CN207452524U - A kind of roller washing-drying integral machine - Google Patents

Abstract

The utility model discloses a kind of roller washing-drying integral machines, including steel ladle, roller and cooling water supply unit, the cooling water supply unit is by cooling water intake tunnel by chilled(cooling) water supply (CWS) to the steel ladle wall surface, to form cryosurface in the steel ladle wall surface, the port of export of cooling water intake tunnel is located at the top of steel ladle wall surface, the by-passing parts shunted to cooling water water inlet are equipped in the port of export of cooling water intake tunnel, the port of export is split component and separates and form shunting outlet, cooling water is split component shunting and flows to steel ladle wall surface from shunting outlet.The utility model is simple for structure, splash-proof, save space, condensation water route stablize.

Description

A kind of roller washing-drying integral machine

Technical field

The utility model is related to roller washing machines.

Background technology

Roller washing machine with drying function, when drying clothing, air is heated by the heaters, and subsequently enters roller It is interior that hygroscopic desiccation is carried out to moistening clothing, become damp-heat air；Then damp-heat air enters condenser, vapor quilt therein Condensation, the air for being removed vapor are back to heater again, repeat this process until cloth drying.

For individually in the washing machine of steel ladle back side design condensation channel, which increasing product longitudinal size, cost It is higher, while the line bits that drying is taken out of can be entered in condensation channel, and line bits can not be removed directly, easy blocking channel.

For directly in conjunction with the structure designed in steel ladle wall surface, condenser is entered control particularly for cooling water It is important, therefore, to assure that water route stability.Generally cooling water is sent into using the adapter component of separate type on existing market and is condensed Component, since space is limited in steel ladle, adapter water outlet also requires flow velocity, and current will be ejected into steel ladle inner wall, But water outlet open area is smaller, mismachining tolerance is big, while may increase or reduce water outlet face during long-term washing and use Product, influences water discharge speed, may cause cooling water splashing or can not be sprayed onto steel ladle inner wall.It also needs to consider switching simultaneously The problem of head seals and is fixed, makes structure more complicate.

In addition, existing washing machine cryosurface is more smooth, current prolong smooth inner wall and flow down, due to drums inside wind speed quickly, Current, which lack, to be protected, current poor adhesive force, and path is unstable.

Utility model content

Technical problem to be solved in the utility model is just to provide a kind of roller washing-drying integral machine, simple for structure, section Save space.

In order to solve the above technical problems, the utility model adopts the following technical solution：A kind of roller washing-drying integral machine, including Steel ladle, roller and cooling water supply unit, it is characterised in that：The cooling water supply unit will by cooling water intake tunnel Chilled(cooling) water supply (CWS) is to the steel ladle wall surface, to form cryosurface in the steel ladle wall surface, cooling water intake tunnel The port of export is located at the top of steel ladle wall surface, is equipped in the port of export of cooling water intake tunnel and cooling water water inlet is shunted By-passing parts, the port of export be split component separate and formed shunting outlet, cooling water be split component shunting and from point Outflux flows to steel ladle wall surface.By the shunting function of by-passing parts, the current side for flowing to steel ladle wall surface can be made To and flow change, stablize cooling water channel, elimination dabbles phenomenon, without other gears particularly between condensation part and roller During wet part, due to overcoming for the phenomenon that dabbles, water, which is just not easy to be splashed into roller, drenches clothing.Further, since the direct shape of cryosurface Into in steel ladle wall surface, space hold is also greatly reduced so that product build is optimised.

A kind of optional scheme, the steel ladle wall surface is equipped with guides the cooling water of shunting into left side wall surface respectively With the drainage muscle of right side wall surface.

The drainage muscle has the herringbone the initial segment being symmetrical set, and herringbone the initial segment is positioned under by-passing parts End, it is simple for structure, it is at low cost.Optional mode, the drainage muscle extend downwardly setting around the center of steel ladle wall surface. By draining the design of muscle, the path that flows through of cooling water is added, improves condensation efficiency.

A kind of optional scheme, described drain offer shunting notch on muscle close to one end of shunting outlet.Along drainage muscle The cooling water of trend is by, by second diffluence, a part continues along drainage muscle flowing, and another part is lacked from shunting during shunting notch Mouth flows downward out.

A kind of optional scheme is provided around steel ladle wall surface on the steel ladle wall surface below the drainage muscle Centrally disposed choked flow muscle, from it is described shunting notch enter cooling water spread along choked flow muscle to steel ladle wall surface.Choked flow muscle Preferably arc choked flow muscle.

