CN103169436A - Solar ultrasonic dish-washing machine - Google Patents
Solar ultrasonic dish-washing machine Download PDFInfo
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- CN103169436A CN103169436A CN2013101421338A CN201310142133A CN103169436A CN 103169436 A CN103169436 A CN 103169436A CN 2013101421338 A CN2013101421338 A CN 2013101421338A CN 201310142133 A CN201310142133 A CN 201310142133A CN 103169436 A CN103169436 A CN 103169436A
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- hydraulic valve
- washing machine
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- 238000004851 dishwashing Methods 0.000 title claims abstract description 49
- 238000010438 heat treatment Methods 0.000 claims abstract description 88
- 238000005406 washing Methods 0.000 claims abstract description 42
- 230000005540 biological transmission Effects 0.000 claims abstract description 25
- 238000001035 drying Methods 0.000 claims abstract description 4
- 239000003795 chemical substances by application Substances 0.000 claims description 67
- 238000002604 ultrasonography Methods 0.000 claims description 37
- 238000005338 heat storage Methods 0.000 claims description 26
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 22
- 239000007788 liquid Substances 0.000 claims description 18
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- 230000000694 effects Effects 0.000 claims description 10
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- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 claims description 3
- 229910052782 aluminium Inorganic materials 0.000 claims description 3
- 239000004411 aluminium Substances 0.000 claims description 3
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- 238000010276 construction Methods 0.000 claims description 3
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- 238000007789 sealing Methods 0.000 claims description 3
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- XUIMIQQOPSSXEZ-UHFFFAOYSA-N Silicon Chemical compound [Si] XUIMIQQOPSSXEZ-UHFFFAOYSA-N 0.000 description 4
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- 239000012752 auxiliary agent Substances 0.000 description 1
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Abstract
The invention belongs to the field of solar energy and particularly relates to a solar ultrasonic dish-washing machine. According to the solar ultrasonic dish-washing machine, a solar outdoor machine provides heat and drives an ultrasonic generator to work; the solar outdoor machine comprises an energy collection system, a sunlight tracking system, an inherent safety system, a transmission system, a driving system and a function system. The solar ultrasonic dish-washing machine is one component of the function system, comprises a washing system, a heating system, a control system and a machine body system, and has full-automatic washing and drying functions. As a household appliance with a brand-new idea, the solar ultrasonic dish-washing machine adopts a moderate washing mode without a motor, rolling, abrasion and any washing agent, integrates high-grade, big, novel and advanced solar and ultrasonic technologies into daily life of thousands of households, and opens a new way for developing and utilizing endless, renewable and clean solar energy.
Description
Technical field
The invention belongs to field of solar energy, especially a kind of solar energy ultrasound wave dish-washing machine.
Background technology
The world today, the fossil energies such as coal, oil signal for help repeatedly, and problem of environmental pollution is increasingly serious.And the tool potentiality, the reproducible clean energy resource of solar energy conduct, the spatter property of the unlimitedness of its reserves, the generality of existence, application and the economy of utilization are more and more favored by people.Active development solar energy is greatly developed photovoltaic generation, has been obtained unprecedented attention in the world, has classified the state basic policy of various countries' sustainable development as.
Photovoltaic generation also claims solar electrical energy generation, namely utilizes the solar level semi-conductor electronic device to absorb the solar radiation energy, and makes it collection and be changed to electric energy output.Concentrating photovoltaic power generation, on the basis of third generation solar cell (as: can bear the III-V family semi-conductor cell of 1000 times of optically focused illumination), use sunlight to focus on the high light illumination that produces, drive photovoltaic cell capable of generating power, the III-V of suitable 1/2 crystal silicon battery quantity, just the electric energy that crystal silicon battery produces be can obtain, thereby valuable land resource and the development cost of solar electrical energy generation saved.Yet under high illumination, the heat dissipation problem of photovoltaic cell becomes in the industry the technical problem of standing in the breach, being badly in need of solving.If adopt the heating agent heat radiation, not only can solve like a cork the heat radiation difficult problem of photovoltaic generation, also can obtain in a large number valuable heat resource.
Now, the exploitation of solar energy are all that so-called " height " is the mining energy converter of solar energy all the highest point that is placed in building exactly, or sets up high thermal-arrest tower along " height " future development with " greatly ".Claim according to data, the U.S. will build in the desert, Arizona State a huge solar column, the greenhouse area of huge tower bottom surpasses 2 miles (being roughly equal to 3.2 kilometers), tower body diameter and football pitch are equally matched, 792 meters twices that reach the Empire State Building of the huge tower height of solar energy can satisfy the need for electricity of 150,000 family families.So-called " greatly ", because the solar module of 1 square metre, the power of output only has about 180W and 130W, the solar photovoltaic power plant that Spain ACCIONA company builds in Portugal, installed capacity 46 megawatts, large 140 square metres of every solar panel, 250 hectares of power station floor spaces (3750 mu), can satisfy the daily electricity consumption of 30,000 family families, namely each household other need land occupation .0.125 mu.It is big that solar power station takes up an area scale, is very astonishing.
Can reform the pattern that exchanges solar energy source with a large amount of land resource for? can bring up to the conversion value of solar energy more than 50%? answer is yes.If can solar energy adopt heat pattern by the three-dimensional pattern of changing over of plane, building, so every building, every dwelling house is exactly the ready-made little power station of solar energy.Solar energy home system disclosed by the invention, whole the adopting for another solid of employingization can pattern and applied for totally-enclosed, heating agent cold scattering the preceding, concentrating photovoltaic power generation.
The mechanism of Ultrasonic Cleaning is, after cleansing medium is passed in hyperacoustic high frequency (20-50KHZ) mechanical oscillation, liquid medium can produce " the cavity bubble " of nearly vacuum under this high frequency waves vibration, the physical effects such as the cavitation when dish-washing machine utilizes ultrasonic wave to propagate in cleaning fluid, radiation pressure, acoustic streaming, can promote cleaning fluid and dirt generation chemical reaction when the dirt on cleaning part is produced the pinch spalling effect, reach the purpose of cleaning objects.General dish washer is with the dirt generation chemical reaction on washing agent and cleaning materials, then with clear water, dirt is discharged outside machine, reaches the purpose of cleaning cleaning materials.But this clean effect is more limited, can only clean scavenger surface, and the washing agent that scavenger surface is residual also can stimulate human body skin.The ultrasonic wave dishwasher different from the conventional washing mode mainly utilizes hyperacoustic " cavitation " effect, produces huge energy, and " shake " gets off to be dissolved into water on cleaning materials with dirt, and then by the spilling water function, cleans cleaning materials.Use ultrasonic dish washing, maximum advantage is environmental protection, and in the powder that washes the dishes of general dish washer, what play decontamination is a kind of auxiliary agent that is sodium phosphate, and the sewage of phosphoric acid sodium enters and can cause water pollution after underground; What the without phosphorus powder that washes the dishes adopted also can polluted water for phosphorus agent 4A zeolite.Ultrasonic wave dishwasher is not only pollution-free, and than general dish washer water saving 1/3rd.
