CN204581198U - Dishwasher drying system - Google Patents

Abstract

The utility model is applicable to dish-washing machine field, disclose Dishwasher drying system, it comprises inner bag, blast pipe, discharge pipe, blowing device and drainpipe, inner bag have inner chamber, with the air inlet of inner space and the air outlet with inner space, air inlet connects blowing device by blast pipe, and air outlet connects drainpipe by discharge pipe.The utility model, connection air outlet and drainpipe is carried out by discharge pipe, hot and humid gas in inner bag can be entered in discharge pipe, and by the drainage of discharge pipe, make hot and humid gas can flow to drainpipe at the condensed water that air-out in-tube condensation produces or flow back in inner bag, achieve in dry run and the effective process after inner bag is discharged to hot and humid gas, the harm that the condensed water eliminating the outer rear condensation formation of hot and humid gas discharge inner bag causes electrical equipment and wooden cabinet, improve the electrical safety reliability in dish-washing machine use procedure and the service life that ensure that wooden cabinet.

Description

Dishwasher drying system

Technical field

The utility model belongs to dish-washing machine field, particularly relates to Dishwasher drying system.

Background technology

Dish-washing machine is a kind of household electrical appliance for automatic washing tableware, and it has been widely used in the life of people.Generally the drying system that can add snack container rate of drying is all provided with in existing dish-washing machine, and the rapid draing that existing dishwasher system is all generally mode by being discharged in inner bag by hot and humid gas to be realized tableware.

Although existing Dishwasher drying system can play the effect of certain raising tableware drying efficiency, but, existing Dishwasher drying system still Shortcomings part in a particular application, be embodied in: existing Dishwasher drying system is when designing, generally all only considered the drying efficiency ejecting raising tableware fast how passed through hot and humid gas, and have ignored the further process after to hot and humid gas discharge inner bag, thus after hot and humid gas is discharged in inner bag, easily at air outlet, there is condensation and produce condensed water in the places such as inner bag side plate outer wall and liner top plate outer wall.And in prior art, this condensed water is not processed, and then this condensed water is existed drop on the electrical equipment that is installed between inner bag and shell may with flow out outside dish-washing machine may, like this, bring certain electrical safety hidden danger on the one hand the use of dish-washing machine electrical equipment, have a strong impact on the electrical safety reliability in dish-washing machine use procedure; Easily cause condensed water to flow out the risk infiltering wooden cabinet outside dish-washing machine on the other hand, have a strong impact on the service life of wooden cabinet.

Utility model content

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, provide Dishwasher drying system, which solve the technical problem that the condensed water produced in existing dish-washing machine dry run affects dish-washing machine electrical safety reliability and impact wooden cabinet service life.

For achieving the above object, the technical solution adopted in the utility model is: Dishwasher drying system, comprise inner bag, blast pipe, discharge pipe, blowing device and drainpipe, described inner bag have inner chamber, with the air inlet of described inner space and the air outlet with described inner space, described air inlet connects described blowing device by described blast pipe, and described air outlet connects described drainpipe by described discharge pipe.

Preferably, the condensation muscle assembly of the hot and humid gas condensation liquefaction for entering in it is also provided with in described discharge pipe.

Preferably, described condensation muscle assembly comprises the first condensation muscle arranged near described air outlet, is also provided with and is positioned at below described first condensation muscle for the water conservancy diversion inclined-plane by returning described inner chamber from the condensed water drainage under condensate drop on described first condensation muscle in described discharge pipe.

Preferably, described discharge pipe comprises the transverse connecting pipe portion for being connected with described air outlet, the the first vertical duct portion be connected with described transverse connecting pipe portion, the bending connecting section between described first vertical duct portion and described second vertical duct portion is connected to for the second vertical duct portion of being connected with described drainpipe and bending with the spaced and parallel setting in described first vertical duct portion, described first condensation muscle to be located in described first vertical duct portion and to be positioned at the top in described transverse connecting pipe portion, described water conservancy diversion inclined-plane is oblique in described first vertical duct portion to be extended in described transverse connecting pipe portion.

