CN219560702U - Ultrasonic cleaning and drying line used after chamfering neodymium iron boron - Google Patents

Abstract

The utility model relates to the technical field of cleaning equipment, wherein a mesh belt driven wheel is arranged in a feeding table; a net belt driving wheel and a net belt driving motor are arranged in the blanking table, and a transmission net belt is wound between the net belt driving wheel and the net belt driven wheel; electric heating pipes are arranged in the bottom tanks of the ultrasonic rough washing tank, the ultrasonic washing tank and the ultrasonic fine washing tank, and circulating pumps and filters are respectively and sequentially arranged on the inlet and outlet circulating pipelines of the ultrasonic rough washing tank, the ultrasonic washing tank and the ultrasonic fine washing tank; the lower ends of the dry blowing air pumps are respectively provided with a dry blowing air knife through a pipeline, and the air suction inlets of the exhaust fans are communicated with the top exhaust pipes of the ultrasonic rough washing tank, the ultrasonic cleaning tank and the ultrasonic fine washing tank; an upper ultrasonic vibration plate and a lower ultrasonic vibration plate are symmetrically and transversely arranged in the ultrasonic rough washing tank, the ultrasonic washing tank and the ultrasonic fine washing tank; the utility model can provide a post-chamfering ultrasonic cleaning drying line for neodymium iron boron, which can be used for horizontally and rapidly cleaning, reducing surface watermark residues and realizing automatic pipelining operation.

Description

Ultrasonic cleaning and drying line used after chamfering neodymium iron boron

Technical Field

The utility model belongs to the technical field related to cleaning equipment, and particularly relates to an ultrasonic cleaning drying line after chamfering neodymium iron boron.

Background

In order to meet the development requirements of the market, tap enterprises in the neodymium iron boron industry continuously upgrade and expand production, and a large number of peripheral peer enterprises are driven to rapidly develop along with the tap enterprises, so that competition pressure of the whole industry is increased, the updating or upgrading of production processes and equipment facilities is a trend, and cleaning equipment is a key breakthrough as a processing procedure component.

At present, a chamfering process in the NdFeB processing procedure generally adopts a vibration grinding mode, and certain influence is generated on a product, such as magnetic powder residue, residual liquid adhesion and the like, when the surface state of the product is perfected, the follow-up electroplating or other surface treatment processes are influenced, the combination of a protective layer is reduced, long-term rust prevention is not facilitated, the conventional process is used for treating the conditions, the operation is usually finished through manual cleaning, wiping, draining, drying and the like, and from the aspect of cleanliness, the phenomenon of incomplete cleaning or inconsistent quality is necessarily generated. From the aspect of dryness, although the drying requirement of the product can be basically met through a high-temperature mode, the watermark residue on the surface of the product is difficult to treat, and the surface treatment requirement can not be met, or the watermark residue can not be realized through the auxiliary interference of other means in the subsequent treatment process, so that the whole process flow is complicated, the labor force configuration and strength are high, the efficiency and quality are uncontrollable, and the like, and the development of enterprises is restricted. Therefore, successful development of a cleaning production line that optimizes and perfects the process and meets the needs of the customer is expected to occupy the future market, and has important significance for industry development.

