CN205217490U - Temperature self -adaptation ultrasonic cleaner based on sensor - Google Patents
Temperature self -adaptation ultrasonic cleaner based on sensor Download PDFInfo
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- CN205217490U CN205217490U CN201520818812.7U CN201520818812U CN205217490U CN 205217490 U CN205217490 U CN 205217490U CN 201520818812 U CN201520818812 U CN 201520818812U CN 205217490 U CN205217490 U CN 205217490U
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Abstract
The utility model discloses a temperature self -adaptation ultrasonic cleaner based on sensor belongs to the cleaning machine field, include: the casing, the amortization that is located the casing top is covered to and the business turn over water valve, cleaning water tank, supersonic generator, ultrasonic transducer, controller, temperature sensor, refrigerating plant, heating device are located inside the casing, wherein, refrigerating plant includes water cooling system and air -cooled system, and heating device is for connecting in parallel at the heating resistor wire of cleaning water tank lower surface. The utility model discloses an inside water temperature of the current ultrasonic cleaner of temperature sensor determine, controller receiving sensor's the signal and the control signal of production response to selection heating or system cold die formula, real -time detection can maintain the error range who sets for the temperature value with control messenger ultrasonic cleaner inslot water temperature in, equipment structure is simple, convenient to use, labour saving and time saving.
Description
Technical field
The utility model relates to cleaning machine field, is specifically related to a kind of sensor-based temperature self-adaptation supersonic wave cleaning machine.
Background technology
Supersonic wave cleaning machine is biochemical, physics, chemistry, medical science, be used as in the experiment of scientific research and universities and colleges to extract, degassed, mixing, cell pulverization, the common instrument that nanometer is decomposed, also be widely used in Family Day use simultaneously, the optical instrument cleanings such as glasses, the fields such as the precision instruments such as clock and watch are clean, it is good that supersonic wave cleaning machine has cleaning performance, advantage simple to operate, the cleaning performance that object is comprehensively clean can be reached, especially to deep hole, blind hole, tongue and groove cleaning is optimal equipment, do not affect material and the precision of any object, this is also the main cause that increasing industry and enterprise use supersonic wave cleaning machine.
The cardinal principle of Ultrasonic Cleaning is by high frequency oscillation, makes liquid produce a large amount of minute bubbles, the mutual collisional breakage of bubble, the acoustic cavitation effect that the impulsive force of bad student makes bubble collapse due to unbalance stress to cause; But produce shock wave when bubble closes in ultrasonic cavitation process, certain fuel factor can be produced in this expansion, closing course, the temperature in cleaning process in cleaning sink often can be changed and cause temperature to produce larger deviation along with scavenging period constantly increases with the demand temperature pre-set; Usually mechanically controlled switch is adopted to change setting cleaning temperature in current existing ultrasonic cleaning equipment, thus again recover temperature required after overcoming temperature deviation, this method accurately can not control cleaning temperature, regulates required time long, operation inconvenience, needs operator to guard adjustment at any time.
Utility model content
The purpose of this utility model overcomes above-mentioned the deficiencies in the prior art, a kind of sensor-based temperature self-adaptation supersonic wave cleaning machine is provided, by temperature sensor, controller, solve in the supersonic wave cleaning machine course of work with the problem that scavenging period increase cleaning temperature fluctuates up and down based on the principle automatically controlled.
For achieving the above object, the technical scheme that the utility model adopts is: sensor-based temperature self-adaptation supersonic wave cleaning machine, comprise housing, be positioned at the noise reduction lid of case top, and inlet/outlet valve, cleaning sink, supersonic generator, ultrasonic transducer, controller, temperature sensor, refrigerating plant, heater are positioned at described enclosure interior, wherein, described inlet/outlet valve is connected with cleaning sink and stretches out from housing, described temperature sensor is arranged on cleaning sink lower surface center, described heater is distributed in cleaning sink lower surface, described refrigerating plant comprises water-cooling system and air cooling system, described water-cooling system is close to cleaning sink outer surface, described air cooling system is distributed in supersonic generator described in inner walls and is connected with described ultrasonic transducer and is located at the below of described cleaning sink, described controller is arranged on described inner walls, respectively with described supersonic generator, described ultrasonic transducer, described temperature sensor, refrigerating plant, heater connects.
