CN209555562U - A kind of drum type washing drying integral machine - Google Patents

Abstract

The utility model discloses a kind of drum type washing drying integral machines, are related to washing machine technology field.The utility model includes steel ladle, and steel ladle rear wall offers inner cylinder axis hole；Steel ladle rear wall medial surface is fixedly connected with condensate pans, and forms airtight chamber between steel ladle rear wall and condensate pans；Steel ladle rear wall lateral surface is fixedly connected with the coolant intake being connected with airtight chamber and cooling water outlet mouth.The utility model is by setting condensate pans, and the airtight chamber for making the Cooling Water formed between condensate pans and steel ladle rear wall circulate solves existing condensation pipe and easily blocks, and condensation efficiency is low and cooling water enters the problem of steel ladle easily drenches clothing；Meanwhile the drying structure for solving existing condensation pipe occupies inner space, leads to the problem that package size is larger.

Description

A kind of drum type washing drying integral machine

Technical field

The utility model belongs to washing machine technology field, more particularly to a kind of drum type washing drying integral machine.

Background technique

Roller washing machine with drying function extracts air in cylinder by blower, passes through when it carries out drying work The heater of drying tunnel, air is heated, and the air after heating is again introduced into cylinder through drying tunnel, humid air in cylinder is heated, shape At hot humid gas, hot humid air enters condenser later, is acted on by cryogenic condensation, will be in hot humid air Vapor condensation, is converted to low temperature dry air, and low temperature dry air is again introduced into heater later, and it is dry to recycle the realization of this process The purpose of dry clothing.

The drying structure of existing washing-drying integral machine condensation pipe, occupies inner space, increases the size of complete machine, together When drying course in line bits are inevitably accumulated in condensation pipe, for a long time, secondary pollution is also easy to produce, simultaneously as line It the reason of bits accumulation, will cause line clogging, reduce condensation efficiency；Meanwhile the cooling water flow of required offer need to be in condensation chamber Condensation water curtain is formed, and because of mismachining tolerance, water flow pressure and uses durable reason, it tends to be difficult to form effective condensed water Curtain not can guarantee condensation efficiency, and a large amount of cooling waters enter steel ladle, have aggravated the risk of humidity in steel ladle bucket, have increased Cooling water, which splashes, drenches the risk of clothing.

Utility model content

The purpose of this utility model is to provide a kind of drum type washing drying integral machines to make condensate pans by the way that condensate pans are arranged The airtight chamber of the Cooling Water circulation formed between steel ladle rear wall, solves existing condensation pipe and easily blocks, and condenses Low efficiency and cooling water enter the problem of steel ladle easily drenches clothing；Meanwhile the drying structure for solving existing condensation pipe accounts for With inner space, lead to the problem that package size is larger.

In order to solve the above technical problems, the utility model is achieved through the following technical solutions:

The utility model is a kind of drum type washing drying integral machine, including steel ladle；The steel ladle includes on rear side of steel ladle Wall；The steel ladle rear wall offers inner cylinder axis hole；

The steel ladle rear wall medial surface is fixedly connected with condensate pans, and is formed between steel ladle rear wall and condensate pans Airtight chamber；

Further, the condensate pans can be connected with steel ladle rear wall by way of screw, sealing strip, welding or gluing It is connected together；

The steel ladle rear wall lateral surface is fixedly connected with the coolant intake being connected with airtight chamber and cooling goes out The mouth of a river；

The condensate pans are plate structure；One surface of condensate pans is provided with through-hole；Through hole center and the inner cylinder axis hole center of circle It is overlapped, and diameter of the through-hole diameter greatly with inner cylinder axis hole.

Preferably, the relatively cool water inlet position of steel ladle rear wall lateral surface is set side by side with the first cooling water inlet Mouth fixing groove and the second coolant intake fixing groove；The relatively cool water outlet position of steel ladle rear wall lateral surface is provided with First cooling water outlet mouth fixing groove and the second cooling water outlet mouth fixing groove.

Further, the condensate pans are metal plate or plastic plate；The relatively cool water inlet position array of condensate pans There are several fuisw ribs.

Preferably, the condensate pans side is equipped with condensate pans outer ring；Condensate pans opposing through-bores edge is provided with condensation Disk inner ring, condensate pans are fixedly connected by condensate pans outer ring and condensate pans inner ring with steel ladle rear wall.

Further, the condensate pans are closed chamber part structure.

Further, the condensate pans one side is fixedly connected with the inlet and outlet being connected with closed chamber.