Summary of the invention
The present invention's purpose is to disclose a kind of solar energy ultrasound wave dish-washing machine to society.
The invention belongs to field of solar energy, especially a kind of solar energy ultrasound wave dish-washing machine.The solar energy ultrasound wave dish-washing machine is provided heat and is driven supersonic generator work by the solar energy off-premises station; Described solar energy off-premises station, comprise adopt can system, sunlight tracking system, Guan County system, transmission system, transmission system and function system; The solar energy ultrasound wave dish-washing machine is one of them of function system; The solar energy ultrasound wave dish-washing machine comprises: washing system, heating system, control system and airframe systems form, and have full automatic cleaning, drying function; The solar energy ultrasound wave dish-washing machine, employing without motor, do not roll, without wearing and tearing, do not adopt the pattern of the gentle formula washing of any washing agent, high, large, new, sharp solar energy and technology and ultrasonic technology are combined in a machine, incorporate in huge numbers of families' daily life, become a kind of class household electrical appliances of brand new ideas, solar energy source never exhausted, renewable for developing, cleaning has been opened up a new way.
[0008] the invention has the advantages that.
Employing without motor, do not roll, without wearing and tearing, without the gentle formula washing mode of any washing agent.
Simple in structure, maintenance easily, stable performance, simple operation.
The human-computer dialogue of MCU touch screen, the washing procedure free setting.
Washing and drying, sterilization one compatibility, health.
Spilling water, draining dual-use function are saved water resource.
Easy to manufacture, with low cost.Easily manufactured, accessory and equipment all can adopt conventional another parts, facilitate the buying of equipment, the exploitation that can be mass-produced, and cost is relatively cheap.
Resources occupation rate and exploitation door are extremely low, and operation is reliable.One, the III-V family semiconductor photovoltaic cells of suitable 1/2 crystal silicon battery quantity, but just equivalent obtains the electric energy that crystal silicon battery produces; Two, take full advantage of ready-made dwelling house and building construction, set up little solar power plant and converge into the application of the mode development solar energy of vast sea with tricklet, not only significantly saved valuable land resource but also reduced the door of solar energy development and the manufacturing.
Technical scheme of the present invention is to realize like this.
The solar energy ultrasound wave dish-washing machine, off-premises station by the solar energy home system provides heat energy, described off-premises station, comprise adopt can system (01), sunlight tracking system (02), Guan County system (03), transmission system (04), transmission system (05) and function system (06); Described solar energy ultrasound wave dish-washing machine is one of them of function system (06); The solar energy ultrasound wave dish-washing machine is a employing solar energy heating and the dish-washing machine that drives supersonic generator work; The body of solar energy ultrasound wave dish-washing machine is the streamlined of car type, and the front portion of dish-washing machine is the installation position of control system, and the rear portion of dish-washing machine is the installation position of washing system; The solar energy ultrasound wave dish-washing machine comprises: washing system, heating system, control system and airframe systems form; Described washing system comprises: tap water supply pipe (56), steam vent (102), washing chamber (105), drainpipe (106), spillway hole (107), hand basket (108), osculum (112), inlet opening (114), water supply automatic control assembly (118), supersonic generator (120), feed pipe (122); Described heating system; Comprise: heating agent loop (51), solar energy heat storage tank (53), heat supply automatic control assembly (117), backheat automatic control assembly (119), heating tube (121), heating coil pipe (110), heater (111), product heat cal rod (123), low temperature pump pipe (124), heating agent returns tank (125), reaches heat medium circulation pump (70); Described control system comprises: the electric circuit of solar energy (57), MCU operation screen (103), attaching plug (115), temperature controller A(115); Described airframe systems comprises: by strong lock (101), machine cap (104), body (113); It is characterized in that, described washing chamber (105) are disciform tubular structure, to adapt to the washings of different size; The described heating coil pipe (110) that is positioned at middle and lower part, washing chamber (105) is arranged in the heater (111) that adopts the aluminium casting; The two-port of described heating coil pipe (110), port with heat supply automatic control assembly (117) and backheat automatic control assembly (119) is connected respectively, the another port of heat supply automatic control assembly (117) and backheat automatic control assembly (119) is returned tank (125) with solar energy heat storage tank (53) and heating agent respectively by heating tube (121), product heat cal rod (123) and is connected; Described water supply automatic control assembly (118) is connected with tap water supply pipe (56) by feed pipe (122); Described solar energy heat storage tank (53) is full-closed structure, on it, the exhaust cap of necessary exhaust when the system that is provided with just fills, the top of solar energy heat storage tank (53), be provided with the input port that receives heating agent working medium (85), the bottom of solar energy heat storage tank (53), be provided with the delivery outlet of heating agent working medium (85), described solar energy heat storage tank (53), solar energy heat storage tank (53) receives and stores the heat energy from sun machine (1), realizes heat supply by the heating tube (121) that is positioned at lower curtate to the device of need heat; Described solar energy heat storage tank (53) is positioned at the extreme higher position of installation site; Described heating agent returns tank (125), be positioned at the extreme lower position of installation site, heating agent returns the heating agent of tank (125) collection after heat release, the two ends of described heat medium circulation pump (70), returning tank (125) and refrigerant with heating agent respectively pumps pipe and is connected, the startup of heat medium circulation pump (70) is controlled by to adopt and can system be arranged on temperature controller (86) on the high temperature mouth of pipe (84) in (01); The operating temperature that described temperature controller (86) is set is 280 degrees centigrade, when recording the high temperature mouth of pipe (84) temperature and reach 280 degrees centigrade, the circuit of temperature controller (86) is switched on, heat medium circulation pump (70) is started working, when 250 degrees centigrade of the temperature decline on the high temperature mouth of pipe (84), heat medium circulation pump (70) quits work; Described heat medium circulation pump (70) is realized the circulation to heating agent working medium (85); Spillway hole (107) in described washing chamber (105) is positioned at the top of hand basket (108), and spillway hole (107) has the function that takes the lead in discharging the floatability greasy dirt; Described osculum (112) and inlet opening (114) are arranged in (105) center, washing chamber and off-centered bottom; Described osculum (112) and inlet opening (114) are connected with water supply automatic control assembly (118) and drainpipe (106) respectively; The another port of described water supply automatic control assembly (118) is connected with feed pipe (122); Described supersonic generator (120) is positioned at the below of the MCU operation screen (103) of solar energy ultrasound wave dish-washing machine front portion; (103) are shielded in MCU operation in described solar energy ultrasound wave dish-washing machine control system, are positioned at the positive front of body (113); Described MCU operation screen (103) has acquiescence and the two free program control programs of cover; Described temperature controller A(115), being positioned at the below of washing chamber (105), setting temperature controller A(115) maximum temperature is 80 ℃.