Preferably, described first condensation muscle is wavyly be horizontally set in described first vertical duct portion, and described first condensation muscle has the trench portion and convex peak portion that are arranged alternately, and described trench portion is run through is provided with for the conduction hole of condensing drip to described water conservancy diversion inclined-plane.

Preferably, described condensation muscle assembly also comprises at least one curved shape and is located at the second condensation muscle in described bending connecting section.

Preferably, described second condensation muscle is provided with two, and the second condensation muscle described in two is located at the two opposite sides of described bending connecting section inwall respectively.

Preferably, described condensation muscle assembly also comprises at least one and is obliquely installed the 3rd condensation muscle in described second vertical duct portion.

Preferably, described air inlet is arranged near the bottom of described inner bag, and described blowing device is installed on the below of described inner bag, and described air outlet is arranged near the top of described inner bag; Or described air inlet is arranged near the top of described inner bag, and described blowing device is installed on the top of described inner bag, and described air outlet is arranged near the bottom of described inner bag.

Preferably, described inner bag comprises two side plates be oppositely arranged, and described air inlet and described air outlet run through respectively and be located on this side plate described in two.

Preferably, described blowing device comprises mounting box, be installed on the blower fan in described mounting box and be installed in described mounting box and heater strip between described blower fan and described blast pipe, and described blower fan comprises fan and for driving the motor of described fan turns.

Preferably, described blowing device also comprises the gears regulating switch for controlling to adjust described motor speed and described heater strip heating power.

Preferably, described gears regulating switch comprise described motor can be made with the first rotation speed operation and make described heater strip heating power be zero cold wind gear, described motor can be made with the second rotation speed operation and make described heater strip with the medium hot blast gear of the first power heating and described motor can be made with the 3rd rotation speed operation and make described heater strip with the strong hot air gear of the second power heating, and described 3rd rotating speed is more than or equal to described first rotating speed, described 3rd rotating speed is more than or equal to described second rotating speed, and described second power is greater than described first power.

The Dishwasher drying system that the utility model provides, carries out connection air inlet and blowing device by blast pipe, and blowing device can be dried in inner bag, thus can accelerate the speed outside hot and humid gas discharge inner bag, improves the drying efficiency of tableware.Connection air outlet and drainpipe is carried out by discharge pipe, hot and humid gas in inner bag can be entered in discharge pipe, and by the drainage of discharge pipe, make hot and humid gas can flow to drainpipe at the condensed water that air-out in-tube condensation produces or flow back in inner bag, achieve in dry run and the effective process after inner bag is discharged to hot and humid gas, the harm that the condensed water eliminating the outer rear condensation formation of hot and humid gas discharge inner bag causes electrical equipment and wooden cabinet, improves the electrical safety reliability in dish-washing machine use procedure and the service life that ensure that wooden cabinet.The Dishwasher drying system that the utility model provides, just by discharge pipe set up namely achieve to hot and humid gas discharge inner bag outer after process, its structure is simple, improving cost is low; And condensed water formed at air-out in-tube condensation is drained to drainpipe for it or drainage is returned in inner bag, can avoid needing to set up extra flow promoter system on the one hand and collection discharge is carried out to condensed water, although on the other hand it have employed existing flow promoter system on dish-washing machine and carries out to condensed water collections and discharge, it effectively prevent again condensed water and impacts flow promoter system current function existing on dish-washing machine.

Accompanying drawing explanation

Fig. 1 is the structural representation of the Dishwasher drying system that the utility model embodiment one provides;

Fig. 2 is the integral perspective schematic diagram of the discharge pipe that the utility model embodiment one provides;

Fig. 3 is the first half perspective diagram of the discharge pipe that the utility model embodiment one provides;

Fig. 4 is the latter half perspective diagram of the discharge pipe that the utility model embodiment one provides;

Fig. 5 is the structural representation of the Dishwasher drying system that the utility model embodiment two provides.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

It should be noted that, when element is called as on " being fixed on " or " being arranged at " another element, it can directly on another element or may there is centering elements simultaneously.When an element is known as " connection " another element, it can be directly connect another element or may there is centering elements simultaneously.

