子母雙筒洗衣機結構設計含19張CAD圖.zip
子母雙筒洗衣機結構設計含19張CAD圖.zip,子母,雙筒,洗衣機,結構設計,19,CAD
See discussions stats and author profiles for this publication at Method for determining loads in clothes washing machines Patent July 2013 CITATIONS 0 READS 5 2 authors including Marcelo Andrade Dias Ingersoll Rand United States Minnesota 1 PUBLICATION 0 CITATIONS SEE PROFILE All content following this page was uploaded by Marcelo Andrade Dias on 12 January 2017 The user has requested enhancement of the downloaded file 12 United States Patent Petronilho et al US008489358B2 US 8 489 358 B2 Jul 16 2013 10 Patent N0 45 Date of Patent 54 METHOD FOR DETERMINING LOADS IN CLOTHES WASHING MACHINES 76 Inventors Andre Petronilho Sao Carlos BR Marcelo Andrade Dias Rio Claro BR Notice Subject to any disclaimer the term of this patent is extended or adjusted under 35 U S C 154 b by 59 days 21 App1 No 12 964 328 22 Filed Dec 9 2010 65 Prior Publication Data US 2011 0202303 A1 Aug 18 2011 30 Foreign Application Priority Data Dec 9 2009 BR 0905317 51 Int Cl G01P 15 00 2006 01 G01P 3 00 2006 01 G01P 11 00 2006 01 D06F 33 00 2006 01 D06F 33 02 2006 01 52 US Cl USPC 702 145 702 141 702 146 68 1202 68 12 04 58 Field of Classi cation Search USPC 702 33 34 142 145 146 68 1201 68 1202 12 04 12 06 12 16 See application le for complete search history 56 References Cited U S PATENT DOCUMENTS 5 241 845 A 9 1993 Ishibashi et 31 6 038 724 A 3 2000 Chbat et a1 6 505 369 B1 l 2003 Weinmann 8 159 7 162 759 B2 l 2007 Weinmann 7 296 445 11 2007 Zhang et a1 7 739 764 6 2010 8 186 227 5 2012 Ashrafzadeh 73 760 cited by examiner Primary Examiner Michael Nghiem Assistant Examiner Ricky Ngon 74 Attorney Agent or Firm Brian Colandreo Jeffrey T Placker Holland E2 Acceleration of the mobile assembly until the mobile assembly reaches a medium rotation speed faster than the speed in the rst step El E3 Deceleration E4 Acceleration of the mobile assembly and measurement of the engine current E5 Measurement Whereby param eters regarding the engine are measured E6 Shutdown of the engine and measurement of the deceleration time E7 Repetition Whereby the forth E4 fth E5 and sixth E6 steps are repeated at least once before the performance of the eighth step E8 E8 Calculation of the average of each one of the parameters measured in the fourth fth sixth and seventh steps and E9 Obtainment of clothes load value 10 Claims 5 Drawing Sheets Accelexncion o the venue eelembly until it r ache e low epeea Aceeieutien of the mobile assembly untu it reaches a medium peea Shutdown of the engine Acceleration DC the mobile assembly until 11 reaches a low speed Measurement of the parameters relating to the engane Acceleration of the mobile assembly urn 11 it reaches a medium speed Shutdown ot the engine and measurement at the deceleration time Repetition or steps E4 B5 B5 and s1 Calculation or the average ct the parameters obtained at the repetition etep Obtainment e the clothes load value based en the values obtained during the R10 eighth step 1 US Patent Jul 16 2013 Sheet 1 015 US 8 489 358 B2 Start Acceleration of the mobile assembly until it reaches a low speed E1 Acceleration of the mobile assembly until it reaches a medium speed k E2 I Shutdown of the engine Acceleration of the mobile assembly until 11 reaches a low speed 54 Measurement of the parameters relating to engine E5 Acceleration of the mobile assembly until it reaches a medium speed E6 Shutdown of the engine and measurement of the deceleration time i Repetition of steps E4 E5 E6 and E7 E8 1 Calculation of the average of the parameters obtained at the repetition E9 step FIG 1 V Obtainment of the clothes load value based on the values obtained during the E10 eighth step US Patent FIG 2 Jul 16 2013 Sheet 2 of5 US 8 489 358 B2 1 Start Acceleration of the mobile assembly until it reaches a low speed Acceleration of the mobile assembly until it reaches a medium speed Shutdown of the engine Measurement of the parameters relating to the engine V Acceleration of the mobile assembly until it reaches a medium speed V Shutdown of the engine and measurement of the deceleration time E7 l Repetition of steps E5 E6 and E7 V Calculation of the average of the parameters obtained at the repetition E9 step Obtainment of the clothes load value based on the values obtained during the E10 eighth step US Patent Jul 16 2013 Sheet 3 of5 US 8 489 358 B2 Washing Machine Horizontal axis Vertical axis r m M Stirrer FIG 3 US Patent Jul 16 2013 Sheet 4 of5 US 8 489 358 B2 1111111111 11111111 1 I Ellllii lllllill m 4 FIG A Rotation speed RPM 165 H 55 3 Time 9 Applying voltage Deceleration Time 5 FIG US Patent Jul 16 2013 Sheet 5 of5 US 8 489 358 B2 Engine Current Voltage supply Control Module Temoerature Enaine Temperature Deceleration Time FIG 6 US 8 489 358 B2 1 METHOD FOR DETERMINING LOADS IN CLOTHES WASHING MACHINES FIELD OF THE INVENTION The present inventions refers to a method for determining loads in clothes Washing machines Which based on the opera tional parameters of the electronic engine of said Washing machine determines the clothes load BACKGROUND OF THE INVENTION Methods for