CN204486375U - The transition mechanism of soft magnetic ferrite supersonic wave cleaning machine - Google Patents
The transition mechanism of soft magnetic ferrite supersonic wave cleaning machine Download PDFInfo
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- CN204486375U CN204486375U CN201520035242.4U CN201520035242U CN204486375U CN 204486375 U CN204486375 U CN 204486375U CN 201520035242 U CN201520035242 U CN 201520035242U CN 204486375 U CN204486375 U CN 204486375U
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- Prior art keywords
- conveyer belt
- soft magnetic
- magnetic ferrite
- transition mechanism
- supersonic wave
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Abstract
The utility model discloses a kind of transition mechanism of soft magnetic ferrite supersonic wave cleaning machine, be located in frame, supersonic wave cleaning machine is for cleaning soft magnetic ferrite, supersonic wave cleaning machine comprises the spraying mechanism be successively set in frame, ultrasonic cleaning agency and the wind cutting mechanism for soft magnetic ferrite is dried, ultrasonic cleaning agency comprises the first conveyer belt for carrying soft magnetic ferrite be located in frame, wind cutting mechanism comprises the second conveyer belt for carrying soft magnetic ferrite be located in frame, this transition mechanism, be located between ultrasonic cleaning agency and wind cutting mechanism, for soft magnetic ferrite is transported to the second conveyer belt from the first conveyer belt.The transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine of the utility model, only can send the soft magnetic ferrite after cleaning into wind cutting mechanism and blow oven dry, save processing cost while saving energy consumption.
Description
Technical field
the utility model relates to a kind of transition mechanism of soft magnetic ferrite supersonic wave cleaning machine.
Background technology
at present, generally adopt crawler type supersonic wave cleaning machine to clean soft magnetic ferrite in soft magnetic ferrite production industry.In cleaning process, first soft magnetic ferrite cleans through spraying mechanism and ultrasonic cleaning agency along conveying conveyer belt, and then enters in wind cutting mechanism and blow oven dry.
wind cutting mechanism has also dried the conveying conveyer belt of conveying soft magnetic ferrite after drying cleaning while soft magnetic ferrite, energy consumption is comparatively large, also just increases the production and processing cost of soft magnetic ferrite cleaning.
Utility model content
the purpose of this utility model is to provide a kind of transition mechanism of soft magnetic ferrite supersonic wave cleaning machine, only the soft magnetic ferrite after cleaning can be sent into wind cutting mechanism and blow oven dry, save energy consumption, saved processing cost by this transition mechanism.
for achieving the above object, the technical solution adopted in the utility model is:
a kind of transition mechanism of soft magnetic ferrite supersonic wave cleaning machine, be located in frame, supersonic wave cleaning machine is for cleaning soft magnetic ferrite, described supersonic wave cleaning machine comprises the spraying mechanism be successively set in described frame, ultrasonic cleaning agency and the wind cutting mechanism for soft magnetic ferrite is dried, described ultrasonic cleaning agency comprises the first conveyer belt for carrying soft magnetic ferrite be located in described frame, described wind cutting mechanism comprises the second conveyer belt for carrying soft magnetic ferrite be located in described frame, described transition mechanism, be located between described ultrasonic cleaning agency and described wind cutting mechanism, for soft magnetic ferrite is transported to described second conveyer belt from described first conveyer belt.
preferably, described transition mechanism comprises the 3rd conveyer belt, the magnetic part be fixedly arranged in described frame, described magnetic part is positioned at the top of described 3rd conveyer belt, the two ends of described 3rd conveyer belt lay respectively at the top of described first conveyer belt and described second conveyer belt, the two ends of described magnetic part also lay respectively at the top of described first conveyer belt and described second conveyer belt, the length being shorter in length than described 3rd conveyer belt of described magnetic part.
more preferably, the lower surface of described magnetic part is fitted on the upper surface of described 3rd conveyer belt.
preferably, described first conveyer belt and described second conveyer belt are positioned at same plane.
preferably, described transition mechanism also comprise dismountable be located in described frame for the water droplet of soft magnetic ferrite lower surface is blown off the first air knife, be used for for described first air knife air feed air pump, described first air knife is positioned at the below of described 3rd conveyer belt.
more preferably, described transition mechanism also comprises the heater for heating air in described air pump.
more preferably, described transition mechanism also comprises the control valve for regulating described first air knife air output.
more preferably, described transition mechanism also comprise be located at below described 3rd conveyer belt liquid collecting drainage arrangement.
due to the utilization of technique scheme, the utility model compared with prior art has following advantages: the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine of the utility model, only the soft magnetic ferrite after cleaning can be sent into wind cutting mechanism by this transition mechanism and blow oven dry, while saving energy consumption, save processing cost.