Also it should be noted that, the orientation term such as left and right, upper and lower, the top in following examples, end, is only relative concept or be reference with the normal operating condition of product each other, and should not be regarded as have restrictive.

Embodiment one:

As shown in figures 1-4, the Dishwasher drying system that the utility model embodiment one provides, comprise inner bag 1, blast pipe 2, discharge pipe 3, blowing device 4 and drainpipe 5, the air outlet 13 that inner bag 1 has inner chamber 11, the air inlet 12 be communicated with inner chamber 11 and is communicated with inner chamber 11, air inlet 12 is connected on blowing device 4 by blast pipe 2, and air outlet 13 is connected on drainpipe 5 by discharge pipe 3.The Dishwasher drying system that the present embodiment provides, carries out connection air inlet 12 and blowing device 4 by blast pipe 2, and blowing device 4 can be dried in inner bag 1, thus can accelerate the speed outside hot and humid gas discharge inner bag 1, improves the drying efficiency of tableware.Simultaneously, it carries out connection air outlet 13 and drainpipe 5 by discharge pipe 3, make the hot and humid gas in inner bag 1 can enter in discharge pipe 3, and pass through the drainage of discharge pipe 3, make the hot and humid gas condensed water that condensation produces in discharge pipe 3 can flow to drainpipe 5 or flow back in inner bag 1, achieve in dry run and the effective process after inner bag 1 is discharged to hot and humid gas, the harm that the condensed water eliminating the outer rear condensation formation of hot and humid gas discharge inner bag 1 causes electrical equipment and wooden cabinet, improve the electrical safety reliability in dish-washing machine use procedure and the service life that ensure that wooden cabinet.Because it is undertaken realizing discharging the process after outside inner bag 1 to hot and humid gas by setting up of discharge pipe 3, therefore its structure is simple, improving cost is low; And condensed water that condensation in discharge pipe 3 is formed is drained to drainpipe 5 for it or drainage is returned in inner bag 1, can avoid needing to set up extra flow promoter system on the one hand and carry out collecting the situation generation of discharging and causing cost to increase to condensed water, although on the other hand it have employed existing flow promoter system on dish-washing machine and carries out to condensed water collections and discharge, but it effectively prevent again condensed water and impacts flow promoter system current function existing on dish-washing machine, and it is ingenious, reasonable to design.

Preferably, the condensation muscle assembly 31 of the hot and humid gas condensation liquefaction for entering in it is also provided with in discharge pipe 3.The setting of condensation muscle assembly 31, is mainly used in strengthening the condensation effect of hot and humid gas in discharge pipe 3, thus can accelerates hot and humid gas flows to discharge pipe 3 speed from inner chamber 11, and then be beneficial to the drying efficiency improving tableware.

Preferably, condensation muscle assembly 31 comprises the first condensation muscle 311 arranged near air outlet 13, is also provided with and is positioned at below the first condensation muscle 311 for the water conservancy diversion inclined-plane 32 by returning inner chamber 11 from the condensed water drainage under condensate drop on the first condensation muscle 311 in discharge pipe 3.First condensation muscle 311 by carrying out realizing the heat exchange with hot and humid gas with the contact of hot and humid gas, thus is beneficial to the condensation realizing hot and humid gas.And the setting on water conservancy diversion inclined-plane 32, can will return in inner chamber 11 from the condensed water drainage under condensate drop on the first condensation muscle 311, avoid the phenomenon generation that condensed water accumulates in discharge pipe 3.