A kind of optional scheme, the steel ladle wall surface center ring shaft through hole are equipped with dehydrating shaft and protect muscle.

The by-passing parts are the shunting muscle for being located at the port of export, and the port of export is divided by shunting muscle to be symmetrical set Two shunting outlet.Shunting muscle is optional to be designed as en plaque shunting muscle.

Optionally, draw along the steel ladle wall surface in shunting outlet towards the drainage muscle direction equipped with what is be recessed inwardly Chute.The port of export is divided into the structure of be symmetrical set two shunting outlets for by-passing parts, the drainage trough is Corresponding two, two drainage troughs are symmetrical set centered on shunting muscle, each shunting outlet and the drainage trough phase of homonymy It is logical.And it is optional, the transverse width that each drainage trough is moved towards along current changes from small to big.It is simple for structure, it is at low cost.Drainage trough Cooling water can be pulled to steel ladle internal face by design, preferably eliminate the phenomenon that dabbles, while optimize the shunting effect of shunting muscle.

Further, the wall surface of the drainage trough is cambered surface, and the water of shunting outlet outflow is flowed to along the cambered surface of drainage trough Drain muscle.The design further improves the drainage effect of drainage trough.

It is located at least in the gradual change inclined-plane that cylinder axis line is high centered on the steel ladle wall surface of upper bit, edge is low.Example Such as a kind of comparison symmetrically optional design, the steel ladle wall surface is the surface of revolution using cylinder axis line as shaft, to be located at The vertical plane perpendicular to cylinder axis line in front of steel ladle wall surface is reference, from roller wall surface edge to center position, The distance between the busbar of the surface of revolution and described vertical plane continuously decrease.

A kind of optional scheme, the steel ladle wall surface are dermatoglyph face, and the wall surface of steel ladle is done at dermatoglyph roughening Reason further strengthens the adhesive force of cooling water.

A kind of optional scheme offers several ventilation holes on the wall surface of the roller.When can so control drying High humility air can more more effectively with cooling water carry out heat exchange.

The inlet through hole that the cooling water intake tunnel is integrally formed on steel ladle bottom wall.The design structure is simpler Change, save space so that intake tunnel has the design space of bigger, with preferably water inlet effect design of practising.

The utility model roller washing-drying integral machine structure more simplifies, easy to process, at low cost.It has following beneficial to effect Fruit：

1st, shunting muscle design can make the water (flow) direction for flowing to steel ladle wall surface and flow change, and elimination dabbles existing As when particularly between condensation part and roller without other water blocking members, due to overcoming for the phenomenon that dabbles, water is just not easy to be splashed into Roller drenches clothing.

2nd, individual condensation channel is cancelled, the volume for reducing washing-drying integral machine while ensures condensation effect, improves drying Efficiency.

3rd, the design of muscle, the muscle that blocks water, dehydrating shaft protection muscle is shunted in steel ladle wall surface, the line bits that drying hot wind is allowed to take out of It is intercepted and in steel ladle, in such washing process the flowing of water can rinse line bits and take away steel ladle wall surface, reach To automatic cleaning action.

4th, integral flow dividing structure is done on steel ladle, shunts cooling water on the premise of not increasing component (adapter), is expanded Big cooling water outlet area is big, stationary flow.

5th, flow guiding structure guide cooling water flow direction is set in steel ladle wall surface, drainage can increase cooling water current contact surface While the surface tension of current can be made full use of to ensure it not by high speed wind effect in roller, in addition also so that cooling water will not It is secondary to drench clothing.

Description of the drawings

Below in conjunction with the accompanying drawings and specifically mode is applied to be further described the utility model：

Fig. 1 is the front view of the steel ladle inner wall of the utility model roller washing-drying integral machine；

Fig. 2-1 is enlarged drawing at I in Fig. 1；

Fig. 2-2 is the enlarged drawing of Fig. 2-1 middle outlets end position；

Fig. 3 is A-A sectional views in Fig. 2；

Fig. 4-1 is steel ladle inner wall shape schematic diagram；

Fig. 4-2 is Fig. 4-1 first half enlarged drawings；

Fig. 5 is the flow direction schematic diagram of corresponding diagram 1；

Fig. 6 is Fig. 1 by the schematic diagram of roller bottom wall occlusion state；

Fig. 7 is the scheme of installation of the utility model roller washing-drying integral machine cooling water pipe.

