 is fixedly arranged on the mounting plate 18, and a cover plate 26 matched with the cleaning basket 23 is fixedly arranged at the output end of the third telescopic member 25.

The side wall of the drying box 29 is provided with a reflux hole 33 penetrating through the side wall of the ultrasonic cleaning box 2.

In practical application, the to-be-cleaned component is placed in the cleaning basket 23, a proper amount of hydrocarbon cleaning liquid is added into the ultrasonic cleaning box 2 through the water injection pipe, then the cleaning basket 23 is placed on the first supporting table 28, the cleaning basket 23 is positioned on the moving track of the sliding frame 13, the sliding frame 13 is driven by the power component 35 to move to the position right above the cleaning basket 23, then the second telescopic piece 19 stretches to drive the connecting component 36 to move downwards so as to enable the connecting component 36 to be in contact with the cleaning basket 23, the cleaning basket 23 is fixedly connected with the second telescopic piece 19 through the connecting component 36, then the second telescopic piece 19 contracts so as to enable the cleaning basket 23 to leave the first supporting table 28, the power component 35 drives the sliding frame 13 to move to the second sliding rail 10, and the cleaning basket 23 is positioned in the area where the ultrasonic cleaning box 2 is positioned, the first telescopic piece 7 stretches to drive the lifting plate 8 to move downwards so as to enable the lifting plate 8 to contact with the ultrasonic cleaning box 2 and seal the ultrasonic cleaning box 2, the second telescopic piece 19 stretches to drive the cleaning basket 23 to move downwards so as to enable the cleaning basket 23 to be immersed in cleaning liquid, the third telescopic piece 25 stretches to drive the cover plate 26 to move downwards so as to enable the cover plate 26 to contact with the cleaning basket 23 and seal the cleaning basket 23, ultrasonic waves are generated by the ultrasonic generating equipment main body 3 so as to clean components in the ultrasonic cleaning box 2, the second rotary power piece 17 drives the mounting plate 18 to rotate slowly during cleaning so as to enable the cleaning basket 23 to drive the components to rotate slowly so as to enable the components to be fully contacted with the cleaning liquid, cleaning dead angles are reduced, cleaning effects are improved, after cleaning is completed, the first telescopic piece 7 contracts so that the second sliding rail 10 and the first sliding rail 9 are connected into a whole, simultaneously, the second telescopic piece 19 and the third telescopic piece 25 are simultaneously contracted to ensure that the height of the cleaning basket 23 exceeds the height of the ultrasonic cleaning box 2, other parts can be continuously cleaned at the moment after the cleaned parts leave, the power assembly 35 drives the sliding frame 13 to move to the upper part of the drying box 29, the second telescopic piece 19 and the third telescopic piece 25 are simultaneously stretched to ensure that the cleaning basket 23 enters the drying box 29, the second rotary power piece 17 drives the cleaning basket 23 to rapidly rotate, so that the water on the parts is thrown out under the action of centrifugal force, the thrown-out water returns to the ultrasonic cleaning box 2 again through the reflow hole 33, meanwhile, the hot air fan 32 blows hot air into the communicating pipe 30, the hot air blows to the cleaning basket 23 through the air ejector 31, thereby accelerating the drying of the cleaned parts, drying the cleaned parts through various drying modes, realizing the rapid drying of the parts, the cleaning speed and efficiency are improved, the cleaning device is beneficial to use, after drying is finished, the second telescopic piece 19 and the third telescopic piece 25 are simultaneously contracted to enable the cleaning basket 23 to leave the drying box 29, then the power assembly 35 drives the sliding frame 13 to move to the upper part of the second supporting table 34, at the moment, the second telescopic piece 19 drives the cleaning basket 23 to move downwards and contact with the second supporting table 34, then the connection assembly 36 is released from the connection with the cleaning basket 23 to enable the cleaning basket 23 to be disconnected with the second telescopic piece 19, the connection assembly 36 is used for realizing quick connection release with the cleaning basket 23, thereby realizing quick feeding and discharging of components, improving the cleaning speed and efficiency, driving the components to move through the sliding frame 13, realizing automatic cleaning of the components, avoiding the steps of manually participating in cleaning, drying and the like, reducing the workload of workers, saving labor force and reducing the time waste of transferring the components, the cleaning efficiency is improved.

In one embodiment of the present invention, the second rotary power member 17 is a second motor, or may be a hydraulic motor or other components capable of outputting rotary power, the second motor drives the cleaning basket 23 to rotate, so as to implement dehydration and drying of the cleaning components, the first telescopic member 7, the second telescopic member 19 and the third telescopic member 25 are respectively a first electric telescopic rod, a second electric telescopic rod and a third electric telescopic rod, or may be other components capable of actively performing length conversion, such as a hydraulic cylinder, where the first electric telescopic rod drives the lifting plate 8 to move up and down, the second electric telescopic rod drives the cleaning basket 23 to move up and down, and the third electric telescopic rod drives the cover plate 26 to move up and down.

As shown in fig. 1, 3 and 5, as a preferred embodiment of the present invention, the power assembly 35 includes a first rotary power member 15, the first rotary power member 15 is fixedly mounted on a side surface of the sliding frame 13, and an output shaft thereof faces away from the base 1, a gear 16 is fixedly mounted at an end of the output shaft of the first rotary power member 15, and the gear 16 is engaged with a first rack 11 and a second rack 12 fixedly mounted on the top plate 5 and the lifting plate 8.

The first racks 11 are arranged in a U-shaped structure and distributed on two sides of the second racks 12, and the distribution of the first racks 11 and the second racks 12 is identical to that of the first sliding rail 9 and the second sliding rail 10.