Preferably, discharge pipe 3 comprises the first vertical duct portion 302 that the transverse connecting pipe portion 301 for being connected with air outlet 13 is connected with transverse connecting pipe portion 301 with the spaced and parallel setting in the first vertical duct portion 302 and for the second vertical duct portion 303 of being connected with drainpipe 5 with bend the bending connecting section 304 be connected between the first vertical duct portion 302 and the second vertical duct portion 303, first condensation muscle 311 to be located in the first vertical duct portion 302 and to be positioned at the top in transverse connecting pipe portion 301, and water conservancy diversion inclined-plane 32 is oblique in the first vertical duct portion 302 to be extended in transverse connecting pipe portion 301.In concrete dry run, the condensed water that in discharge pipe 3, condensation is formed can return in inner bag 1 by water conservancy diversion inclined-plane 32 drainage or can be drained in drainpipe 5 by the second vertical duct portion 303, effectively achieves the process to condensed water.In the present embodiment, the vibrational power flow of discharge pipe 3 is optimized setting according to air outlet 13 and the relative position of drainpipe 5, and it can make hot and humid gas in discharge pipe 3, obtain abundant condensation and the condensed water that condensation can be made to be formed can be drained to better in drainpipe 5 or by drainage and return in inner bag 1.Of course, in embody rule, discharge pipe 3 is not limited to this structure.

Preferably, first condensation muscle 311 is horizontally set in the first vertical duct portion 302 in wavy, first condensation muscle 311 has the trench portion 3111 and convex peak portion 3112 that are arranged alternately, and trench portion 3111 is run through the conduction hole 3113 being provided with and supplying condensing drip to water conservancy diversion inclined-plane 32.Trench portion 3111 is arranged near water conservancy diversion inclined-plane 32, and convex peak portion 3112 is arranged away from water conservancy diversion inclined-plane 32, and namely trench portion 3111 is less than the height of convex peak portion 3112 to water conservancy diversion inclined-plane 32 to the height on water conservancy diversion inclined-plane 32.First condensation muscle 311, in wavy setting, can be beneficial to the contact area increased with hot and humid gas, thus is beneficial to the condensation effect improving hot and humid gas, and is beneficial to the condensed water on the first condensation muscle 311 is drained to trench portion 3111; And the setting of trench portion 3111 place's conduction hole 3113, the condensing drip on the first condensation muscle 311 can be made to drop down onto on water conservancy diversion inclined-plane 32, thus the condensed water on the first condensation muscle 311 is flowed back in inner chamber 11 better, and then be beneficial to and prevent the accumulation of condensed water on the first condensation muscle 311.

Preferably, the curved syphon shape of bending connecting section 304, condensation muscle assembly 31 also comprises at least one curved shape and is located at the second condensation muscle 312 bent in connecting section 304.Particularly, second condensation muscle 312 extends towards the first side, place, vertical duct portion 302 and the second side, place, vertical duct portion 303 along an arc trajectory respectively with the middle part of the form reduced between height from bending connecting section 304, and namely the highest portion position of the second condensation muscle 312 is positioned at the lateral mid-point of bending connecting section 304.The setting of the second condensation muscle 312, can increase the heat exchange area of hot and humid gas in discharge pipe 3, thus is beneficial to the condensation effect improving hot and humid gas further; And the arc shape of the second condensation muscle 312 is arranged, drainage can be played to the condensed water on the second condensation muscle 312, thus make the condensed water on the second condensation muscle 312 flow to better drainpipe 5 or and flow back in inner chamber 11, and then be beneficial to and prevent the accumulation of condensed water on the second condensation muscle 312.

Preferably, second condensation muscle 312 is provided with two, and two second condensation muscle 312 are located at the two opposite sides of bending connecting section 304 inwall respectively, two second condensation muscle 312 are specifically located at the both sides, front and back of bending connecting section 304 inwall respectively, and two second condensation muscle 312 parallel interval are arranged, like this, the heat exchange area of increase hot and humid gas in discharge pipe 3 can be beneficial to.Of course, in embody rule, the quantity of the second condensation muscle 312 is not limited to two.

Preferably, condensation muscle assembly 31 also comprises at least one and is obliquely installed the 3rd condensation muscle 313 in the second vertical duct portion 303.The setting of the 3rd condensation muscle 313, can increase the heat exchange area of hot and humid gas in discharge pipe 3, thus is beneficial to the condensation effect improving hot and humid gas further; And being obliquely installed of the 3rd condensation muscle 313, drainage can be played the condensed water on the 3rd condensation muscle 313, thus make the condensed water on the 3rd condensation muscle 313 flow to drainpipe 5 better, and then be beneficial to and prevent the accumulation of condensed water on the 3rd condensation muscle 313.In the present embodiment, the 3rd condensation muscle 313 is provided with two, of courses, and in embody rule, the quantity of the 3rd condensation muscle 313 is not limited to two; The quantity of the 3rd condensation muscle 313 can carry out Synthetical Optimization according to cost, condensation requirement, the second vertical duct portion 303 body size etc.