measuring or estimating the load in a clothes Washing machine are frequently found in the state of the art These methods are of paramount importance as through the measurement of the clothes load it is possible to program the Washing time and quantity of Water used for the operations of a Washing machine more precisely Consequentially it is also possible to save Water and electrical energy Which has been a frequent and common concern With many technological developments not just those Which belong to the same eld as the present invention Besides introducing advantages from an economic vieW point the methods of load measurement of the state of the art have been used together With control systems to automate operations of the Washing machine bringing practical advan tages to the user As an example of the state of the art for a method of load measurement for Washing machines patent document US Pat No 5 241 845 may be cited This document describes a method Which estimates the clothes load in Washing machines from the measurement of the difference of phase angle betWeen the engine current phase and the voltage sup ply phase of the same Thus this document sustains that the decrease of the difference of the phase angle is proportional to the potency of the engine As such considering that the engine potency is proportional to the volume of clothes to be Washed the changing of the phase angles is associated With the quantity of clothes in the basket of the Washing machine Beyond this measurement characteristic the method described in this US document uses other variables to auto mate the operation of the Washing machine such as type of clothes volume of detergent type of detergent transparency of the Water and temperature of the Water There is at least one sensor and at least one circuit associated to each of these variables As such the method combines these variables through a neural network to achieve the objective of control ling the Washing operations of the Washing machine As you can see the method described in this patent US Pat No 5 241 845 takes many variables beyond the clothes load into consideration to automate the operation of the Wash ing machine Although these other variables bring advantages to the consumer the implementation cost of this method is high considering the number of components necessary to measure and deal With the variables Another example of the state of the art is contained in patent document US Pat No 6 038 724 This document describes a method Which estimates the clothes load in a Washing machine from variables of position and speed More speci cally the method calculates the clothes load s moment of inertia based on the acceleration of the mobile assembly in this case stirrer and the engine phase angle Throughout the text of document US Pat No 6 038 724 it is stated that the method described requires a simple system of sensors and a controller for its viability HoWever despite the method being able to be implemented through loW cost com ponents it should be noted that the calculation of the moment 20 25 30 35 40 45 50 55 60 65 2 of inertia presented by this document does not take into con sideration that the load distribution Within the mobile assem bly in uences the value Which this quantity adopts Besides this the fact that other factors can in uence the acceleration of the mobile assembly such as for example the temperature of the engine is also not taken into consideration Therefore the load estimate that does not take into account these char acteristics of the moment of inertia is imprecise and there fore needs to be improved in order to be employed success fully by those skilled in the art In this sense it should be noted that the state of the art still does not include a method for the estimation of clothes load Which is e icient and at the same time has loW implemen tation cost Objectives of the Implementation Therefore providing a method to measure the clothes load in a Washing machine Which is ef cient reliable and robust While being loW cost is an objective of the present invention SUMMARY OF THE INVENTION The objectives of the present invention are achieved through a method of load measurement in Washing machines Which comprises the folloWing steps acceleration of the mobile assembly of the Washing machine until the mobile assembly reaches a loW rotation speed acceleration of the mobile assembly until the mobile assembly reaches a medium rotation speed faster than the speed of the rst step shutdoWn of the engine Whereby the engine Which turns the mobile assembly is turned off acceleration of the mobile assembly until it reaches a loW speed Whereby the speed of the engine Which turns the mobile assembly is increased up to a pre determined rotation speed limit measurement Whereby parameters relative to the engine are measured acceleration of the mobile assembly until it reaches a medium speed Whereby the engine current is measured shutdoWn of the engine and measurement of the deceleration time Whereby said engine is turned off and turns through inertia and the time spent from the shutdoWn up to a pre