Described off-premises station, by several solar energy adopt can the unit realize combination by the metope support (50) in Guan County system (03) after, be installed on the southern metope of home dwelling; Described adopting can system (01), comprise adopt can plate (1), adopting can plate connecting bolt (2), adopting can plate link (3), link sleeve (4) and sleeve bolt (5); Described sunlight tracking system (02) comprises vertical spin axis (6), assembly lid (7), bearing A(8), 3/5 helical gear (9), assembly upper frame (11), upper frame hexagon ring pin (17), basket shift fork (25), twin hydraulic valve A(27), twin hydraulic valve B(28), assembly lower frame (41), driven gear (35), bearing B(37), spring and spring base (46); Described Guan County system (03) comprises connecting bending post (47), curved column base (48), curved column base bolt (49), metope support (50) and Guan County, metope unit pin (55); Described transmission system (04) comprises heating agent loop (51), the electric circuit of solar energy (57), loop connecting box (54), solar energy heat storage tank (53), holds power transformation device (59), line and ammeter (60), automatic transfer switch (61) and heating agent working medium (85); Described transmission system (05) comprises heating agent loop (51), hydraulic circuit (52), heat medium circulation pump (70), hydraulic pump (87) and known return tank, magnetic valve, spill valve; Described function system (06) comprises solar showering device (58), solar energy family power supply (62), solar drinking-water machine (63), solar air conditioner (64), solar-powered high-pressure pot (65), solar-powered high-pressure pot (67), solar energy refrigerator (68) and solar energy ultrasound wave dish-washing machine (69); It is characterized in that, described adopting can plate (1), adopts the cold scattering of heating agent working medium, sunlight axle from the complex art of motion tracking, convex lens clustering Jiao and condensation photovoltaic cell power generation, and the conversion ratio of solar energy is reached more than 50%; Described metope support (50) is that the solar energy home system is installed on transition body on metope; The skeleton of described metope support (50) is the structure of " ∏ ", and the pipeline that heating agent loop (51), hydraulic circuit (52) and the electric circuit of solar energy (57) are laid all is placed in the space that metope support (50) is " ∏ " type structure; On described metope support (50) skeleton, be provided with the bolt hole of the curved column base bolt (49) corresponding with curved column base (48), make solar energy adopt curved column base (48) in can the unit, by curved column base bolt (49), be fixed on metope support (50); The outside of described metope support (50) is provided with Guan County, metope unit pin (55), in order to metope support (50) is installed on the metope in south; Loop connecting box (54) in described transmission system (04), it is the connector that each transmission channel of off-premises station is connected with the indoor transmissions path, the both sides of loop connecting box (54) are respectively equipped with each group, heating agent loop (51) and the electric circuit of solar energy (57); The centre of loop connecting box (54) is provided with (52) four groups of hydraulic circuits; Described hydraulic pump (87), be installed on metope support (50), described hydraulic pump (87) is accepted the instruction of sunlight tracking system (02), drive twin hydraulic valve A(27) and twin hydraulic valve B(28), make and adopt and to do level or vertical rotation by plate (1), guarantee that the axis of adopting energy plate (1) remains parallel with the sunlight axle.
The described energy plate (1) of adopting by being positioned at the link sleeve (4) of adopting energy plate link (3) two ends, overlapping in the two ends of spin axis (6) of hanging down, and is being fixed on vertical spin axis (6) by sleeve bolt (5); Two inboards of described vertical spin axis (6) are provided with bearing A(8); On the center of described vertical spin axis (6), be provided with 3/5 helical gear (9); The tooth gradient of described 3/5 helical gear (9) is made as 1 degree; Described with bearing A(8), the vertical spin axis (6) of 3/5 helical gear (9), cover fiting of (7) and assembly upper frame (11) by assembly, the spin axis (6) of hanging down is fixed in the top of assembly upper frame (11); The described energy plate (1) of adopting along with the effect of 3/5 helical gear (9), on assembly upper frame (11), can be done the rotation up and down of vertical direction.
The described lens group (74) of adopting on energy plate (1) is fixedly installed on lens group support (73) by self-tapping screw (71); Described lens group (74) forms on the position of focus point (79), is provided with installing plate (77), and photovoltaic cell (76) is mounted thereon; Described installing plate (77) is to be integrally formed components and parts with lens group support (73) and fin (78); The central shaft of described photovoltaic cell (76) and the central shaft of lens are consistent, and can come together on the central point of photovoltaic cell (76) to guarantee focus point (79); The described heating agent radiator (80) integrally formed with lens group support (73), installing plate (77) and fin (78), by connecting bolt (81), be connected with the heating agent case (83) of its equivalent structure, on heating agent radiator (80) and aspect that heating agent case (83) is connected, be provided with sealing gasket (82); On described heating agent case (83), be provided with the low temperature mouth of pipe (75) and the high temperature mouth of pipe (84); Described basket shift fork (25) is the gear train of one group of special construction with driven gear (35); Described basket shift fork (25) is arranged in the space at the center of driven gear (35); The upper end of described basket shift fork (25) is provided with (36) two pieces of basket shift fork brake tooths; On the bottom surface of described basket shift fork (25), being provided with gradient is (26) two of the 1 oblique fins of basket shift fork of spending, article two, the distance between the oblique fin of basket shift fork (26), greater than the width of push rod group (14,30) and push rod group (23,44) push rod cup, the push rod cup of push rod group (14,30) and push rod group (23,44) can be between two oblique fins of basket shift fork (26) moving linearly; The below in described basket shift fork (25) outside, the one group of basket shift fork that is provided with symmetry reset and calibrate ear (29); The described basket shift fork calibration ear (29) that resets is done vertical motion in being trapezoidal basket shift fork meter calibration tank (24).
On the inner periphery of described driven gear (35), be provided with flat (18) 360 pieces of the gear driven tooth of revolving; On the centre bit of described driven gear (35) inner chamber, be provided with spring and spring base (46); Described driven gear (35) is the structure of top hexagon lower cylindrical shape, and the hexagon piece at top embeds in the hexagon ring of upper frame hexagon ring pin (17), forms one with assembly upper frame (11); The cylindrical lower portion of described driven gear (35), overlapping with the bearing B(37 of its close-fitting) in; Described driven gear (35) is by bearing B(37) with the top phase close-fitting of assembly lower frame (41); Described assembly upper frame (11) under the driving of basket shift fork (25), can be done stepping or the step of horizontal direction and move back the formula rotation; Described connecting bending post (47), its upper end is connected with assembly lower frame (41) by assembly connecting bolt (42), and its lower end is adopted screw thread to be combined with curved column base (48) and is connected; The described energy plate (1) of adopting, the function that has generating and thermal-arrest concurrently (is seen: the 2012204883306 solar domestic metope machines of having authorized).
Described twin hydraulic valve A(27) and twin hydraulic valve B(28), be the hydraulic valve of a particular design; The drain pan of independent symmetrical two hydraulic valves is arranged on same shell block, forms so-called duplex structure.
On two upper casing forward surfaces of described hydraulic valve, be provided with the basket shift fork meter calibration tank (24) of the just basket shift forks of rule (25); Described basket shift fork meter calibration tank (24) is the inverted trapezoidal shape, the resetting of basket shift fork (25) after changing because of angle just with the turn of satisfying basket shift fork (25) and rule.