Preferably, air inlet 12 is arranged near the bottom of inner bag 1, and blowing device 4 is installed on the below of inner bag 1, and air outlet 13 is arranged near the top of inner bag 1.In concrete dry run, the dry-heat air be blown in inner bag 1 by blowing device 4 rises gradually to realize and fully the contacting of tableware bottom inner chamber 11, and continuous rising of damp-heat cognition in inner chamber 11 also finally can be discharged outside inner bag 1 from air outlet 13, to make the gas in inner chamber 11 be in flow regime always, thus be beneficial to the drying effect and drying efficiency that improve tableware.

Preferably, inner bag 1 comprises two side plates be oppositely arranged 14, and air inlet 12 and air outlet 13 run through respectively and be located on this biside plate 14; Inner bag 1 also can comprise top board 15, base plate (figure does not indicate) and rear plate (figure does not indicate), biside plate 14, top board 15, base plate and rear plate enclose the inner chamber 11 being formed and have front opening jointly, and biside plate 14 lays respectively at the left and right sides of inner chamber 11.In the present embodiment, air inlet 12 and air outlet 13 are located at respectively the two opposite sides of inner bag 1, and air inlet 12 is arranged bottom inner bag 1, air outlet 13 is arranged near inner bag 1 top, like this, the dry-heat air be blown in inner bag 1 by blowing device 4 is made to increase gradually bottom inner chamber 11, fully can contact with tableware to make the dry-heat air entered in inner chamber 11 from air inlet 12, and the hot and humid gas in inner chamber 11 can be driven to rise gradually and discharge outside inner bag 1 from air outlet 13, avoid the dry-heat air entered in inner chamber 11 from air inlet 12 occurring without contacting just direct situation of discharging inner bag 1 from air outlet 13 with tableware, ensure that the dry-heat air entered in inner chamber 11 from air inlet 12 can play good drying effect to tableware.In concrete dry run, because dry-heat air can constantly flow in inner chamber 11 from air inlet 12, hot and humid gas in inner chamber 11 can constantly be discharged inner bag 1 from air outlet 13, therefore, gas humidity in inner bag 1 can constantly be reduced, and it is for the method for conventional dead natural drying, and its rate of drying wants fast a lot, shorten the drying time of tableware dramatically, improve drying effect and the drying efficiency of dish-washing machine.

Preferably, blowing device 4 comprises mounting box 43, be installed on the blower fan 41 in mounting box 43 and be installed in mounting box 43 and heater strip 42 between blower fan 41 and blast pipe 2, the motor 412 that blower fan 41 comprises fan 411 and rotates for drive fan 411, fan 411 specifically can be tube-axial fan 411 and also can be centrifugal fan 411.Blower fan 41 can blow to making this air form certain wind-force in extraneous air suction mounting box 43 in blast pipe 2, thus can form the driving to gas flowing in inner chamber 11; And heater strip 42 can heat the air being blowed to blast pipe 2 by blower fan 41, to make to be blown into air in inner chamber 11 for dry and that temperature is higher air by blast pipe 2, and then be beneficial to the drying efficiency improving tableware.Of course, according to real needs, in the process that blowing device 4 is dried to blast pipe 2, heater strip 42 also can be in not heated condition.The present embodiment, by fan 411, motor 412, heater strip 42 all integrated installation in mounting box 43, the installation of blowing device 4 in dish-washing machine can be made more convenient, simple.

Preferably, blowing device 4 also comprises the gears regulating switch (not shown) for controlling to adjust motor 412 rotating speed and heater strip 42 heating power.The setting of gears regulating switch, the effect of on off control can be played on the one hand to blowing device 4, can control motor 412 rotating speed, heater strip 42 heating power on the other hand, to make blowing device 4 be in best running status according to real needs, be beneficial to the comprehensive guarantee drying efficiency of tableware and the energy-saving effect of dish-washing machine.