determined minimum speed limit is reached is measured repetition Whereby the folloWing steps are repeated at least once acceleration of the mobile assembly until it reaches a loW rotation speed mea surement acceleration of the mobile assembly until it reaches a medium speed and shutdoWn of the engine and measure ment of the deceleration time calculation of the average of each one of the parameters measured in the previous step and obtainment of the clothes load value based on the values obtained in the previous step BRIEF DESCRIPTION OF THE DRAWINGS The gures shoW FIG liA owchart that illustrates the rst preferential embodiment of the method of the present invention FIG 2iA oWchart that illustrates the second preferential embodiment of the method of the present invention FIG 3iThe types of Washing machine upon Which the method of the present invention may be implemented FIG 4iA sectional vieW of a Washing machine With a vertical axis FIG SiA graphic Which represents the behavior of the engine in terms of rotation speed in relation to time in the fth and sixth steps of the method of the present invention and FIG 6iA diagram of the basic architecture of the neural netWork used in one of the embodiments of the present inven tion US 8 489 358 B2 3 DETAILED DESCRIPTION OF THE INVENTION As you can see from FIG 3 the types of Washing machine to Which the present invention can be applied are illustrated Preferably but not exclusively the method of the present invention is applied to a Washing machine With a vertical axis 6 as Well as those Which possess stirrer 2 or impeller 3 In this respect to support the description of the method of the present invention a conventional Washing machine shall be brie y described based on FIG 4 A conventional Washing machine Which may bene t from the method for determining loads of the present invention comprises basically a mobile assembly an engine 5 a source of poWer for the engine and a control module The mobile assembly for the purposes of this invention may consist of a basket 1 and on the machines With a vertical axis 6 by a stirrer 2 or impeller 3 located Within a tank 4 The basket is the component of the Washing machine in Which the clothes are arranged for the realiZation of Washing Besides this the basket may be associated With an electric engine 5 so as to move angularly in order to centrifuge the garments inside and therefore remove the excess of Water from the clothes via holes existing on its side Wall Which accelerate the drying process The tank on its part is a reservoir in Which Water detergents and other products related to Washing clothes are added Besides this the stirrer is generally elon gated and the impeller has the format of a plate With protru sions With it being that both project from the base of the basket 1 in an upWards direction also being able to be asso ciated to an electric engine 5 in order to move angularly and promote the friction betWeen the items of clothing inside the basket In this respect therefore it should be understood that the term mobile assembly used throughout the description of the invention refers to the parts of the clothes Washing machine Which move and may be depending on the model of the Washing machine the basket and the stirrer 2 or impeller 3 On its part the engine 5 in the case of an electric engine is responsible for moving the mobile assembly In the context of the present invention the electric engine 5 is a conventional Washing machine engine The engine s source of poWer is preferably the electrical energy netWork nevertheless it may be comprised by other means of poWer Which are not the electrical energy netWork and Which meet the speci cations of the engine The engine control module on the other hand comprises a control circuit to control the starting the opera tion and the stopping of the engine based on the Washing functions of the Washing machine Besides this the control module comprises means for storing variables and param eters shoWn for the performing of procedures and functions Which involve for example the regulation of the amount of Water present in the basket or even the time necessary for each operation of the Washing machine In the case of the present invention the control module is additionally respon sible for the control and execution of the steps provided Which involves beyond the control of the operation itself the performance of calculations acquisition of parameters and provision of an exit i e the availability of the clothes load present in the Washing machine The conventional Washing machines may furthermore comprise means Which Will transmit the engine rotation 5 to the mobile assembly these means comprising generally a belt Since the invention has been put into context beloW its preferential embodiments shall be explained based on the Figures 20 25 30 35 40 45 50 55 60 65 4 Initially considering that a user adds a given amount of clothes to the inside of the basket of the Washing machine and selects one of the Washing options of the machine the method of the present invention is activated by actuating the control