Temperature sensor is for detecting current ultrasonic cleaning machine internal water temperature, and the signal of controller receiving sensor also produces the control signal of response, thus selects heating or refrigeration mode; When the water temperature that temperature sensors detects is higher than set-point temperature, supersonic wave cleaning machine temperature self-adaptation system opens refrigeration mode, the condenser pipe being close to lower surface installation in Ultrasonic Cleaning trough or the mini-fan being arranged on inner walls are started working, and reduce trough inner water temperature by water-cooled or air-cooled cooling; When the water temperature that temperature sensors detects is lower than set-point temperature, supersonic wave cleaning machine temperature self-adaptation system opens heating mode, be close to the heating wire that in Ultrasonic Cleaning trough, lower surface is installed and be electrified stream, start working and raise trough inner water temperature.
Above-mentioned sensor-based temperature self-adaptation supersonic wave cleaning machine, described refrigerating plant is independent water-cooling system, or with air cooling system cooperation.
Above-mentioned sensor-based temperature self-adaptation supersonic wave cleaning machine, described water-cooling radiating module is the condenser pipe being coiled in cleaning sink outer surface.
Above-mentioned sensor-based temperature self-adaptation supersonic wave cleaning machine, described air cooling system is the mini-fan of more than three being evenly distributed on inner walls.
Above-mentioned sensor-based temperature self-adaptation supersonic wave cleaning machine, described heater is the heating resistance wire electrified regulation in parallel that distribution is centered around cleaning sink lower surface.
The beneficial effects of the utility model: application of temperature sensor, controller, based on stablizing of temperature during the principle maintenance supersonic wave cleaning machine work automatically controlled, real-time detection with control supersonic wave cleaning machine trough inner water temperature can be maintained in the error range of set temperature value in real time, device structure is simple, easy to use, time saving and energy saving.
Further, the utility model refrigerating plant adopts independent water-cooling radiating module or water-cooled, air cooling module acting in conjunction, can select as required to select individually or simultaneously; The multiple stage mini-fan of the many rows condensate pipe and supersonic wave cleaning machine inner walls that are coiled in cleaning sink outer surface all adopts the effect of being installed in parallel, and reduces cleaning temperature fast to setting value, effectively improves the accuracy of subsequent experimental result.
Accompanying drawing explanation
Below with reference to embodiment and accompanying drawing, the utility model is described in further details.
Fig. 1 is the structural representation of the utility model embodiment 1;
Fig. 2 is the structural representation of the utility model embodiment 2;
Fig. 3 is the utility model temperature self-adaptation Systems Theory flow chart;
Description of reference numerals: 1, cleaning sink; 2, supersonic generator; 3, ultrasonic transducer; 4, controller; 5, temperature sensor; 6, housing; 7, condenser pipe; 8, heater; 9, inlet/outlet valve; 10, noise reduction lid; 11, mini-fan.
Detailed description of the invention
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail.
Embodiment 1
As shown in Figure 1, sensor-based temperature self-adaptation supersonic wave cleaning machine, comprise: housing 6, be positioned at the noise reduction lid 10 at housing 6 top, and inlet/outlet valve 9, it is inner that cleaning sink 1, supersonic generator 2, ultrasonic transducer 3, controller 4, temperature sensor 5, refrigerating plant, heater 8 are positioned at housing 6, inlet/outlet valve 9 is connected with cleaning sink 1 and stretches out from housing 6, wherein: temperature sensor 5 is arranged on cleaning sink 1 lower surface center, water temperature change in cleaning sink 1 is used for accurately detecting; Refrigerating plant comprises water-cooling system and air cooling system, and water-cooling system is close to cleaning sink 1 outer surface, and preferably, water-cooling system is condenser pipe 7, and it is peripheral that it is coiled in described cleaning sink 1; Air cooling system can be mini-fan 11, is evenly distributed on housing 6 inwall, is at least three; Heater 8 is distributed in the lower surface of Rinsing Area 1, and preferably, heater 8 is heating resistance wire; Supersonic generator 2 is connected with ultrasonic transducer 3 and is located at the below of cleaning sink 1; Controller 4 is arranged on housing 6 inwall, is connected respectively with described supersonic generator 2, ultrasonic transducer 3, temperature sensor 5, refrigerating plant, heater.
As shown in Figure 3, supersonic wave cleaning machine is started working under the working time and temperature conditions of setting, along with the increase of scavenging period, when the current ultrasonic cleaning machine internal water temperature that temperature sensor 5 detects is higher than set-point temperature, controller 4 receives the signal of temperature sensor 5 and produces corresponding control signal, supersonic wave cleaning machine temperature self-adaptation system opens refrigerating plant, water-cooling system and air cooling system are started working, concrete, condenser pipe 7 and mini-fan 11 reduce trough inner water temperature by water-cooled and air-cooled cooling collaborative work; When the water temperature that temperature sensor 5 detects is lower than set-point temperature, supersonic wave cleaning machine temperature self-adaptation system opens heater 8, heating resistance wire is electrified stream, start working and raise trough inner water temperature, finally, detected in real time by temperature sensor 5 and control water temperature in supersonic wave cleaning machine cleaning sink 1 can be maintained in the error range of set temperature value in real time, effectively improve the accuracy of subsequent experimental result, structure is simple, easy to operate.