Preferably, gears regulating switch comprise motor 412 can be made to shut down and make heater strip 42 stop heating closedown gear, motor 412 can be made with the first rotation speed operation and make heater strip 42 heating power be zero cold wind gear, motor 412 can be made with the second rotation speed operation and make heater strip 42 with the medium hot blast gear of the first power heating and motor 412 can be made with the 3rd rotation speed operation and make heater strip 42 with the strong hot air gear of the second power heating, and the 3rd rotating speed is more than or equal to the first rotating speed, 3rd rotating speed is more than or equal to the second rotating speed, and the second power is greater than the first power.In the present embodiment, the 3rd rotating speed is preferably set to and is greater than the second rotating speed, of courses, and in embody rule, the 3rd rotating speed also can be set to and equal the second rotating speed.In embody rule, when gears regulating switch being adjusted to closedown gear, the rotating speed of motor 412 and the heating power of heater strip 42 are all zero, namely motor 412 is in the state of shutting down, heater strip 42 is in stopping heated condition, now, blowing device 4 is in halted state, and blowing device 4 is not dried in inner bag 1; When gears regulating switch being adjusted to cold wind gear, motor 412 is with the first rotation speed operation, and the heating power of heater strip 42 is zero, and namely motor 412 is in operating condition, heater strip 42 is in stopping heated condition, now, blowing device 4 is in state of blowing a cold wind in inner bag 1; When gears regulating switch being adjusted to medium hot blast gear, motor 412 is with the second rotation speed operation, and heater strip 42 heats with the first power, and now, blowing device 4 is in the state of blowing medium air quantity hot blast in inner bag 1; When gears regulating switch being adjusted to strong hot air gear, motor 412 is with the 3rd rotation speed operation, and heater strip 42 heats with the second power, and now, blowing device 4 is in and blows strong hot air state in inner bag 1.Close gear, cold wind gear, medium hot blast gear and strong hot air gear respectively the corresponding blowing device 4 that can make be in four kinds of different duties, of course, gear set-up mode set by gears regulating switch is not limited thereto, as: gears regulating switch can be set to only include closes gear and strong hot air gear; Or gears regulating switch also can be set to comprise closes gear, low speed cold wind gear, medium cold wind gear, strong cold wind gear, low speed hot blast gear, medium hot blast gear and strong hot air gear etc.

In concrete dry run, also by the regulable control of gears regulating switch, blowing device 4 is made to replace blowing hot-air and cold wind in inner bag 1, as can when drying program starts first blowing hot-air, and then blow a cold wind over, like this, under the prerequisite ensureing drying efficiency, also can be beneficial to the energy-saving effect improving dish-washing machine.

Particularly, dish-washing machine in the present embodiment also can comprise water tumbler 6, washing pump 7, draining pump 8, lower spraying arm 9, upper spray arm 100, lower bowl basket 200 and upper dish basket 300 etc., the below of inner bag 1 is all located at by water tumbler 6, washing pump 7, draining pump 8 and drainpipe 5, and one end of drainpipe 5 is connected with draining pump 8; Lower spraying arm 9, upper spray arm 100, lower bowl basket 200 and upper dish basket 300 are all located in inner bag 1, and upper spray arm 100 be located at upper dish basket 300 below and towards upper dish basket 300 jet cleaning water, lower spraying arm 9 is located at the below of lower bowl basket 200 and towards lower bowl basket 200 jet cleaning water, washing pump 7 can upwards spray arm 100 and lower spraying arm 9 supply water.