Described twin hydraulic valve A(27) and twin hydraulic valve B(28) in, respectively be arranged with push rod group (14,30) and the push rod group (23,44) of two symmetries; Described push rod group (14,30) and push rod group (23,44) are namely the general names of the left push rod of described hydraulic valve A (14), the left push rod of hydraulic valve B (23), the right push rod of hydraulic valve A (30) and the right push rod of hydraulic valve B (44).
Described push rod group (14,30) and push rod group (23,44), it acts on the top of the oblique fin of basket shift fork (26) head, eliminated 1/2, not affect the action of giving up the throne of push rod group (14,30) and push rod group (23,44), stay 1/2 head, make circular arc and process, between two the oblique fins of basket shift fork (26) in order to the basket shift fork of incision (25) bottom; The described circular arc process head of doing, its height is consistent with the hoisting depth of basket shift fork (25).
Described push rod group (14,30) and push rod group (23,44), under the effect of hydraulic pressure, have promote and fall, the function of conrotatory rotary basket type shift fork (25) and 3/5 helical gear (9).
Described four push rods all are installed on separately push rod side's guide pillar (22), to advise the direction of motion of positive push rod.
Described push rod side guide pillar (22) is positioned on the center of liquid chamber rear wall after hydraulic valve.
Described twin hydraulic valve A(27) and twin hydraulic valve B(28) be fixedly installed on assembly upper frame (11) and assembly lower frame (41) default position by bolt (40) respectively.
The bottom of described 3/5 helical gear (9), stretch into twin hydraulic valve A(27) between two upper covers in formed space, be positioned at the twin hydraulic valve A(27 of the left and right sides, 3/5 helical gear (9) below) the right push rod of hydraulic valve A (30) and the head of the left push rod of hydraulic valve A (14), can stretch in the teeth groove of 3/5 helical gear (9).
The right push rod of described hydraulic valve A (30) and the left push rod of hydraulic valve A (14) are alternately completed locking and are braked the action of 3/5 helical gear (9) positive and negative rotation under the program setting of dynamical system.
The right push rod of described hydraulic valve A (30) and the left push rod of hydraulic valve A (14) are alternately completed braking 3/5 helical gear (9) positive and negative rotation and are locked the action of 3/5 helical gear (9) under the program control setting of hydraulic pressure.
Described metope support (50) is that the solar energy home system is installed on intermediate on metope; The skeleton of described metope support (50) is the structure of " ∏ ", and the pipeline that heating agent loop (51), hydraulic circuit (52) and the electric circuit of solar energy (57) are laid all is placed in the space of " ∏ " structure.
On described metope support (50) skeleton, be provided with the bolt hole of the curved column base bolt (49) corresponding with curved column base (48), the curved column base (48) of solar energy home system is fixed on metope support (50) by curved column base bolt (49).
The outside of described metope support (50) is provided with Guan County, metope unit pin (55), in order to metope support (50) is installed on the metope in south.
Loop connecting box (54) in described transmission system (04), it is the connector that in machine, each transmission channel is connected with the outer transmission channel of machine, the both sides of loop connecting box (54), be respectively equipped with heating agent loop (51) two tunnel, and the connector of hydraulic circuit (52) eight tunnel and the electric circuit (57) two tunnel of solar energy.
Described photovoltaic cell (76) adopts high temperature scolding tin to make secondary welding, to strengthen the heat-resisting quantity of pad.
Description of drawings
Accompanying drawing 1 is solar energy ultrasound wave dishwasher structure schematic diagram of the present invention.
Accompanying drawing 2 is solar energy ultrasound wave dish-washing machine environment for use schematic diagram of the present invention.
Accompanying drawing 3 is solar energy home system floor map of the present invention.
Accompanying drawing 4 is sunlight axle tracing system structural representation of the present invention.
It is the partial structurtes schematic diagrames that accompanying drawing 5 is followed the tracks of for sunlight axle of the present invention.
Accompanying drawing 6 is twin hydraulic valve structural representation of the present invention.
Accompanying drawing 7 is pusher structure perspective view of the present invention.
Accompanying drawing 8 is adopted energy plate radiator partial structurtes schematic diagram for the present invention.
Accompanying drawing 9 is adopted for metope support of the present invention can the unit set installation diagram.
Accompanying drawing 10 is path floor plan of the present invention.
The specific embodiment
Fig. 1, the unified mark title of Fig. 2 is: heating agent loop (51), sun energy heat storage tank (53), running water pipe (56), the electric device circuit of solar energy (57), solar-electricity source processor (59), city's incoming end (60), by strong lock (101), steam vent (102), MCU operation screen (103), machine cap (104), body (113), spillway hole (107), hand basket (108), washing chamber (105), drainpipe (106), heater (111), heating coil pipe (110), osculum (112), heat-insulation layer (113), inlet opening (114), attaching plug (115), temperature controller (116), heat supply automatic control assembly (117), water supply automatic control assembly (118), backheat automatic control assembly (119), supersonic generator (120), heating tube (121), feed pipe (122), product heat cal rod (123), low temperature pumps pipe (124), heating agent returns tank (125), heat medium circulation pump (70).
Fig. 3, Fig. 4, Fig. 5, Fig. 7, Fig. 8, Fig. 9 figure, the unified mark title of Figure 10 is: adopting can system (01), sunlight tracking system (02), the fixing installation system (03) that reaches, transmission system (04), transmission system (05), function system (06), adopt energy plate (1), adopt energy crab bolt (2), adopt energy plate link (3), link sleeve (4), sleeve bolt (5), vertical spin axis (6), assembly lid (7), bearing A(8), 3/5 helical gear (9), the left back chamber of hydraulic valve A (10), assembly upper frame (11), the left front chamber of hydraulic valve A (12), the left back liquid mouth of hydraulic valve A (13), the left push rod of hydraulic valve A (14), the left front liquid mouth of hydraulic valve A (15), the left back liquid chamber of hydraulic valve B (16), upper frame hexagon ring pin (17), the flat gear driven tooth (18) of revolving, the left front liquid chamber of hydraulic valve B (19), the left front liquid chamber of hydraulic valve B (20)), the left front liquid mouth of hydraulic valve B (21), push rod side's guide pillar (22), the left push rod of hydraulic valve B (23), basket shift fork meter calibration tank (24), basket shift fork (25), the oblique fin of basket shift fork (26), twin hydraulic valve A(27), twin hydraulic valve B(28), basket shift fork resets and calibrates ear (29), the right push rod of hydraulic valve A (30), the right front liquid chamber of hydraulic valve A (31), the right back liquid chamber of hydraulic valve A (32), the right front liquid mouth of hydraulic valve A (33), the right back liquid mouth of hydraulic valve A (34), driven gear (35), basket shift fork brake tooth (36), bearing B(37), the left front liquid chamber of hydraulic valve B (38), the left back liquid chamber of hydraulic valve B (39), bolt (40), the left back liquid mouth of hydraulic valve B (41), assembly lower frame (41), assembly connecting bolt (42), the right push rod of hydraulic valve B (44), the right front liquid mouth of hydraulic valve B (45), spring and spring base (46), connecting bending post (47), curved column base (48), curved column base bolt (49), metope support (50), heating agent loop (51), hydraulic circuit (52), the electric circuit of solar energy (57), loop connecting box (54), Guan County, metope unit pin (55), feed pipe and valve (56), solar energy heat storage tank (53), shower (58), hold power transformation device (59), civil power tie-in line and ammeter (60), automatic transfer switch (61), solar energy family power supply (62), solar drinking-water machine (63), solar air conditioner (64), solar energy ultrasound wave dish-washing machine (65), solar energy radiator sheet (66), solar energy pot for cooking rice (67), solar energy refrigerator (68), solar energy ultrasound wave dish-washing machine (69), heat medium circulation pump (70), self-tapping screw (71), sunlight axle (72), lens group support (73), lens group (74), the low temperature mouth of pipe (75), photovoltaic cell (76), installing plate (77), fin (78), focus point (79), heating agent radiator (80), connecting bolt (81), sealing gasket (82), heating agent case (83), the high temperature mouth of pipe (84), heating agent working medium, temperature controller (86) and hydraulic pump (87).