In practical application, the first rotary power member 15 drives the gear 16 to rotate, and the gear 16 can be meshed with the first rack 11 and the second rack 12, so that the first rotary power member 15 can drive the sliding frame 13 to move along the first sliding rail 9 and the second sliding rail 10 through the gear 16, the first rack 11 and the second rack 12, and further drive the cleaning component to move.

In one embodiment of the present invention, the first rotary power member 15 is a first motor, and may be a hydraulic motor or other components capable of outputting rotary power, where the first motor drives the gear 16 to rotate to drive the sliding frame 13 to move.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the connection assembly 36 includes a base plate 20, and an electromagnet 21 is fixedly mounted on a surface of the base plate 20 remote from the carriage 13, and the electromagnet 21 is cooperatively used with an iron plate 24 fixedly mounted in a cleaning basket 23.

A plurality of groups of spacing rods 22 which are distributed at intervals are fixedly arranged on the bottom plate 20, the spacing rods 22 extend into the side wall of the cleaning basket 23, and protective cylinders 27 which are distributed around the second telescopic members 19 are fixedly arranged in the cleaning basket 23.

In practical application, the second telescopic piece 19 drives the bottom plate 20 to move downwards so that the limiting rod 22 stretches into the side wall of the cleaning basket 23 until the electromagnet 21 contacts with the iron plate 24, then the electromagnet 21 is electrified so that the electromagnet 21 and the iron plate 24 are adsorbed, the cleaning basket 23 can be fixedly arranged on the bottom plate 20, the electromagnet 21 and the iron plate 24 are prevented from rotating through the limiting rod 22, the adsorption stability is improved, the subsequent cleaning basket 23 and the mounting plate 18 are ensured to synchronously rotate, and the cleaning part is prevented from affecting the mounting of the cleaning basket 23 through the protective cylinder 27.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (10)

1. The utility model provides a full-automatic hydrocarbon vacuum ultrasonic cleaning equipment, includes the base, fixed mounting has the ultrasonic cleaning case on the base, and fixed mounting has the ultrasonic wave equipment main part that takes place in the ultrasonic cleaning case, and fixed mounting has the first brace table and the second brace table that are located ultrasonic cleaning case both sides distribution on the base, a serial communication port, there is the roof through pillar fixed mounting on the base, is provided with the lifter plate that runs through the roof on the roof, and the lifter plate can move down and ultrasonic cleaning case contact seal ultrasonic cleaning case, and the lifter plate is close to the fixed surface that the base installs the second slide rail of parallel distribution, and the second slide rail cooperation is used and is had the first slide rail of fixed mounting on the roof, second slide rail slidable mounting has the carriage, is provided with the power pack that drives the carriage and remove on the carriage, the fixed surface that the carriage is close to the base installs the second telescopic member, and its output is provided with the washing basket on the base, and the second telescopic member output is provided with the connecting assembly who connects, the inner side fixed mounting has the second telescopic member contact tube, the inner side of the drying box that is close to the base has the communicating pipe, and the drying fan is located the drying and is connected to the inner side of the drying box.

2. The full-automatic hydrocarbon vacuum ultrasonic cleaning device according to claim 1, wherein the top plate is provided with a groove for the lifting plate to pass through, a bracket is fixedly arranged on the top plate, a first telescopic piece pointing to the base is fixedly arranged on the bracket, and the output end of the first telescopic piece is fixedly connected with the lifting plate.

3. The full-automatic hydrocarbon vacuum ultrasonic cleaning device according to claim 1, wherein the first sliding rails are provided with a plurality of groups and are of a U-shaped structure, the first sliding rails are distributed on two sides of the second sliding rails and are in end face contact with the second sliding rails, and the sections of the first sliding rails and the second sliding rails are of T-shaped structures.

4. The full-automatic hydrocarbon vacuum ultrasonic cleaning apparatus according to claim 1, wherein balls are rotatably mounted in the carriage in rolling contact with respective sides of the second slide rail.

5. The full-automatic hydrocarbon vacuum ultrasonic cleaning device according to claim 1, wherein a third telescopic member parallel to the second telescopic member is fixedly arranged on the mounting plate, and a cover plate matched with the cleaning basket is fixedly arranged at the output end of the third telescopic member.

6. The full-automatic hydrocarbon vacuum ultrasonic cleaning device according to claim 1, wherein a backflow hole penetrating through the side wall of the ultrasonic cleaning tank is formed in the side wall of the drying tank.

7. The fully automatic hydrocarbon vacuum ultrasonic cleaning apparatus according to claim 1, wherein the power assembly comprises a first rotary power member fixedly mounted on the side of the carriage with its output shaft facing away from the base, and a gear fixedly mounted at the end of the output shaft of the first rotary power member, the gear meshing with a first rack and a second rack fixedly mounted on the top plate and the lifting plate.

8. The full-automatic hydrocarbon vacuum ultrasonic cleaning device according to claim 7, wherein the first racks are arranged in a U-shaped structure and distributed on two sides of the second racks, and the distribution of the first racks and the second racks is identical to that of the first sliding rail and the second sliding rail.

9. The full-automatic hydrocarbon vacuum ultrasonic cleaning device according to claim 1, wherein the connecting assembly comprises a bottom plate, an electromagnet is fixedly arranged on the surface of the bottom plate far away from the sliding frame, and an iron plate fixedly arranged in the cleaning basket is matched with the electromagnet.

10. The full-automatic hydrocarbon vacuum ultrasonic cleaning device according to claim 9, wherein a plurality of groups of spacing rods which are distributed at intervals are fixedly arranged on the bottom plate, the spacing rods extend into the side wall of the cleaning basket, and protective cylinders distributed around the second telescopic members are fixedly arranged in the cleaning basket.

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