Disclosure of Invention

The utility model aims to provide a post-chamfering ultrasonic cleaning drying line for neodymium iron boron, which is used for horizontally and rapidly cleaning, reducing surface watermark residues and realizing automatic pipelining operation.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an ultrasonic cleaning baking line behind neodymium iron boron chamfer, includes material loading platform, electrical control cabinet, unloading platform, transmission support body, its characterized in that: a feeding table is arranged at the left side end of the transmission frame body, and a discharging table is arranged at the right side end of the transmission frame body; the net belt driven wheel is arranged in the feeding table; a net belt driving wheel and a net belt driving motor are arranged in the blanking table, a transmission net belt is wound between the net belt driving wheel and the net belt driven wheel, and a rotary output shaft of the net belt driving motor is in transmission connection with the net belt driving wheel; an electrical control cabinet is further arranged at the upper part of the feeding table; the transmission frame body is sequentially provided with an ultrasonic rough washing tank, an ultrasonic cleaning tank, an ultrasonic fine washing tank, a strong wind blow-drying mechanism and a dehumidifying mechanism from left to right; the electric heating pipes are arranged in the bottom tanks of the ultrasonic rough washing tank, the ultrasonic washing tank and the ultrasonic fine washing tank, and the circulating pump and the filter are respectively and sequentially arranged on the inlet and outlet circulating pipelines of the ultrasonic rough washing tank, the ultrasonic washing tank and the ultrasonic fine washing tank; the top parts of the discharge ends of the ultrasonic rough washing tank, the ultrasonic cleaning tank and the ultrasonic fine washing tank are respectively provided with a blowing air pump and an exhaust fan, the lower ends of the blowing air pumps are respectively provided with a blowing air knife through pipeline communication, and the air suction inlets of the exhaust fans are communicated with the top exhaust pipes of the ultrasonic rough washing tank, the ultrasonic cleaning tank and the ultrasonic fine washing tank; the ultrasonic rough washing tank, the ultrasonic cleaning tank and the ultrasonic fine washing tank are internally and symmetrically and transversely provided with an upper ultrasonic vibration plate and a lower ultrasonic vibration plate, and each group of the upper ultrasonic vibration plate and the lower ultrasonic vibration plate are oppositely and alternately arranged together in pairs.

As a further improvement of the utility model, the bottom of the strong wind blow-drying mechanism is provided with a first blower, and the top surface of the strong wind blow-drying mechanism is provided with a moisture discharging port.

As a further improvement of the utility model, the bottom of the dehumidifying mechanism is provided with a second air blower, and the top surface of the dehumidifying mechanism is provided with a dehumidifying port; and a moisture discharging fan is arranged in the middle of the moisture discharging mechanism.

As a further improvement of the utility model, the number of the blow-drying air knives is more than two, and the blow-drying air knives are respectively arranged above the inner parts of the ultrasonic rough washing tank, the ultrasonic cleaning tank and the ultrasonic fine washing tank at horizontal intervals.

As a further improvement of the utility model, the upper surface of the feeding table is provided with an upper-pressure driving wheel, the upper surface of the discharging table is provided with an upper-pressure driven wheel, an upper-pressure rail is transversely arranged between the upper-pressure driving wheel and the upper-pressure driven wheel, upper-pressure guide wheels are arranged on the upper-pressure rail at intervals, an upper-pressure belt is wound among the upper-pressure driving wheel, the upper-pressure guide wheels and the upper-pressure driven wheel, and a material conveying channel is reserved between the lower surface of the bottom of the upper-pressure belt and the upper surface of the conveying net belt.

As a further improvement of the utility model, the middle part of the feeding table is suspended with a slag collecting basket.

As a further improvement of the utility model, the bottom of the transmission frame body is provided with adjusting feet at intervals.

As a further improvement of the utility model, the side walls of the bottom tank bodies of the ultrasonic rough washing tank, the ultrasonic cleaning tank and the ultrasonic fine washing tank are provided with cleaning ports.

As a further improvement of the utility model, the transmission frame body is wrapped with a plastic or metal outer cover, and the side wall of the outer cover is provided with a transparent observation window.

As a further improvement of the utility model, the electric input ends of the ultrasonic rough washing tank, the ultrasonic cleaning tank, the ultrasonic fine washing tank, the strong wind blow-drying mechanism and the mesh belt driving motor are respectively connected with an electric control cabinet through circuits.

Compared with the prior art, the utility model has the beneficial effects that: according to the technical scheme, residual liquid and magnetic powder on the surface of a product can be sufficiently removed through three ultrasonic vibration cleaning, so that the cleaning requirement is met; the technical scheme is provided with the strong wind blow-drying and drying section which is mainly used for carrying out surface blow-drying and quick drying treatment on the cleaned product, and can quickly cut off residual liquid through strong wind, reduce drying pressure, solve the problem of watermark residue and meet the surface treatment requirement; the circulating filtration of the technical scheme is mainly used for on-line filtration of cleaning media, so that the media entering an ultrasonic area reduce impurities and improve the cleanliness of the media; all pipelines, an electrical control cabinet body system and the like of the equipment adopt an integrated manufacturing mode, the whole equipment operates horizontally, the operation efficiency is high, and the comprehensive performance of the equipment can fully meet the requirements of a product cleaning process.