The mark title of Fig. 6 is: push rod group (14,30) and push rod group (23,44), i.e. (14,30,23,44) in Fig. 1-Fig. 3.
Describe the present invention in detail below in conjunction with accompanying drawing.
As shown in Figure 1 and Figure 2, described washing chamber (105) are disciform tubular structure, to adapt to the washings of different size.
As shown in Figure 1 and Figure 2, the described heating coil pipe (110) that is positioned at middle and lower part, washing chamber (105) is arranged in the heater (111) that adopts the aluminium casting.
As shown in Figure 1 and Figure 2, the two-port of described heating coil pipe (110), port with heat supply automatic control assembly (117) and backheat automatic control assembly (119) is connected respectively, the another port of heat supply automatic control assembly (117) and backheat automatic control assembly (119) is returned tank (125) with solar energy heat storage tank (53) and heating agent respectively by heating tube (121), product heat cal rod (123) and is connected.
As shown in Figure 1 and Figure 2, described water supply automatic control assembly (118) is connected with tap water supply pipe (56) by feed pipe (122).
As shown in Figure 1 and Figure 2, described heat supply automatic control assembly (117), backheat automatic control assembly (119) and water supply automatic control assembly (118) have included magnetic valve and pipeline connection fastener; Described solar energy heat storage tank (53) is full-closed structure, on it, the exhaust cap of necessary exhaust when the system that is provided with just fills, the top of solar energy heat storage tank (53), be provided with the input port that receives heating agent working medium (85), the bottom of solar energy heat storage tank (53) is provided with the delivery outlet of heating agent working medium (85).
As shown in Figure 1 and Figure 2, described solar energy heat storage tank (53) receives and stores the heat energy from sun machine (1), realizes heat supply by the heating tube (121) that is positioned at lower curtate to the device of need heat.
As shown in Figure 1 and Figure 2, described solar energy heat storage tank (53) is positioned at the extreme higher position of installation site.
As shown in Figure 1 and Figure 2, described heating agent returns tank (125), is positioned at the extreme lower position of installation site, and heating agent returns the heating agent of tank (125) collection after heat release.
As shown in Figure 1 and Figure 2, the two ends of described heat medium circulation pump (70), return tank (125) and refrigerant with heating agent respectively and pump pipe and be connected, the startup of heat medium circulation pump (70) is controlled by the temperature controller (86) on the high temperature mouth of pipe (84) of being arranged on of adopting in can system (01).
As shown in Figure 1 and Figure 2, the operating temperature that described temperature controller (86) is set is 280 degrees centigrade, when recording the high temperature mouth of pipe (84) temperature and reach 280 degrees centigrade, the circuit of temperature controller (86) is switched on, heat medium circulation pump (70) is started working, when 250 degrees centigrade of the temperature decline on the high temperature mouth of pipe (84), heat medium circulation pump (70) quits work.
As shown in Figure 1 and Figure 2, described heat medium circulation pump (70) is realized the circulation to heating agent working medium (85).
As shown in Figure 1 and Figure 2, the spillway hole (107) in described washing chamber (105) is positioned at the top of hand basket (108), and spillway hole (107) has the function that takes the lead in discharging the floatability greasy dirt.
As shown in Figure 1 and Figure 2, described osculum (112) and inlet opening (114) are arranged in (105) center, washing chamber and off-centered bottom.
As shown in Figure 1 and Figure 2, described osculum (112) and inlet opening (114) are connected with water supply automatic control assembly (118) and drainpipe (106) respectively; The another port of described water supply automatic control assembly (118) is connected with feed pipe (122).
As shown in Figure 1 and Figure 2, described supersonic generator (120) is positioned at the below of the MCU operation screen (103) of solar energy ultrasound wave dish-washing machine front portion.
As shown in Figure 1 and Figure 2, (103) are shielded in the MCU operation in described solar energy ultrasound wave dish-washing machine control system, are positioned at the positive front of body (113).
As shown in Figure 1 and Figure 2, described MCU operation screen (103) has acquiescence and the two free program control programs of cover; Described temperature controller A(115), being positioned at the below of washing chamber (105), setting temperature controller A(115) maximum temperature is 80 ℃.
As Fig. 3, Fig. 4 and shown in Figure 5, the solar energy home system, comprise adopt can system (01), sunlight tracking system (02), fixed installation system (03), transmission system (04), transmission system (05) and function system (06).
As shown in Figure 5, described adopting can system (01), be positioned at the top of sunlight tracking system (02), described sunlight tracking system (02) has real-time adjustment and adopts and can system (01) vertically reach horizontal angle, assurance adopt can plate axis and the sunlight axle keeping parallelism of (1), to obtain the function that adopting of maximum can value.
As shown in Figure 5, described sunlight tracking system (02), adjusting in real time and adopting the function that can system (01) vertically reaches horizontal angle is to rely on twin hydraulic valve A(27) and twin hydraulic valve B(28) in push rod group (14,30) and the push rod group (23,44) of symmetry drive basket shift fork (25) and 3/5 helical gear (9); Described push rod group (14,30) and push rod group (23,44) are under the effect of hydraulic pressure, have promote and fall, the function of conrotatory rotary basket type shift fork (25) and 3/5 helical gear (9), realization adopt can system the axis of (01) can be all the time and sun optical axis keeping parallelism, can value to obtain maximum adopting.
As shown in Figure 5, described twin hydraulic valve A(27) space at center, be 3/5 helical gear (9) the bottom stretch into the position, the degree of depth that stretches into is agreed with mutually with the circular-arc head that the right push rod of hydraulic valve A (30) and the left push rod of hydraulic valve A (14) act on 3/5 helical gear (9).
As shown in Figure 5, it acts on the top of the oblique fin of basket shift fork (26) head described push rod group (14,30) and push rod group (23,44), eliminated 1/2, not affect the action of giving up the throne of push rod group (14,30) and push rod group (23,44), stay 1/2 head, make circular arc and process, in order to the bottom of the basket shift fork (25) between two oblique fins of basket shift fork of incision (26).
As shown in Figure 5, the described circular arc process head of having done, its height is consistent with the hoisting depth of basket shift fork (25).