Specific embodiment

As shown in Figure 1, Figure 2-1, it is the embodiment of the utility model roller washing-drying integral machine shown in Fig. 2-2, Fig. 3 and Fig. 6.It should Roller washing-drying integral machine includes steel ladle 1, roller 2 and cooling water supply unit, and the cooling water supply unit passes through cooling water Intake tunnel 12 is by chilled(cooling) water supply (CWS) to the steel ladle wall surface 11, to form cryosurface in the steel ladle wall surface, by Steel ladle wall surface is formed directly into cryosurface, greatly reduces space hold so that product build is optimised.It is described The port of export 121 of cooling water intake tunnel 12 is located at the top of steel ladle wall surface, in the port of export 121 of cooling water intake tunnel Equipped with the by-passing parts shunted to cooling water water inlet.The port of export 121 is split component and separates and form shunting outlet 122.By the diversion design of by-passing parts, the water (flow) direction for flowing to cryosurface and flow can be made to change, also slowed down cold But direct impact of the water water inlet to condensation part import position, stablizes cooling water channel, the phenomenon that dabbles is eliminated, particularly in condensation part When between roller without other water blocking members, due to overcoming for the phenomenon that dabbles, water, which is just not easy to be splashed into roller, drenches clothing.This reality Apply by-passing parts in example be designed as symmetrical shunting form (multiple exit shunting form can certainly be divided into, such as left, center, right or The flow dividing structure of other unsymmetric forms).The cooling water intake tunnel then may be designed as common cylindric or round table-like.

As shown in Figure 1, drench clothing, 11 center ring shaft of steel ladle wall surface in order to avoid cooling water enters inner wall of rotary drum Through hole 10 is equipped with dehydrating shaft and protects muscle 19, prevents cooling water prolongs inner wall in the extreme circumstances from flowing to dehydrating shaft hence into roller.

As shown in figure 3, the port of export 121 of cooling water intake tunnel 12 is located at the top of steel ladle wall surface in the present embodiment Portion, from top to bottom cooling water intake tunnel is integrated cooling water intake tunnel 12 in steel ladle rear portion wall body, the present embodiment The inlet through hole being molded on steel ladle bottom wall, cooling water intake tunnel, which is located on the outside of steel ladle, to be shaped to connect cooling water The interface of pipe 13.Interface can be straight tube or bent pipe fashion.Cooling water intake tunnel 12 can be cylindrical or truncated cone-shaped or Other common shapes.

Such as Fig. 7, the cooling water pipe 13 of the roller washing-drying integral machine of the utility model is connected to fixed part inlet valve 3 and is filled with water Bucket 1, steel ladle, which is present with, when washing machine works rocks, and cooling water pipe 13 is designed by U-shaped reflexed sizing shape tube, cooling water pipe U-shaped portion 131 it is horizontally disposed, the interface that the port of export 132 of U-shaped portion is bent downward afterwards with cooling water intake tunnel 12 is connected, this Sample can provide stroke when steel ladle 1 moves, and avoid pullling, while U-shaped modular in design, can utilize space to greatest extent, keep away Exempt from the abrasion of cooling water pipe 13 in movement.

As shown in Figure 1, Figure 2-1, shown in Fig. 2-2, Fig. 3, for the ease of statement, steel ladle wall surface 11 is regarded as by left side bottom wall Face 111 and 112 two parts of right side wall surface are formed, and left side wall surface 111 and right side wall surface 112 can be common left and right pair Claim structure.It is equipped on the steel ladle wall surface 11 and guides the cooling water of shunting into left side wall surface 111 and right side bottom respectively The drainage muscle 14 of wall surface 112, drainage muscle have the herringbone the initial segment 141 being symmetrical set, and herringbone the initial segment 141 positions In by-passing parts lower end, drainage muscle 14 extends downwardly setting around the center of steel ladle wall surface.Drain muscle 14 and by-passing parts It can be connected as one, according to the different designs of the port of export, drain muscle and by-passing parts or disjunct design.This reality The shunting muscle 15 that by-passing parts described in example are located at the port of export 121 for one is applied, the port of export 121 is divided into left and right by shunting muscle Symmetrically arranged two shuntings outlet 122 shunts muscle 15 as the en plaque with 11 integral structure of steel ladle wall surface shown in figure Structure, meanwhile, drainage muscle 14 is connected as one with by-passing parts (shunting muscle), and the thickness of en plaque shunting muscle, length can bases Actual washing machine capacity is adjusted.The design of drainage muscle makes cooling water be become two-sided from single side cooperation from roller bottom wall and matched somebody with somebody It closes, the surface tension and flow resistance of bigger will be generated, surface tension can prevent that high wind disturbs in roller, ensures cooling water Stability, flow resistance can reduce cooling water flow velocity, enable the cooling water of unit quantity in inner wall of rotary drum there are the longer time, More heat exchanges are completed, absorb more vapor.