The operation principle of the Dishwasher drying system that the present embodiment provides is: in inner bag 1, constantly blow heated drying air by blowing device 4, and the heated drying air entered in inner chamber 11 can rise gradually from the bottom of inner chamber 11 and carry out fully contacting to carry out drying to tableware with tableware, and the damp-heat cognition produced in inner chamber 11 constantly rises on the top of inner chamber 11.Because the air pressure in discharge pipe 3 can be less than the air pressure in inner chamber 11, therefore, when the hot and humid gas in inner chamber 11 rises to air outlet 13 place, hot and humid gas will flow in discharge pipe 3 from air outlet 13, when entering the hot and humid gas in discharge pipe 3 and contacting with the first condensation muscle 311, some damp-heat is known from experience condensation and is formed condensed water and drop to water conservancy diversion inclined-plane 32 from conduction hole 3113, and the condensed water dropped on water conservancy diversion inclined-plane 32 can be returned in inner chamber 11 by drainage; And the damp-heat forming condensed water for not being able to do in time with the first condensation muscle 311 heat exchange is known from experience and is continued to flow towards bending connecting section 304 along the first vertical duct portion 302.When the hot and humid gas flowing to bending connecting section 304 contacts with the second condensation muscle 312, some damp-heat is known from experience condensation and is formed condensed water and cambered surface flowing along the second condensation muscle 312 is dripped respectively to the first vertical duct portion 302 and the second vertical duct portion 303, thus makes the condensed water on the second condensed water can be drained in drainpipe 5 respectively and drainage is returned in inner chamber 11; And the damp-heat forming condensed water for not being able to do in time with the second condensation muscle 312 heat exchange is known from experience and is continued to flow towards bending second vertical duct portion 303 along bending connecting section 304.When the hot and humid gas flowing to the second vertical duct portion 303 contacts with the 3rd condensation muscle 313, some damp-heat is known from experience condensation and is formed condensed water and surface along the 3rd condensation muscle 313 drops in drainpipe 5; Finally, the damp-heat cognition not having condensation to form condensed water on a small quantity directly passes in drainpipe 5 along the second vertical duct portion 303, this part damp-heat is known from experience the partial condensation hydraulic pressure flowed in drainpipe 5 to sewer (figure does not indicate), if also have partial condensation water residual in drainpipe 5, then when the upper once startup optimization of dish-washing machine, this partial condensation water can be drained into sewer, thus thoroughly complete the process of condensed water.Of course, hot and humid gas is in the flow process of discharge pipe 3, also can with the contact internal walls of discharge pipe 3 and condensation forms condensed water, and the condensed water that condensation is formed on discharge pipe 3 inwall can be drained in drainpipe 5 along the inwall of discharge pipe 3 or drainage is returned in inner chamber 11.

Embodiment two:

As shown in Figure 5, from the difference of embodiment one, the Dishwasher drying system that the present embodiment provides, is mainly that the setting position of air inlet 12, air outlet 13, blowing device 4 is different.Particularly, in the present embodiment, air inlet 12 is arranged near the top of inner bag 1, and blowing device 4 is installed on the top of inner bag 1, and air outlet 13 is arranged near the bottom of inner bag 1, and air inlet 12 and air outlet 13 run through respectively and be located on the two opposite sides plate 14 of inner bag 1.The operation principle of the Dishwasher drying system that the present embodiment provides is: in inner bag 1, constantly blow heated drying air by blowing device 4, and the heated drying air that blowing device 4 produces can enter in inner bag 1 from the top of inner chamber 11, the heated drying air entered in inner chamber 11 can fully contact with the hot and humid gas in inner chamber 11 and mix, when the amount of inner chamber 11 inner drying hot-air acquires a certain degree, heated drying air can be sunk gradually and carry out fully contacting to carry out drying to tableware with tableware in inner chamber 11, and hot and humid gas will be discharged to enter in discharge pipe 3 from air outlet 13 and carried out condensation (condensation principle of hot and humid gas in discharge pipe 3 is identical with embodiment one, be not described in detail in this), when dried hot-air complete in inner bag 1 is full of, namely tableware completes dry run, its drying effect is good, and drying time is also short.

Except the setting position difference of air inlet 12, air outlet 13, blowing device 4, this your mutually isostructural setting principle of other structure and embodiment one of the Dishwasher drying system that the present embodiment provides is identical, is not described in detail in this.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace or improvement etc., all should be included within protection domain of the present utility model.