As shown in Figure 5, the left push rod of described hydraulic valve A (14) and the right push rod of hydraulic valve A (30), under the effect of hydraulic pressure, have promote and fall, conrotatory rotary basket type shift fork (25) and rotate the function of 3/5 helical gear (9).
As shown in Figure 5, described four push rods all are installed on separately push rod side's guide pillar (22), to advise the direction of motion of positive push rod; Described push rod side guide pillar (22) is positioned on the center of liquid chamber rear wall after hydraulic valve.
As shown in Figure 5, described twin hydraulic valve A(27) and twin hydraulic valve B(28) be fixedly installed on assembly upper frame (11) and assembly lower frame (41) default position by bolt (40) respectively.
As shown in Figure 3, described basket shift fork (25) is the gear train of one group of special construction with driven gear (35); Described basket shift fork (25) is arranged in the space at the center of driven gear (35).
As shown in Figure 5, the upper end of described basket shift fork (25) is provided with (36) two pieces of basket shift fork brake tooths; On the bottom surface of described basket shift fork (25), being provided with gradient is (26) two of the 1 oblique fins of basket shift fork of spending, article two, the distance between the oblique fin of basket shift fork (26), be slightly larger than the push rod cup width of push rod group (14,30) and push rod group (23,44), the push rod cup of push rod group (14,30) and push rod group (23,44) can be between two oblique fins of basket shift fork (26) moving linearly.
As shown in Figure 5, the below outside described basket shift fork (25), the basket shift fork that is provided with one group of symmetry resets and calibrates ear (29); Described basket shift fork reset the calibration ear (29) do vertical motion in trapezoidal basket shift fork meter calibration tank (24).
As shown in Figure 4, described basket shift fork meter calibration tank (24), be positioned at twin hydraulic valve B(28) the upper shell of two symmetries on, described basket shift fork meter calibration tank (24) is inverted trapezoidal structure, the resetting of basket shift fork (25) after changing because of angle just with the rotation of satisfying positive and negative 1 degree of basket shift fork (25) and rule.
As shown in Figure 5, on the inner periphery of described driven gear (35), be provided with flat (18) 360 pieces of the gear driven tooth of revolving.
As shown in Figure 5, the centre bit of described driven gear (35) inner chamber is provided with spring and spring base (46).
As shown in Figure 5, described driven gear (35) is the structure of top hexagon lower cylindrical shape, and the hexagon piece at top embeds in the hexagon ring of upper frame hexagon ring pin (17), forms one with assembly upper frame (11).
As shown in Figure 5, the cylindrical lower portion of described driven gear (35), overlapping with the bearing B(37 of its close-fitting) in; Described driven gear (35) is by bearing B(37) with the top phase close-fitting of assembly lower frame (41).
As shown in Figure 5, described assembly upper frame (11) under the driving of basket shift fork (25), can be done stepping or the step of horizontal direction and move back the formula rotation.
As shown in Figure 5, described tracing system has function real-time, the automatic sun-tracking optical axis, to obtain the maximum efficiency value of solar energy.
As Fig. 9 and shown in Figure 10, described metope support (50) is the intermediate that solar energy home system unit is installed on after set on metope.
As Fig. 9 and shown in Figure 10, the skeleton of described metope support (50), the structure that is " ∏ ", the space of hollow structure, be the pipeline field house that heating agent loop (51), hydraulic circuit (52) and the electric circuit of solar energy (57) are laid, all pipelines of solar energy home system all are placed in the space of " ∏ " structure.
As Fig. 9 and shown in Figure 10, on described metope support (50) skeleton, be provided with the bolt hole of the curved column base bolt (49) corresponding with curved column base (48), the curved column base (48) of solar energy home system, by fixing of curved column base bolt (49), be installed on metope support (50).
As Fig. 9 and shown in Figure 10, the outside of described metope support (50) is provided with Guan County, metope unit pin (55), in order to metope support (50) is installed on the metope in south.
As Fig. 9 and shown in Figure 10, loop connecting box (54) in described transmission system (04), respectively to transmit the loop in machine to transmit with machine the connector that the loop is connected outward, the both sides of loop connecting box (54), be respectively equipped with (51) one groups, heating agent loop, and the connector of (57) groups, (52) four groups of hydraulic circuits and the electric circuit of solar energy.
Claims (7)
1. solar energy ultrasound wave dish-washing machine, off-premises station by the solar energy home system provides heat energy, described off-premises station, comprise adopt can system (01), sunlight tracking system (02), Guan County system (03), transmission system (04), transmission system (05) and function system (06); Described solar energy ultrasound wave dish-washing machine is one of them of function system (06); The solar energy ultrasound wave dish-washing machine is a employing solar energy heating and the dish-washing machine that drives supersonic generator work; The body of solar energy ultrasound wave dish-washing machine is the streamlined of car type, and the front portion of dish-washing machine is the installation position of control system, and the rear portion of dish-washing machine is the installation position of washing system; The solar energy ultrasound wave dish-washing machine comprises: washing system, heating system, control system and airframe systems form; Described washing system comprises: tap water supply pipe (56), steam vent (102), washing chamber (105), drainpipe (106), spillway hole (107), hand basket (108), osculum (112), inlet opening (114), water supply automatic control assembly (118), supersonic generator (120), feed pipe (122); Described heating system; Comprise: heating agent loop (51), solar energy heat storage tank (53), heat supply automatic control assembly (117), backheat automatic control assembly (119), heating tube (121), heating coil pipe (110), heater (111), product heat cal rod (123), low temperature pump pipe (124), heating agent returns tank (125), reaches heat medium circulation pump (70); Described control system comprises: the electric circuit of solar energy (57), MCU operation screen (103), attaching plug (115), temperature controller A(115); Described airframe systems comprises: by strong lock (101), machine cap (104), body (113); It is characterized in that, described washing chamber (105) are disciform tubular structure, to adapt to the washings of different size; The described heating coil pipe (110) that is positioned at middle and lower part, washing chamber (105) is arranged in the heater (111) that adopts the aluminium casting; The two-port of described heating coil pipe (110), port with heat supply automatic control assembly (117) and backheat automatic control assembly (119) is connected respectively, the another port of heat supply automatic control assembly (117) and backheat automatic control assembly (119) is returned tank (125) with solar energy heat storage tank (53) and heating agent respectively by heating tube (121), product heat cal rod (123) and is connected; Described water supply automatic control assembly (118) is connected with tap water supply pipe (56) by feed pipe (122); Described heat supply automatic control assembly (117), backheat automatic control assembly (119) and water supply automatic control assembly (118) have included magnetic valve and pipeline connection fastener; Described solar energy heat storage tank (53) is full-closed structure, on it, the exhaust cap of necessary exhaust when the system that is provided with just fills, the top of solar energy heat storage tank (53), be provided with the input port that receives heating agent working medium (85), the bottom of solar energy heat storage tank (53) is provided with the delivery outlet of heating agent working medium (85); Described solar energy heat storage tank (53), solar energy heat storage tank (53) receives and stores the heat energy from sun machine (1), realizes heat supply by the heating tube (121) that is positioned at lower curtate to the device of need heat; Described solar energy heat storage tank (53) is positioned at the extreme higher position of installation site; Described heating agent returns tank (125), is positioned at the extreme lower position of installation site, and heating agent returns the heating agent of tank (125) collection after heat release; The two ends of described heat medium circulation pump (70) are returned tank (125) and refrigerant with heating agent respectively and are pumped pipe and be connected, and the startup of heat medium circulation pump (70) is controlled by the temperature controller (86) on the high temperature mouth of pipe (84) of being arranged on of adopting in can system (01); The operating temperature that described temperature controller (86) is set is 280 degrees centigrade, when recording the high temperature mouth of pipe (84) temperature and reach 280 degrees centigrade, the circuit of temperature controller (86) is switched on, heat medium circulation pump (70) is started working, when 250 degrees centigrade of the temperature decline on the high temperature mouth of pipe (84), heat medium circulation pump (70) quits work; Described heat medium circulation pump (70) is realized the circulation to heating agent working medium (85); Spillway hole (107) in described washing chamber (105) is positioned at the top of hand basket (108), and spillway hole (107) has the function of discharging in advance the floatability greasy dirt; Described osculum (112) and inlet opening (114) are arranged in (105) center, washing chamber and off-centered bottom; Described osculum (112) and inlet opening (114) are connected with water supply automatic control assembly (118) and drainpipe (106) respectively; The another port of described water supply automatic control assembly (118) is connected with feed pipe (122); Described supersonic generator (120) is positioned at the below of the MCU operation screen (103) of solar energy ultrasound wave dish-washing machine front portion; (103) are shielded in MCU operation in described solar energy ultrasound wave dish-washing machine control system, are positioned at the positive front of body (113); Described MCU operation screen (103) has acquiescence and the two free program control programs of cover; Described temperature controller A(115), be two warm formula temperature controllers, be positioned at the below of washing chamber (105), set two warm formula temperature controller A(115) maximum temperature of washing procedure is 80 ℃, the maximum temperature that enters drying procedure is 110 ℃.