In the present embodiment, export 122 along the shunting and (exported towards drainage muscle 14 direction along current from shunting to drawing Flow muscle direction) steel ladle wall surface on be additionally provided with the drainage trough 16 being recessed inwardly, the drainage trough is to shunt muscle 15 Center is symmetrical set, and each shunting outlet for shunting muscle is communicated with the drainage trough 16 of homonymy.Corresponding foregoing by-passing parts will The port of export is divided into the structure for two shunting outlets being symmetrical set, and drainage trough described here is corresponding two, two Drainage trough is symmetrical set centered on shunting muscle 15, and each shunting outlet is communicated with the drainage trough of homonymy.And optional, edge The trend of current, the transverse width of each drainage trough changes from small to big.The design of drainage trough can pull to cooling water in steel ladle Wall preferably eliminates the phenomenon that dabbles, while optimizes the shunting effect of shunting muscle.The wall surface of the drainage trough can be designed as arc Face, the water of shunting outlet outflow drain muscle along the cambered surface flow direction of drainage trough.The design can further improve the drainage effect of drainage trough Fruit.

As shown in Figure 1, Figure 2 in -1, shunting notch 17 is offered close to one end of shunting outlet on the drainage muscle.Along drainage The cooling water of muscle trend is by by second diffluence, a part continues along drainage muscle flowing during shunting notch, and another part is from shunting Notch flows downward out.The present embodiment shunting notch 17 is symmetrical four.Further design, under the drainage muscle The centrally disposed choked flow muscle 18 of steel ladle wall surface is provided around on the steel ladle wall surface of side, from the shunting notch 17 into The cooling water entered is spread along choked flow muscle to steel ladle wall surface.Choked flow muscle is preferably arc choked flow muscle.Muscle, resistance are drained in the present embodiment Stream muscle is structure as a whole with steel ladle wall surface, i.e., condensation structure is structure as a whole with steel ladle wall surface.Likewise, this Shunted in embodiment muscle, drainage trough etc. can and steel ladle wall surface integrated design so that structure can very simplify, processing It is convenient, it is at low cost.

Such as Fig. 4-1, Fig. 4-2, the steel ladle wall surface 11 is the surface of revolution using cylinder axis line OO as shaft, to be located at The vertical plane perpendicular to cylinder axis line in front of steel ladle wall surface is reference, from roller wall surface edge to center position, The distance between the busbar of the surface of revolution and described vertical plane continuously decrease, similar to a top surface to recessed dome shape.It should Design makes steel ladle wall surface take the form of inclined plane, and cooling water section partical gravity can will be on cooling water pressure to steel ladle bottom wall.Simultaneously According to the flow direction schematic diagram in Fig. 5, dermatoglyph roughening treatment is done to steel ladle wall surface as dermatoglyph face, increase cooling water with The adhesive force of steel ladle wall surface.Certainly, the program can also deform, above-mentioned inclined-plane without entire surface of revolution same design, It can be designed as being located at least in the gradual change inclined-plane that cylinder axis line is high centered on the steel ladle wall surface of upper bit, edge is low. Inclined-plane can not be designed with the steel ladle wall surface of lower portion positioned at cylinder axis line or be designed as other shapes.

In the utility model, several ventilation holes 21 are offered on the wall surface of the roller 2.Meeting in drum assembly during drying Air full of high humility, highly humid air flow directly into steel ladle wall surface 11 by ventilation hole, with steel ladle wall surface and stream The cooling water moved in steel ladle wall surface completes heat exchange, and the water that is cooled of the vapor in highly humid air is taken away, dry air It is recirculated back to by fan component in drum assembly.Therefore the cryosurface of the utility model can extend be interpreted as the foregoing surface of revolution and Except the external enwergy of the surface of revolution and remaining steel ladle wall surface of damp-heat air heat exchange.

As shown in figure 5, moving towards schematic diagram for the cooling water current of previous embodiment, cooling water enters cold from cooling water pipe 13 But water intake tunnel 12 divides using shunting muscle 15 for two-way current, but two path water is closer to the distance because the surface of water at this time Power and characteristic of climbing are susceptible to converging phenomenon again, therefore increase drainage trough 16, drainage trough wall surface can be designed as along The cambered surface of current trend, the water after guiding shunting can flow into the herringbone the initial segment 141 of drainage muscle 14 along drainage trough wall surface, Two path water along herringbone muscle the initial segment to both sides flow, four strands of current are split into two notches 17 each by both sides, from lack The cooling water that mouth enters is flowed into choked flow muscle 18.After cooling water is imported through shunting outlet and drainage trough, made by water own wt With along drainage muscle, choked flow muscle toward flowing down, steel ladle wall surface is paved with, to carry out heat exchange with damp-heat air, to damp-heat air It dehumidifies, is finally discharged from the discharge outlet 4 for the bottom of the barrel that is filled with water.