module preferably before the start of the actual Washing of clothes As such bearing in mind that some small items of clothing may be throWn out of the basket due to being only slightly Wet or covered only slightly by Water the method of the present invention provides in its rst step El a constant increase of Water over the clothes As such the rst step El comprises an acceleration of the mobile assembly from the pause until it reaches a loW rota tion speed preferably betWeen 25 and 50 rpm With it being that as the mobile assembly is being accelerated a given quantity of Water around 2 liters is poured over the clothes Thus any small item of clothing being eventually throWn out of the basket is avoided Despite preferential rotational speed values and volumes of Water being cited it should be under stood that these values may vary depending on the type of engine being used or furthermore depending on other project variables After avoiding the problem With the small items of cloth ing the method of the present invention continues to the second step E2 in Which the mobile assembly is again accel erated hoWever this time up to a medium rotation speed preferably betWeen 150 and 200 rpm this medium speed being faster than the speed of the rst step E1 The objective of spinning the mobile assembly to this medium speed is to disperse the clothes around the basket in order to improve the distribution of the load and consequentially minimize the variations at the moment of inertia of this load The variations at the moment of inertia of the load prejudice the precise measurement of the parameters to be used in the present invention since the moment of inertia of the load in uences the rotation and acceleration of the engine as for example a large moment of inertia causes a sloWer acceleration Since the load is duly immersed in Water and distributed in a more uniform Way the engine that turns the mobile assem bly is turned off causing the mobile assembly to decelerate until it stops This deceleration corresponds to the third step E3 of the method of the present invention In the forth step E4 of the method of the present invention the mobile assembly is again accelerated up to a loW rotation speed preferably betWeen 25 and 50 rpm this is done so that the mobile assembly leaves the stationary state and ignores the static friction Which may generate more noise in the measurements Besides this for the application of the method of the present invention to machines in Which the coupling betWeen the mechanism and the axis of the engine is done by an actuator this step E4 of acceleration of the mobile assem bly until a loW speed is reached may be eliminated The objective of imposing a loW speed upon the mobile assembly is to verify Whether the mechanism is correctly engaged FIG 2 illustrates the second preferential embodiment of the present invention In the fth step E5 of the method the parameters relating to the engine are measured This measurement occurs during the acceleration E4 of the mobile assembly at a loW speed being described here as a separate step With the objective of clari fying the explanation of the functioning of the invention In the embodiment of the invention that does not use the accel eration step E4 of the mobile assembly to a loW speed the measurement is done With the engine stopped Which occurs after the step of engine shutdoWn E3 As you can see the present invention does not perform the measurement or calculation at the moment of inertia of the clothes load directly and it indeed measures the amount of US 8 489 358 B2 5 energy spent by the engine to accelerate the mobile assembly With the load inside from a lower to a higher speed With the energy being obtained by measuring the engine current With a constant sampling rate and summing this current While the engine is accelerating the mobile assembly until it reaches a desired speed In this step the parameters measured by sensors present in the machine are line voltage engine temperature and engine control module temperature In the folloWing steps the engine current and the deceleration time of the mobile assembly are to be measured to compose the entry variables necessary to the measurement of clothes load After having measured the parameters the mobile assem bly is again accelerated in the sixth step E6 of the present invention until a medium speed is reached In this step the speed of the engine that turns the mobile assembly is increased up to a pre determined rotation speed limit prefer ably around l70 rpm but other speeds may be used depending on the necessities of the application More precisely in the sixth step E6 the engine is acceler ated from a loW
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編號:5328751
類型:共享資源
大?。?span id="d2qpua1" class="font-tahoma">6.64MB
格式:ZIP
上傳時間:2020-01-20
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- 關 鍵 詞:
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子母
雙筒
洗衣機
結構設計
19
CAD
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子母雙筒洗衣機結構設計含19張CAD圖.zip,子母,雙筒,洗衣機,結構設計,19,CAD
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