The utility model has the following beneficial effects:

1, the utility model passes through the airtight chamber formed between condensate pans and steel ladle rear wall, leads in airtight chamber Entering cooling water makes the one side in condensate pans in steel ladle form cryosurface, realizes that the vapor generated to drying clothing carries out Condensation；It avoids a large amount of cooling waters and enters steel ladle, aggravate the risk of humidity in steel ladle bucket, easily lead to cooling water splashing and drench The case where clothing, occurs, and also avoiding flowing through in bucket due to cooling water leads to the secondary Weight training clothes water content of matter of cooling water steam Situation occurs, to improve drying efficiency, saves drying time, reduces energy consumption, and makes the reduction of clothing moisture content.

2, the structure that the utility model passes through setting condensate pans and is mounted on steel ladle rear wall, compares existing condenser pipe The drying structure in road greatly reduces the space hold to complete machine, optimizes product size, while avoiding meeting in cooling pipe The case where accumulation line bits cause line clogging generation improves condensation efficiency to be effectively reduced secondary pollution.

Certainly, any product for implementing the utility model does not necessarily require achieving all the advantages described above at the same time.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of the utility model embodiment, make required for being described below to embodiment Attached drawing is briefly described, it should be apparent that, the drawings in the following description are merely some embodiments of the present invention, For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings Other attached drawings.

Fig. 1 is a kind of structural schematic diagram of drum type washing drying integral machine of the utility model；

Fig. 2 is the structural schematic diagram at the backsight visual angle of Fig. 1；

Fig. 3 is the cross-sectional view in the direction A-A in Fig. 1；

Fig. 4 is the enlarged structure schematic diagram in the portion A in Fig. 3；

Fig. 5 is the enlarged structure schematic diagram in the portion B in Fig. 3；

Fig. 6 is the structural schematic diagram of condensate pans；

Fig. 7 is the structural front view of condensate pans in embodiment two；

Fig. 8 is the structural schematic diagram at the backsight visual angle of Fig. 7；

Fig. 9 is the cross-sectional view in the direction B-B in Fig. 7；

In attached drawing, parts list represented by the reference numerals are as follows:

1- steel ladle, 2- steel ladle rear wall, 3- condensate pans, 4- condensate pans outer ring, 5- condensate pans inner ring, 6- first are cooling Water inlet fixing groove, 7- the second coolant intake fixing groove, 8- coolant intake, 9- cooling water outlet mouth, the first cooling water outlet of 10- Mouth fixing groove, 11- the second cooling water outlet mouth fixing groove, 12- airtight chamber, 31- water inlet, 32- water outlet, 301- through-hole, 302- fuisw rib.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts All other embodiment obtained, fall within the protection scope of the utility model.

In the description of the present invention, it should be understood that term " aperture ", "upper", "lower", " side ", " in ", Indicating positions or the positional relationship such as "outside", "inner", " side ", are merely for convenience of describing the present invention and simplifying the description, and It is not that the component of indication or suggestion meaning or element must have a particular orientation, is constructed and operated in a specific orientation, therefore It should not be understood as limiting the present invention.

Embodiment one

The utility model is a kind of drum type washing drying integral machine, as shown in Figure 1, including steel ladle 1；Steel ladle 1 includes containing Bucket rear wall 2；Steel ladle rear wall 2 offers axis hole；

As shown in figure 3,2 medial surface of steel ladle rear wall is provided with several threaded mounting holes, 2 medial surface of steel ladle rear wall Condensate pans 3 are fixedly connected with, and form airtight chamber 12 between steel ladle rear wall 2 and condensate pans 3；Airtight chamber 12 is used for Cooling water carries out cooling water to store effect when circulating；

As shown in Figure 2-5,2 lateral surface of steel ladle rear wall be fixedly connected with the cooling that is connected with airtight chamber 12 into The mouth of a river 8 and cooling water outlet mouth 9；

Wherein, it is solid to be set side by side with the first coolant intake for relatively cool 8 position of water inlet of 2 lateral surface of steel ladle rear wall Determine slot 6 and the second coolant intake fixing groove 7；Relatively cool 9 position of water outlet of 2 lateral surface of steel ladle rear wall is provided with first Cooling water outlet mouth fixing groove 10 and the second cooling water outlet mouth fixing groove 11 pass through the first coolant intake fixing groove 6 and second of setting Coolant intake fixing groove 7 and the first cooling water outlet mouth fixing groove 10 and the second cooling water outlet mouth fixing groove 11, convenient for cooling Water water pipe passes through, while so that cooling water water pipe is preferably consolidated with coolant intake 8 and cooling water outlet mouth 9 by circlip It is fixed；