Claims (13)

1. Dishwasher drying system, it is characterized in that: comprise inner bag, blast pipe, discharge pipe, blowing device and drainpipe, described inner bag have inner chamber, with the air inlet of described inner space and the air outlet with described inner space, described air inlet connects described blowing device by described blast pipe, and described air outlet connects described drainpipe by described discharge pipe.

2. Dishwasher drying system as claimed in claim 1, is characterized in that: the condensation muscle assembly being also provided with the hot and humid gas condensation liquefaction for entering in it in described discharge pipe.

3. Dishwasher drying system as claimed in claim 2, it is characterized in that: described condensation muscle assembly comprises the first condensation muscle arranged near described air outlet, is also provided with and is positioned at below described first condensation muscle for the water conservancy diversion inclined-plane by returning described inner chamber from the condensed water drainage under condensate drop on described first condensation muscle in described discharge pipe.

4. Dishwasher drying system as claimed in claim 3, it is characterized in that: described discharge pipe comprises the transverse connecting pipe portion for being connected with described air outlet, the the first vertical duct portion be connected with described transverse connecting pipe portion, the bending connecting section between described first vertical duct portion and described second vertical duct portion is connected to for the second vertical duct portion of being connected with described drainpipe and bending with the spaced and parallel setting in described first vertical duct portion, described first condensation muscle to be located in described first vertical duct portion and to be positioned at the top in described transverse connecting pipe portion, described water conservancy diversion inclined-plane is oblique in described first vertical duct portion to be extended in described transverse connecting pipe portion.

5. Dishwasher drying system as claimed in claim 4, it is characterized in that: described first condensation muscle is wavyly be horizontally set in described first vertical duct portion, described first condensation muscle has the trench portion and convex peak portion that are arranged alternately, and described trench portion is run through the conduction hole being provided with and supplying condensing drip to described water conservancy diversion inclined-plane.

6. Dishwasher drying system as claimed in claim 4, is characterized in that: described condensation muscle assembly also comprises at least one curved shape and is located at the second condensation muscle in described bending connecting section.

7. Dishwasher drying system as claimed in claim 6, it is characterized in that: described second condensation muscle is provided with two, and the second condensation muscle described in two is located at the two opposite sides of described bending connecting section inwall respectively.

8. the Dishwasher drying system as described in any one of claim 4 to 7, is characterized in that: described condensation muscle assembly also comprises at least one and is obliquely installed the 3rd condensation muscle in described second vertical duct portion.

9. the Dishwasher drying system as described in any one of claim 1 to 7, is characterized in that: described air inlet is arranged near the bottom of described inner bag, and described blowing device is installed on the below of described inner bag, and described air outlet is arranged near the top of described inner bag; Or described air inlet is arranged near the top of described inner bag, and described blowing device is installed on the top of described inner bag, and described air outlet is arranged near the bottom of described inner bag.

10. Dishwasher drying system as claimed in claim 9, is characterized in that: described inner bag comprises two side plates be oppositely arranged, and described air inlet and described air outlet run through respectively and be located on this side plate described in two.

11. Dishwasher drying systems as described in any one of claim 1 to 7, it is characterized in that: described blowing device comprises mounting box, be installed on the blower fan in described mounting box and be installed in described mounting box and heater strip between described blower fan and described blast pipe, described blower fan comprises fan and for driving the motor of described fan turns.

12. Dishwasher drying systems as claimed in claim 11, is characterized in that: described blowing device also comprises the gears regulating switch for controlling to adjust described motor speed and described heater strip heating power.

13. Dishwasher drying systems as claimed in claim 12, it is characterized in that: described gears regulating switch comprise described motor can be made with the first rotation speed operation and make described heater strip heating power be zero cold wind gear, described motor can be made with the second rotation speed operation and make described heater strip with the medium hot blast gear of the first power heating and described motor can be made with the 3rd rotation speed operation and make described heater strip with the strong hot air gear of the second power heating, and described 3rd rotating speed is more than or equal to described first rotating speed, described 3rd rotating speed is more than or equal to described second rotating speed, described second power is greater than described first power.