Drawings

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

In the figure: 1. a feeding table; 2. an electrical control cabinet; 3. pressing the driving wheel; 4. an observation window; 5. an exhaust fan; 6. blowing a dry air pump; 7. an ultrasonic vibration plate is arranged; 8. a lower ultrasonic vibration plate; 9. blowing a dry air knife; 10. pressing a guide wheel; 11. pressing the rail; 12. an outer cover; 13. a moisture removal port; 14. a moisture removal fan; 15. a moisture removal port; 16. pressing a driven wheel; 17. a blanking table; 18. a slag collecting basket; 19. an electric heating tube; 20. a circulation pump; 21. an ultrasonic rough washing tank; 22. a filter; 23. a transmission frame body; 24. an ultrasonic cleaning tank; 25. adjusting the footing; 26. a cleaning port; 27. an ultrasonic fine washing tank; 28. strong wind blow-drying mechanism; 29. a first blower; 30. a second blower; 31. a mesh belt driving motor; 32. a mesh belt driving wheel; 33. a mesh belt driven wheel; 34. a conveyor belt; 35. a dehumidifying mechanism; 36. and (5) pressing the belt.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, the present utility model provides a technical solution: the utility model provides an ultrasonic cleaning baking line behind neodymium iron boron chamfer, includes material loading platform 1, electrical control cabinet 2, unloading platform 17, transmission support body 23, its characterized in that: the left end of the transmission frame body 23 is provided with a feeding table 1, and the right end of the transmission frame body 23 is provided with a discharging table 17; the net belt driven wheel 33 is arranged in the feeding table 1; a mesh belt driving wheel 32 and a mesh belt driving motor 31 are arranged in the blanking table 17, a transmission mesh belt 34 is wound between the mesh belt driving wheel 32 and the mesh belt driven wheel 33, and a rotation output shaft of the mesh belt driving motor 31 is in transmission connection with the mesh belt driving wheel 32; the upper part of the feeding table 1 is also provided with an electrical control cabinet 2; the transmission frame body 23 is provided with an ultrasonic rough washing tank 21, an ultrasonic washing tank 24, an ultrasonic fine washing tank 27, a strong wind blow-drying mechanism 28 and a dehumidifying mechanism 35 in sequence from left to right; the electric heating pipes 19 are arranged in the bottom tanks of the ultrasonic rough washing tank 21, the ultrasonic washing tank 24 and the ultrasonic fine washing tank 27, and the circulating pump 20 and the filter 22 are respectively and sequentially arranged on the inlet and outlet circulating pipelines of the ultrasonic rough washing tank 21, the ultrasonic washing tank 24 and the ultrasonic fine washing tank 27; the top parts of the discharge ends of the ultrasonic rough washing tank 21, the ultrasonic cleaning tank 24 and the ultrasonic fine washing tank 27 are respectively provided with a blowing air pump 6 and an exhaust fan 5, the lower ends of the blowing air pumps 6 are respectively provided with a blowing air knife 9 through pipeline communication, and the air suction inlets of the exhaust fans 5 are communicated with the top exhaust pipes of the ultrasonic rough washing tank 21, the ultrasonic cleaning tank 24 and the ultrasonic fine washing tank 27; the ultrasonic rough washing tank 21, the ultrasonic washing tank 24 and the ultrasonic fine washing tank 27 are internally and symmetrically and transversely provided with an upper ultrasonic vibration plate 7 and a lower ultrasonic vibration plate 8, and each group of the upper ultrasonic vibration plate 7 and the lower ultrasonic vibration plate 8 are oppositely and alternately arranged together in pairs.