As shown in fig. 6, condensate pans 3 are plate structure；3 one surface of condensate pans is provided with through-hole 301；301 center of circle of through-hole with it is interior The cylinder axis hole center of circle is overlapped, and diameter of 301 diameter of through-hole greatly with inner cylinder axis hole, condensate pans 3 can be made of metal plate or plastic plate； Wherein, condensate pans outer ring 4 and condensate pans inner ring 5 are fixed on rear side of steel ladle by way of screw, sealing strip, welding or gluing On wall 2, achieve the effect that form airtight chamber 12；

As shown in Figures 4 and 5, when carrying out drying procedure, cooling water is controlled by inlet valve, is flowed by coolant intake 8 close 12 top of closed chamber room, cooling water flow direction such as arrow a and arrow b signal direction in figure；Cooling water enters after airtight chamber 12 by upper Portion flows downward, and airtight chamber 12, cooling water flow direction such as arrow c and the signal side arrow d in figure is discharged by cooling water outlet mouth 9 To；To realize the circulation of cooling water；

Cooling water is separated from each other with the inner roller in steel ladle 1 by the way that airtight chamber 12 is arranged, and both avoids cooling water The case where clothing is drenched in splashing, also avoids the vapor secondary exacerbation bucket undergarment humidity of cooling water generation；It is excellent in its structure The size for having changed complete machine, reduces space hold.

Cooling water inflow in airtight chamber 12 can be big by the cross section of proportion coolant intake 8 and cooling water outlet mouth 9 It is small, the inflow and water yield of cooling water are controlled, cooling water is made to fill entire airtight chamber 12 under the action of water feeding pressure Meanwhile also keeping the bulk temperature of cooling water in entire airtight chamber 12；When cooling water is gradually filled with airtight chamber 12, because of heat Exchange interaction, condensate pans 3 can be cooled water cooling, and hull-skin temperature will approach with cooling water temperature in airtight chamber 12, from And outer 3 outer surfaces of condensate pans form cryosurface, the damp-heat air in steel ladle 1 blows to 3 outer surface of condensate pans, such as arrow e in figure It is shown；Damp-heat air condenses to form droplet, 1 bottom of steel ladle is flowed to by 3 outer surfaces outside condensate pans, such as arrow f institute in figure Show, is discharged finally by discharge outlet.

Preferably, the water outlet of cooling water can be direct after cooling water enters airtight chamber 12 by coolant intake 8 It is located at the most lower edge of condensate pans 3, cooling water flows directly into bottom in steel ladle 1 by airtight chamber 12；It is expelled directly out by draining pump；This Mode water level control is more accurate, meanwhile, it is not required to setting cooling water outlet mouth 9, complete machine structure is more succinct, provides for production process It is convenient.

Preferably, the relatively cool 8 position array of water inlet of condensate pans 3 has several fuisw ribs 302, fuisw rib 302 The relatively cool 8 side cyclization of water inlet in one end is directed toward the center location of coolant intake 8 around shape, exists in this way convenient for cooling water Into after airtight chamber 12, by the guide functions of fuisw rib 302, cooling water is made quickly to be covered with the surface of condensate pans 3, improved Condensation effect；Increase the surface area of condensate pans 3 simultaneously, so that cooling water can more fully carry out cold and hot exchange, keeps temperature It is constant；

Can also side of the coolant intake 8 in airtight chamber 12 be set as fan nozzle structure, can be polygonal by cooling water The surface of condensate pans 3 keeps temperature permanent so that cooling water can more fully carry out cold and hot exchange in degree injection airtight chamber 12 It is fixed.

As another preferred solution, condensate pans 3 are made of semiconductor chilling plate, the condensate pans 3 and 2 shape of steel ladle rear wall At airtight chamber 12 be semiconductor chilling plate radiating surface, one side in steel ladle 1 is chill surface, at this time with closed chamber The coolant intake 8 and cooling water outlet mouth 9 that room 12 is connected to are corresponding air inlet and air outlet, form interior follow by ducting assembly Ring, air are heated by the radiating surface of semiconductor chilling plate, in chill surface condensed steam；Since semiconductor chilling plate is constituted 3 no-cooling-water of condensate pans, temperature control it is also more accurate, drying tunnel heating-pipe structure is optimized in structure, is reduced to whole The occupancy of machine size；

Embodiment two

The utility model is a kind of drum type washing drying integral machine, as shown in Figure 1, including steel ladle 1；Steel ladle 1 includes containing Bucket rear wall 2；Steel ladle rear wall 2 offers inner cylinder axis hole；Transmission shaft of the inner cylinder axis hole between motor and inner cylinder passes through；