2. solar energy ultrasound wave dish-washing machine according to claim 1, is characterized in that, described off-premises station is adopted energy plate (1) by several, after realizing combination by the metope support (50) in Guan County system (03), is installed on the southern metope of home dwelling; Described adopting can system (01), comprise adopt can plate (1), adopting can plate connecting bolt (2), adopting can plate link (3), link sleeve (4) and sleeve bolt (5); Described sunlight tracking system (02), comprise the spin axis (6) of hanging down, assembly lid (7), bearing A(8), 3/5 helical gear (9), assembly upper frame (11), upper frame hexagon ring pin (17), basket shift fork (25), twin hydraulic valve A(27), twin hydraulic valve B(28), assembly lower frame (41), driven gear (35), bearing B(37), spring and spring base (46); Described Guan County system (03) comprises connecting bending post (47), curved column base (48), curved column base bolt (49), metope support (50) and Guan County, metope unit pin (55); Described transmission system (04) comprises heating agent loop (51), the electric circuit of solar energy (57), loop connecting box (54), solar energy heat storage tank (53), holds power transformation device (59), line and ammeter (60), automatic transfer switch (61) and heating agent working medium (85); Described transmission system (05) comprises heating agent loop (51), hydraulic circuit (52), heat medium circulation pump (70), hydraulic pump (87) and known return tank, magnetic valve, spill valve; Described function system (06) comprises solar showering device (58), solar energy family power supply (62), solar drinking-water machine (63), solar air conditioner (64), solar energy ultrasound wave dish-washing machine (65), solar energy pot for cooking rice (67), solar energy refrigerator (68) and solar energy ultrasound wave dish-washing machine (69); It is characterized in that, described adopting can plate (1), adopts the cold scattering of heating agent working medium, sunlight axle from the complex art of motion tracking, convex lens clustering Jiao and condensation photovoltaic cell power generation, and the conversion ratio of solar energy is reached more than 50%; Described metope support (50) is that the solar energy home system is installed on transition body on metope; The skeleton of described metope support (50) is the structure of " ∏ ", and the pipeline that heating agent loop (51), hydraulic circuit (52) and the electric circuit of solar energy (57) are laid all is placed in the space that metope support (50) is " ∏ " type structure; On described metope support (50) skeleton, be provided with the bolt hole of the curved column base bolt (49) corresponding with curved column base (48), make the solar energy home system respectively adopt curved column base (48) in can the unit, by curved column base bolt (49), be fixed on metope support (50); The outside of described metope support (50) is provided with Guan County, metope unit pin (55), in order to metope support (50) is installed on the metope in south; Loop connecting box (54) in described transmission system (04), it is the connector that each transmission channel of off-premises station is connected with the indoor transmissions path, the both sides of loop connecting box (54) are respectively equipped with each group, heating agent loop (51) and the electric circuit of solar energy (57); The centre of loop connecting box (54) is provided with (52) four groups of hydraulic circuits; Described hydraulic pump (87), be installed on metope support (50), described hydraulic pump (87) is accepted the instruction of sunlight tracking system (02), drive twin hydraulic valve A(27) and twin hydraulic valve B(28), make and adopt and to do level or vertical rotation by plate (1), guarantee that the axis of adopting energy plate (1) remains parallel with the sunlight axle; Function element relevant in described solar energy home system will be divided an application.