The first air blower 29 is installed at the bottom of the strong wind blow-drying mechanism 28, and the moisture discharging port 15 is formed on the top surface of the strong wind blow-drying mechanism 28. The bottom of the moisture removing mechanism 35 is provided with a second air blower 30, and the top surface of the moisture removing mechanism 35 is provided with a moisture removing port 15; the middle part of the dehumidifying mechanism 35 is provided with a dehumidifying fan 14.

The number of the blow-drying air knives 9 is more than two, and the blow-drying air knives are respectively arranged above the inner parts of the ultrasonic rough washing tank 21, the ultrasonic cleaning tank 24 and the ultrasonic fine washing tank 27 at horizontal intervals.

The upper surface of material loading platform 1 is provided with and pushes up the drive wheel 3, the upper surface of unloading platform 17 is provided with and pushes up from the driving wheel 16, it transversely installs and pushes up track 11 to push up between drive wheel 3 and the driving wheel 16 that pushes up, it installs and pushes up guide pulley 10 to go up the interval on the track 11, it has last pressure area 36 to push up to twine between drive wheel 3, last pressure guide pulley 10 and the driving wheel 16 that pushes up, it leaves the material conveying passageway to push up between the lower surface of pressure area 36 bottom and the upper surface of conveyer belt 34.

A slag collecting basket 18 is hung in the middle of the feeding table 1; the bottom of the transmission frame body 23 is provided with adjusting feet 25 at intervals; the side walls of the bottom tank bodies of the ultrasonic rough washing tank 21, the ultrasonic cleaning tank 24 and the ultrasonic fine washing tank 27 are provided with cleaning ports 26.

The periphery of the transmission frame body 23 is wrapped with a plastic or metal outer cover 12, and the side wall of the outer cover 12 is provided with a transparent observation window 4; the electric input ends of the ultrasonic rough washing tank 21, the ultrasonic cleaning tank 24, the ultrasonic fine washing tank 27, the strong wind blow-drying mechanism 28 and the mesh belt driving motor 31 are respectively connected with the electric control cabinet 2 through circuits.

When the device is in actual use, the working flow sequence comprises the treatments of manual feeding, up-down ultrasonic rough washing, first liquid blowing, up-down ultrasonic cleaning, second liquid blowing, up-down ultrasonic fine washing, third liquid blowing, strong wind blow-drying, hot air drying and the like, and finally, the device is manually fed. The equipment adopts a modularized design, each cleaning section can be combined at will, the process adjustment is more flexible, and the operability is strong; the equipment adopts a horizontal operation mode, reduces the occupation of production sites and is beneficial to the overall layout; the upper ultrasonic vibration plate and the lower ultrasonic vibration plate are adopted for carrying out irradiation cleaning, so that no blind area cleaning can be ensured, and the cleaning effect is improved; the water on the surface of the product can be cut off to the greatest extent by adopting a mode of drying by strong wind up and down, which is beneficial to drying; the conveying mesh belt of the equipment adopts a steel wire mesh belt structure, so that the ultrasonic penetrating power can be enhanced, the water permeability is improved, and the equipment is beneficial to cleaning and blowing and drying; the whole machine of the equipment is made of stainless steel, a transparent toughened glass window is arranged, the machine tool type modeling is realized, the layout is attractive, and the real-time observation of the working process is facilitated.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The utility model provides an ultrasonic cleaning baking line behind neodymium iron boron chamfer, includes material loading platform (1), electrical control cabinet (2), unloading platform (17), transmission support body (23), its characterized in that: a feeding table (1) is arranged at the left side end of the transmission frame body (23), and a discharging table (17) is arranged at the right side end of the transmission frame body (23); the net belt driven wheel (33) is arranged in the feeding table (1); a mesh belt driving wheel (32) and a mesh belt driving motor (31) are arranged in the blanking table (17), a conveying mesh belt (34) is wound between the mesh belt driving wheel (32) and the mesh belt driven wheel (33), and a rotary output shaft of the mesh belt driving motor (31) is in transmission connection with the mesh belt driving wheel (32); an electrical control cabinet (2) is further arranged at the upper part of the feeding table (1); the transmission frame body (23) is sequentially provided with an ultrasonic rough washing tank (21), an ultrasonic washing tank (24), an ultrasonic fine washing tank (27), a strong wind blow-drying mechanism (28) and a dehumidifying mechanism (35) from left to right; an electric heating pipe (19) is arranged in the bottom tank bodies of the ultrasonic rough washing tank (21), the ultrasonic washing tank (24) and the ultrasonic fine washing tank (27), and a circulating pump (20) and a filter (22) are respectively and sequentially arranged on the inlet and outlet circulating pipelines of the ultrasonic rough washing tank (21), the ultrasonic washing tank (24) and the ultrasonic fine washing tank (27); the top of the discharge ends of the ultrasonic rough washing tank (21), the ultrasonic cleaning tank (24) and the ultrasonic fine washing tank (27) are respectively provided with a dry blowing air pump (6) and an exhaust fan (5), the lower ends of the dry blowing air pumps (6) are respectively provided with a dry blowing air knife (9) through pipeline communication, and the air suction inlets of the exhaust fans (5) are communicated to the top exhaust pipes of the ultrasonic rough washing tank (21), the ultrasonic cleaning tank (24) and the ultrasonic fine washing tank (27); the ultrasonic rough washing tank (21), the ultrasonic cleaning tank (24) and the ultrasonic fine washing tank (27) are internally and symmetrically and transversely provided with an upper ultrasonic vibration plate (7) and a lower ultrasonic vibration plate (8), and each group of the upper ultrasonic vibration plate (7) and the lower ultrasonic vibration plate (8) are arranged together in pairs at opposite intervals.

2. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: the bottom of strong wind weathers mechanism (28) installs first air-blower (29), the top surface of strong wind weathers mechanism (28) has seted up moisture removal mouth (15).

3. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 2, wherein: the bottom of the dehumidifying mechanism (35) is provided with a second air blower (30), and the top surface of the dehumidifying mechanism (35) is provided with a dehumidifying port (15); the middle part of the dehumidifying mechanism (35) is provided with a dehumidifying fan (14).

4. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: the number of the blow-drying air knives (9) is more than two, and the blow-drying air knives are respectively and horizontally arranged above the inner parts of the ultrasonic rough washing tank (21), the ultrasonic cleaning tank (24) and the ultrasonic fine washing tank (27) at intervals.

5. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: the feeding device is characterized in that an upper surface of the feeding table (1) is provided with an upper pressing driving wheel (3), an upper pressing driven wheel (16) is arranged on an upper surface of the discharging table (17), an upper pressing track (11) is transversely arranged between the upper pressing driving wheel (3) and the upper pressing driven wheel (16), upper pressing guide wheels (10) are arranged on the upper pressing track (11) at intervals, an upper pressing belt (36) is wound among the upper pressing driving wheel (3), the upper pressing guide wheels (10) and the upper pressing driven wheel (16), and a material conveying channel is reserved between the lower surface of the bottom of the upper pressing belt (36) and the upper surface of the conveying net belt (34).

6. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: the middle part of the feeding table (1) is hung with a slag collecting basket (18).

7. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: and adjusting feet (25) are arranged at intervals at the bottom of the transmission frame body (23).

8. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: the side walls of the bottom tank bodies of the ultrasonic rough washing tank (21), the ultrasonic cleaning tank (24) and the ultrasonic fine washing tank (27) are provided with cleaning ports (26).

9. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: the outer periphery of the transmission frame body (23) is wrapped with an outer cover (12) made of plastic or metal, and a transparent observation window (4) is arranged on the side wall of the outer cover (12).

10. The post-chamfering ultrasonic cleaning and drying line for neodymium iron boron according to claim 1, wherein: the electric input ends of the ultrasonic rough washing tank (21), the ultrasonic cleaning tank (24), the ultrasonic fine washing tank (27), the strong wind blow-drying mechanism (28) and the mesh belt driving motor (31) are respectively connected with the electric control cabinet (2) through circuits.