2 medial surface of steel ladle rear wall is provided with several cylindrical end tangs, is provided with threaded hole in cylindrical end tangs；On rear side of steel ladle 2 medial surface of wall is provided with two through holes；

As Figure 7-9, condensate pans 3 are closed chamber part structure；3 one side of condensate pans is fixedly connected with to be connected with closed chamber Logical water inlet 31 and water outlet 32；Water inlet 31 and water outlet 32 pass through passing through on 2 medial surface of steel ladle rear wall respectively Perforation is directly connect with cooling water pipe；Condensate pans 3 are provided with fixation hole corresponding with cylindrical end tangs upper screwed hole, and pass through spiral shell Nail is fixedly connected；Cylindrical end tangs make to generate open gap between condensate pans 3 and steel ladle rear wall 2, by designing condensate pans 3 For closed chamber part structure, then condensate pans 3 divide for former and later two faces, and two faces seal to form closed chamber, when the closed chamber of condensate pans 3 After being inside passed through cooling water, former and later two faces of condensate pans 3 will all form cryosurface, to increase condensation area, further mention High condensation efficiency.

Embodiment three

Condensate pans 3 pass through spiral shell with 2 surface of steel ladle rear wall such as aluminium alloy plate or stainless steel plate for metal plate-like structure Nail is fixedly connected, and is bonded completely with 2 surface of steel ladle rear wall, and airtight chamber 12 is not provided with；Cooling water is supplied by cooling water Component is answered, by coolant intake 8 directly through 3 surface of condensate pans, strip beading can be set on condensate pans 3, realized to cold But water shunting function makes cooling water more fully flow through entire 3 surface of condensate pans, increases the condensation area of cooling water, cooling Water, which flows through, to be flowed directly into the bucket bottom of steel ladle 1 behind 3 surface of condensate pans and is discharged by draining pump；

Preferably, the form of plastic production can be used in condensate pans 3 and steel ladle 1, makes 3 back side of condensate pans and is filled with water Bucket rear wall 2 is bonded completely, and condensate pans 3 are covered by one side in steel ladle rear wall 2, and another side exposes steel ladle rear wall 2 Surface, and strip beading is set, realizes to cooling water shunting function, cooling water is made more fully to flow through entire condensate pans 3 Surface, increases the condensation area of cooling water, and cooling water flows directly into the bucket bottom of steel ladle 1 by draining after flowing through 3 surface of condensate pans Pump discharge；

It is produced using plastic technique, that is, solves the problems, such as the installation strength that condensate pans 3 are mounted on steel ladle 1, while The overall structural strength for increasing steel ladle 1 improves the stability of complete machine.

In the description of this specification, the description of reference term " one embodiment ", " example ", " specific example " etc. means Particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least one of the utility model In embodiment or example.In the present specification, schematic expression of the above terms be not necessarily referring to identical embodiment or Example.Moreover, particular features, structures, materials, or characteristics described can be in any one or more embodiment or examples In can be combined in any suitable manner.

The preferred embodiment in the utility model disclosed above is only intended to help to illustrate the utility model.Preferred embodiment is simultaneously There is no the details that detailed descriptionthe is all, also not limiting the utility model is only the specific embodiment.Obviously, according to this theory The content of bright book can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to preferably The principles of the present invention and practical application are explained, so that skilled artisan be enable to better understand and utilize this Utility model.The utility model is limited only by the claims and their full scope and equivalents.

Claims (4)

1. a kind of drum type washing drying integral machine, including steel ladle (1)；The steel ladle (1) includes steel ladle rear wall (2)；Institute It states steel ladle rear wall (2) and offers inner cylinder axis hole；It is characterized by:

Steel ladle rear wall (2) medial surface is fixedly connected with condensate pans (3), and steel ladle rear wall (2) and condensate pans (3) Between formed airtight chamber (12)；

Steel ladle rear wall (2) lateral surface be fixedly connected with the coolant intake (8) being connected with airtight chamber (12) and Cooling water outlet mouth (9)；

The condensate pans (3) are plate structure；(3) one surface of condensate pans is provided with through-hole (301).

2. a kind of drum type washing drying integral machine according to claim 1, which is characterized in that the condensate pans (3) are metal Plate or plastic plate；The condensate pans (3) relatively cool water inlet (8) position array has several fuisw ribs (302).

3. a kind of drum type washing drying integral machine according to claim 1, which is characterized in that the condensate pans (3) are closed Chamber part structure.

4. a kind of drum type washing drying integral machine according to claim 3, which is characterized in that condensate pans (3) one side Equipped with the water inlet (31) and water outlet (32) being connected with closed chamber.