Accompanying drawing explanation
accompanying drawing 1 is the structural representation of the utility model transition mechanism.
wherein: 1, frame; 2, spraying mechanism; 3, ultrasonic cleaning agency; 31, the first conveyer belt; 4, wind cutting mechanism; 41, the second conveyer belt; 5, transition mechanism; 51, the 3rd conveyer belt; 52, magnetic part; 53, the first air knife.
Detailed description of the invention
below in conjunction with accompanying drawing, the technical solution of the utility model is further elaborated.
shown in Figure 1, the transition mechanism 5 of above-mentioned a kind of soft magnetic ferrite supersonic wave cleaning machine, be located in frame 1, supersonic wave cleaning machine is for cleaning soft magnetic ferrite.
this supersonic wave cleaning machine comprises the spraying mechanism 2 be successively set in frame 1, ultrasonic cleaning agency 3 and the wind cutting mechanism 4 for being dried by soft magnetic ferrite.
this spraying mechanism 2 comprises two spray grooves, and two spray grooves are located at the both sides of ultrasonic cleaning agency 3 along feed direction respectively.
ultrasonic cleaning agency 3 comprises the first conveyer belt 31 for carrying soft magnetic ferrite be located in frame 1, wind cutting mechanism 4 comprises the second conveyer belt 41 for carrying soft magnetic ferrite be located in frame 1, and transition mechanism 5 is located between ultrasonic cleaning agency 3 and wind cutting mechanism 4.
in the present embodiment, the first conveyer belt 31 and the second conveyer belt 41 are distributed in same level.
the two ends of the 3rd conveyer belt the 51, three conveyer belt 51 that above-mentioned transition mechanism 5 comprises for being transported to the second conveyer belt 41 from the first conveyer belt 31 by soft magnetic ferrite lay respectively at the top of the first conveyer belt 31 and the second conveyer belt 41.
transition mechanism 5 also comprises the magnetic part 52 be fixedly arranged in frame 1, and this magnetic part 52 is positioned at the top of the 3rd conveyer belt 51.In the present embodiment, the lower surface of magnetic part 52 is fitted on the upper surface of the 3rd conveyer belt 51 substantially.The two ends of this magnetic part 52 also lay respectively at the top of the first conveyer belt 31 and the second conveyer belt 41, and the length of magnetic part 52 is slightly shorter than the length of the 3rd conveyer belt 51.
by above-mentioned setting, soft magnetic ferrite from the first conveyer belt 31 close to the 3rd conveyer belt 51 time, be adsorbed on the lower surface of the 3rd conveyer belt 51 by magnetic part 52,3rd conveyer belt 51 continues to run, when soft magnetic ferrite is close to the second conveyer belt 41, soft magnetic ferrite departs from the adsorption range of magnetic part 52, falls on the second conveyer belt 41.
this transition mechanism 5 also comprise dismountable be located in frame 1 for the water droplet of soft magnetic ferrite lower surface is blown off the first air knife 53, be used for be the first air knife 53 air feed air pump, be used for regulating the control valve of the first air knife 53 air output.This first air knife 53 is positioned at the below of the 3rd conveyer belt 51, by the setting of this first air knife 53, can carry out preliminary clearing up and processing to the globule of soft magnetic ferrite lower surface.
in the present embodiment, this transition mechanism 5 also comprise heater for heating air pump hollow gas, be located at below described 3rd conveyer belt 51 liquid collecting drainage arrangement.By arranging liquid collecting drainage arrangement, the drop collection blown off can be discharged.
the concrete course of work setting forth lower the present embodiment below:
first the charging aperture of the first conveyer belt 31 is connected on the discharging opening of grinding machine processing soft magnetic ferrite, and regulates the gait of march of the first conveyer belt 31, second conveyer belt 41, the 3rd conveyer belt 51 consistent.When soft magnetic ferrite is delivered to after on the first conveyer belt 31, be positioned at this soft magnetic ferrite of spray groove hydroblasting of the first conveyer belt 31 side, then ultrasonic cleaning agency 3 pairs of soft magnetic ferrites carry out ultrasonic oscillation cleaning, and the spray groove water spray being then positioned at the first conveyer belt 31 opposite side continues to rinse this soft magnetic ferrite.When soft magnetic ferrite from the first conveyer belt 31 close to the 3rd conveyer belt 51 time, soft magnetic ferrite is adsorbed on the 3rd conveyer belt 51 and advances by magnetic part 52, until after the second conveyer belt 41, soft magnetic ferrite departs from the adsorption range of magnetic part 52, fall on the second conveyer belt 41, wind cutting mechanism 4 blows air-dry processing to this soft magnetic ferrite subsequently.
above-described embodiment is only for illustrating technical conceive of the present utility model and feature; its object is to person skilled in the art can be understood content of the present utility model and be implemented; protection domain of the present utility model can not be limited with this; all equivalences done according to the utility model Spirit Essence change or modify, and all should be encompassed in protection domain of the present utility model.