Embodiment 2
As shown in Figure 2, on the basis of embodiment 1, close the air cooling system in refrigerating plant, independent water-cooling system is adopted to lower the temperature, selectively the measure that cools can be carried out like this according to the temperature height of the required setting of cleaning, when design temperature is lower and variations in temperature error range is less, adopts independent condenser pipe 7 to reach refrigeration, under identical effect, obviously save energy consumption.
The above is advantageous applications example of the present utility model, is not limitation of the utility model, and every simple modification, structure change change made according to the utility model technical essential all belongs within protection domain of the present utility model.
Claims (5)
1. sensor-based temperature self-adaptation supersonic wave cleaning machine, it is characterized in that: comprise housing (6), be positioned at the noise reduction lid (10) at housing (6) top, and inlet/outlet valve (9), it is inner that cleaning sink (1), supersonic generator (2), ultrasonic transducer (3), controller (4), temperature sensor (5), refrigerating plant, heater (8) are positioned at described housing (6); Wherein, described inlet/outlet valve (9) is connected with cleaning sink (1) and stretches out from housing (6), described temperature sensor (5) is arranged on cleaning sink (1) lower surface center, described heater (8) is distributed in cleaning sink (1) lower surface, described refrigerating plant comprises water-cooling system and air cooling system, described water-cooling system is close to cleaning sink (1) outer surface, and described air cooling system is distributed in housing (6) inwall; Described supersonic generator (2) is connected with described ultrasonic transducer (3) and is located at the below of described cleaning sink (1), described controller (4) is arranged on described housing (6) inwall, is connected respectively with described supersonic generator (2), ultrasonic transducer (3), temperature sensor (5), refrigerating plant, heater (8).
2. sensor-based temperature self-adaptation supersonic wave cleaning machine according to claim 1, is characterized in that: described refrigerating plant can be independent water-cooling system, or with air cooling system cooperation.
3. sensor-based temperature self-adaptation supersonic wave cleaning machine according to claim 2, is characterized in that: described water-cooling system is for being coiled in the condenser pipe (7) of described cleaning sink (1) outer surface.
4. sensor-based temperature self-adaptation supersonic wave cleaning machine according to claim 2, is characterized in that: described air cooling system is for being evenly distributed on the mini-fan (11) of more than three of housing (6) inwall.
5. sensor-based temperature self-adaptation supersonic wave cleaning machine according to claim 1, is characterized in that: described heater (8) is centered around the heating resistance wire electrified regulation in parallel of cleaning sink (1) lower surface for distribution.
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CN201520818812.7U CN205217490U (en) | 2015-10-22 | 2015-10-22 | Temperature self -adaptation ultrasonic cleaner based on sensor |
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CN201520818812.7U CN205217490U (en) | 2015-10-22 | 2015-10-22 | Temperature self -adaptation ultrasonic cleaner based on sensor |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106391564A (en) * | 2016-10-21 | 2017-02-15 | 于日升 | Protection method for transducers of ultrasonic cleaning machine |
CN106607371A (en) * | 2015-10-22 | 2017-05-03 | 西安品质信息科技有限公司 | Temperature self-adaption ultrasonic washing machine based on sensor |
CN107470264A (en) * | 2017-08-18 | 2017-12-15 | 天津市圣信唯科技有限公司 | A kind of ultrasonic cleaning machine of the variable more power conversions of novel belt cooler multi-frequency |
-
2015
- 2015-10-22 CN CN201520818812.7U patent/CN205217490U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106607371A (en) * | 2015-10-22 | 2017-05-03 | 西安品质信息科技有限公司 | Temperature self-adaption ultrasonic washing machine based on sensor |
CN106391564A (en) * | 2016-10-21 | 2017-02-15 | 于日升 | Protection method for transducers of ultrasonic cleaning machine |
CN107470264A (en) * | 2017-08-18 | 2017-12-15 | 天津市圣信唯科技有限公司 | A kind of ultrasonic cleaning machine of the variable more power conversions of novel belt cooler multi-frequency |
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Date | Code | Title | Description |
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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: 20160511 Termination date: 20161022 |