3. according to claim 1 or solar energy ultrasound wave dish-washing machine claimed in claim 2, it is characterized in that, the described energy plate (1) of adopting, by being positioned at the link sleeve (4) of adopting energy plate link (3) two ends, overlapping in the two ends of spin axis (6) of hanging down, and be fixed on vertical spin axis (6) by sleeve bolt (5); Two inboards of described vertical spin axis (6) are provided with bearing A(8); On the center of described vertical spin axis (6), be provided with 3/5 helical gear (9); The tooth gradient of described 3/5 helical gear (9) is made as 1 degree; Described with bearing A(8), the vertical spin axis (6) of 3/5 helical gear (9), cover fiting of (7) and assembly upper frame (11) by assembly, the spin axis (6) of hanging down is fixed in the top of assembly upper frame (11); The described energy plate (1) of adopting along with the effect of 3/5 helical gear (9), on assembly upper frame (11), can be done the rotation up and down of vertical direction; The described lens group (74) of adopting on energy plate (1) is fixedly installed on lens group support (73) by self-tapping screw (71); Described lens group (74) forms on the position of focus point (79), is provided with installing plate (77), and photovoltaic cell (76) is mounted thereon; Described installing plate (77) is to be integrally formed components and parts with lens group support (73) and fin (78); The central shaft of described photovoltaic cell (76) and the central shaft of lens are consistent, and can come together on the central point of photovoltaic cell (76) to guarantee focus point (79); The described heating agent radiator (80) integrally formed with lens group support (73), installing plate (77) and fin (78), by connecting bolt (81), be connected with the heating agent case (83) of its equivalent structure, on heating agent radiator (80) and aspect that heating agent case (83) is connected, be provided with sealing gasket (82); On described heating agent case (83), be provided with the low temperature mouth of pipe (75) and the high temperature mouth of pipe (84); Described basket shift fork (25) is the gear train of one group of special construction with driven gear (35); Described basket shift fork (25) is arranged in the space at the center of driven gear (35); The upper end of described basket shift fork (25) is provided with (36) two pieces of basket shift fork brake tooths; On the bottom surface of described basket shift fork (25), being provided with gradient is (26) two of the 1 oblique fins of basket shift fork of spending, article two, the distance between the oblique fin of basket shift fork (26), greater than the width of push rod group (14,30) and push rod group (23,44) push rod cup, the push rod cup of push rod group (14,30) and push rod group (23,44) can be between two oblique fins of basket shift fork (26) moving linearly; The below in described basket shift fork (25) outside, the one group of basket shift fork that is provided with symmetry reset and calibrate ear (29); The described basket shift fork calibration ear (29) that resets is done vertical motion in being trapezoidal basket shift fork meter calibration tank (24); On the inner periphery of described driven gear (35), be provided with flat (18) 360 pieces of the gear driven tooth of revolving; On the centre bit of described driven gear (35) inner chamber, be provided with spring and spring base (46); Described driven gear (35) is the structure of top hexagon lower cylindrical shape, and the hexagon piece at top embeds in the hexagon ring of upper frame hexagon ring pin (17), forms one with assembly upper frame (11); The cylindrical lower portion of described driven gear (35), overlapping with the bearing B(37 of its close-fitting) in; Described driven gear (35) is by bearing B(37) with the top phase close-fitting of assembly lower frame (41); Described assembly upper frame (11) under the driving of basket shift fork (25), can be done stepping or the step of horizontal direction and move back the formula rotation; Described connecting bending post (47), its upper end is connected with assembly lower frame (41) by assembly connecting bolt (42), and its lower end is adopted screw thread to be combined with curved column base (48) and is connected; Described adopting can plate (1), has the function of generating and thermal-arrest concurrently.
4. according to claim 1 or solar energy ultrasound wave dish-washing machine claimed in claim 2, it is characterized in that described twin hydraulic valve A(27) and twin hydraulic valve B(28), be a special hydraulic valve of design; The symmetrical independently drain pan of duplex hydraulic valve is positioned on same shell block, forms so-called duplex structure; On the forward surface of two upper shells of described duplex hydraulic valve, be provided with the basket shift fork meter calibration tank (24) of the just basket shift forks of rule (25); Described basket shift fork meter calibration tank (24) is inverted trapezoidal structure, can rotate the rotation of positive and negative 1 degree and advise just resetting because of basket shift fork (25) after the angle variation to satisfy basket shift fork (25); Described twin hydraulic valve A(27) and twin hydraulic valve B(28) in, respectively be arranged with symmetrical push rod group (14,30) and push rod group (23,44).
5. according to claim 1 or solar energy ultrasound wave dish-washing machine claimed in claim 2, it is characterized in that, described twin hydraulic valve A(27) and twin hydraulic valve B(28) in, respectively be arranged with push rod group (14,30) and the push rod group (23,44) of two symmetries; Described push rod group (14,30) and push rod group (23,44), it acts on the upper end of the oblique fin of basket shift fork (26) head, eliminated 1/2, stay 1/2 head, make circular arc and process, give up the throne between two oblique fins of basket shift fork (26) of action and the basket shift fork of favourable incision (25) bottom not affect push rod group (14,30) and push rod group (23,44); The described circular arc process head of doing, its height is consistent with the lifting height of basket shift fork (25); Described push rod group (14,30) and push rod group (23,44), under the effect of hydraulic pressure, have promote and fall, the function of conrotatory rotary basket type shift fork (25) and 3/5 helical gear (9); Described four push rods all are installed on separately push rod side's guide pillar (22), to advise the direction of motion of positive push rod; Described push rod side guide pillar (22) is positioned on the center of liquid chamber rear wall after hydraulic valve; Described twin hydraulic valve A(27) and twin hydraulic valve B(28) be fixedly installed on assembly upper frame (11) and assembly lower frame (41) default position by bolt (40) respectively.
6. according to claim 1 or solar energy ultrasound wave dish-washing machine claimed in claim 2, it is characterized in that, the bottom of described 3/5 helical gear (9), stretch into twin hydraulic valve A(27) between two upper covers in formed space, be positioned at the twin hydraulic valve A(27 of the left and right sides, 3/5 helical gear (9) below) the right push rod of hydraulic valve A (30) and the left push rod of hydraulic valve A (14), its head can stretch in the teeth groove of 3/5 helical gear (9); The left push rod of described hydraulic valve A (14) and the right push rod of hydraulic valve A (30) are controlled the action that 3/5 helical gear (9) is done dextrorotation or derotation under the effect of hydraulic power; The right push rod of described hydraulic valve A (30) and the left push rod of hydraulic valve A (14) are alternately completed locking and are braked the action of 3/5 helical gear (9) positive and negative rotation under the program setting of dynamical system.
7. solar energy ultrasound wave dish-washing machine according to claim 2, is characterized in that, described photovoltaic cell (76) adopts high temperature scolding tin to make secondary welding, to strengthen the heat-resisting quantity of pad.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201310142133.8A CN103169436B (en) | 2013-04-23 | 2013-04-23 | Solar energy ultrasound wave dish-washing machine |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201310142133.8A CN103169436B (en) | 2013-04-23 | 2013-04-23 | Solar energy ultrasound wave dish-washing machine |
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| Publication Number | Publication Date |
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| CN103169436A true CN103169436A (en) | 2013-06-26 |
| CN103169436B CN103169436B (en) | 2015-10-28 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104337486A (en) * | 2013-07-23 | 2015-02-11 | 孔令全 | Solar dishwasher |
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| DE19706324A1 (en) * | 1997-02-18 | 1998-08-20 | Rheo Solartechnik Gmbh | Thermal solar system for heating domestic water supply e.g. for washing, washing machines, dishwashers |
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| US20110048465A1 (en) * | 2009-09-03 | 2011-03-03 | Bsh Bosch Und Siemens Hausgerate Gmbh | Dishwashing machine and method for executing a wash cycle with a dishwashing machine |
| CN102293617A (en) * | 2011-09-09 | 2011-12-28 | 晁蒙 | Full-automatic energy-saving dish-washing machine |
| CN203169114U (en) * | 2013-04-23 | 2013-09-04 | 李万红 | Solar ultrasonic dish washing machine |
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| DE19706324A1 (en) * | 1997-02-18 | 1998-08-20 | Rheo Solartechnik Gmbh | Thermal solar system for heating domestic water supply e.g. for washing, washing machines, dishwashers |
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Effective date of registration: 20150924 Address after: Yang Mu Lu high tech Zone 315030 in Zhejiang province Ningbo City 226 No. 103 Lane 601 Applicant after: Ningbo Technology Park Lvpai Soft Packing Trade Co., Ltd. Applicant after: Li Wanhong Address before: 315332, Zhejiang, Ningbo, Cixi province Hai Hai Road, No. two Applicant before: Li Wanhong |
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