Claims (8)
1. the transition mechanism of a soft magnetic ferrite supersonic wave cleaning machine, be located in frame, supersonic wave cleaning machine is for cleaning soft magnetic ferrite, described supersonic wave cleaning machine comprises the spraying mechanism be successively set in described frame, ultrasonic cleaning agency and the wind cutting mechanism for soft magnetic ferrite is dried, described ultrasonic cleaning agency comprises the first conveyer belt for carrying soft magnetic ferrite be located in described frame, described wind cutting mechanism comprises the second conveyer belt for carrying soft magnetic ferrite be located in described frame, it is characterized in that: described transition mechanism, be located between described ultrasonic cleaning agency and described wind cutting mechanism, for soft magnetic ferrite is transported to described second conveyer belt from described first conveyer belt.
2. the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine according to claim 1, it is characterized in that: described transition mechanism comprises the 3rd conveyer belt, the magnetic part be fixedly arranged in described frame, described magnetic part is positioned at the top of described 3rd conveyer belt, the two ends of described 3rd conveyer belt lay respectively at the top of described first conveyer belt and described second conveyer belt, the two ends of described magnetic part also lay respectively at the top of described first conveyer belt and described second conveyer belt, the length being shorter in length than described 3rd conveyer belt of described magnetic part.
3. the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine according to claim 2, is characterized in that: the lower surface of described magnetic part is fitted on the upper surface of described 3rd conveyer belt.
4. the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine according to claim 1, is characterized in that: described first conveyer belt and described second conveyer belt are positioned at same plane.
5. the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine according to claim 2, it is characterized in that: described transition mechanism also comprise dismountable be located in described frame for the water droplet of soft magnetic ferrite lower surface is blown off the first air knife, be used for for described first air knife air feed air pump, described first air knife is positioned at the below of described 3rd conveyer belt.
6. the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine according to claim 5, is characterized in that: described transition mechanism also comprises the heater for heating air in described air pump.
7. the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine according to claim 5, is characterized in that: described transition mechanism also comprises the control valve for regulating described first air knife air output.
8. the transition mechanism of a kind of soft magnetic ferrite supersonic wave cleaning machine according to claim 5, is characterized in that: described transition mechanism also comprise be located at below described 3rd conveyer belt liquid collecting drainage arrangement.
Priority Applications (1)
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CN201520035242.4U CN204486375U (en) | 2015-01-19 | 2015-01-19 | The transition mechanism of soft magnetic ferrite supersonic wave cleaning machine |
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CN201520035242.4U CN204486375U (en) | 2015-01-19 | 2015-01-19 | The transition mechanism of soft magnetic ferrite supersonic wave cleaning machine |
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CN201520035242.4U Expired - Fee Related CN204486375U (en) | 2015-01-19 | 2015-01-19 | The transition mechanism of soft magnetic ferrite supersonic wave cleaning machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104550118A (en) * | 2015-01-19 | 2015-04-29 | 张家港市科宇信超声有限公司 | Transition mechanism of soft magnetic ferrite ultrasonic cleaning machine |
CN106743448A (en) * | 2016-12-19 | 2017-05-31 | 江西尚朋电子科技有限公司 | A kind of soft magnetic ferrite multifunctional product sorts transition apparatus |
-
2015
- 2015-01-19 CN CN201520035242.4U patent/CN204486375U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104550118A (en) * | 2015-01-19 | 2015-04-29 | 张家港市科宇信超声有限公司 | Transition mechanism of soft magnetic ferrite ultrasonic cleaning machine |
CN106743448A (en) * | 2016-12-19 | 2017-05-31 | 江西尚朋电子科技有限公司 | A kind of soft magnetic ferrite multifunctional product sorts transition apparatus |
CN106743448B (en) * | 2016-12-19 | 2019-07-12 | 江西尚朋电子科技有限公司 | A kind of soft magnetic ferrite product sorting transition apparatus |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150722 Termination date: 20200119 |