By-passing parts, drainage muscle, the structure type of cryosurface are not limited to the public affairs in above-described embodiment in the utility model It opens, core concept according to the present utility model can have various variant embodiments.That is, except above-mentioned preferred reality Exception is applied, the utility model there can also be other each group embodiments, and those skilled in the art can be according to the utility model It makes various changes and modifications, without departing from the spirit of the utility model, should all belong in the utility model claims book Defined scope.

Claims (19)

1. a kind of roller washing-drying integral machine, including steel ladle, roller and cooling water supply unit, it is characterised in that：The cooling Water supply by cooling water intake tunnel by chilled(cooling) water supply (CWS) to the steel ladle wall surface, in the steel ladle bottom wall Face forms cryosurface, and the port of export of cooling water intake tunnel is located at the top of steel ladle wall surface, in cooling water intake tunnel The port of export is equipped with the by-passing parts shunted to cooling water water inlet, and the port of export is split component and separates and formed and distributed Mouthful, cooling water is split component shunting and flows to steel ladle wall surface from shunting outlet.

2. roller washing-drying integral machine according to claim 1, it is characterised in that：The steel ladle wall surface, which will be equipped with, to be divided The cooling water of stream guides the drainage muscle of left side wall surface and right side wall surface into respectively.

3. roller washing-drying integral machine according to claim 2, it is characterised in that：The drainage muscle, which has, to be symmetrical set Herringbone the initial segment, herringbone the initial segment is positioned at by-passing parts lower end.

4. roller washing-drying integral machine according to claim 3, it is characterised in that：The drainage muscle is around steel ladle wall surface Center extend downwardly setting.

5. roller washing-drying integral machine according to claim 2, it is characterised in that：Close to shunting outlet on the drainage muscle One end offers shunting notch.

6. roller washing-drying integral machine according to claim 5, it is characterised in that：Steel ladle below the drainage muscle The centrally disposed choked flow muscle of steel ladle wall surface is provided around on wall surface.

7. roller washing-drying integral machine according to claim 2, it is characterised in that：It is exported along the shunting to drainage muscle direction Steel ladle wall surface be equipped with the drainage trough that is recessed inwardly.

8. roller washing-drying integral machine as claimed in any of claims 2 to 7, it is characterised in that：The by-passing parts To be located at the shunting muscle of the port of export, the port of export is divided into two shunting outlets being symmetrical set by shunting muscle.

9. roller washing-drying integral machine according to claim 8, it is characterised in that：It is exported along the shunting towards shunting muscle side To steel ladle wall surface be equipped with the drainage trough that is recessed inwardly, the drainage trough is symmetrical set centered on shunting muscle, The shunting outlet of each shunting muscle is communicated with the drainage trough of homonymy.

10. roller washing-drying integral machine according to claim 9, it is characterised in that：Each drainage trough is moved towards along current Transverse width changes from small to big.

11. roller washing-drying integral machine according to claim 1, it is characterised in that：The steel ladle wall surface is dermatoglyph face.

12. roller washing-drying integral machine according to claim 1, it is characterised in that：It is offered on the wall surface of the roller Several ventilation holes.

13. roller washing-drying integral machine as claimed in any of claims 1 to 7, it is characterised in that：The steel ladle bottom Wall surface center ring shaft through hole is equipped with dehydrating shaft and protects muscle.

14. roller washing-drying integral machine according to claim 8, it is characterised in that：The by-passing parts for be located at it is described go out The en plaque shunting muscle at mouth end.

15. roller washing-drying integral machine as claimed in any of claims 1 to 7, it is characterised in that：The cooling water into Aquaporin is integrally formed the inlet through hole on steel ladle bottom wall.

16. roller washing-drying integral machine as claimed in any of claims 1 to 7, it is characterised in that：It is located at least in roller The gradual change inclined-plane that axial line is high centered on the steel ladle wall surface of upper bit, edge is low.

17. roller washing-drying integral machine as claimed in any of claims 1 to 7, it is characterised in that：The steel ladle bottom Wall surface is the surface of revolution using cylinder axis line as shaft, to be located at the hanging down perpendicular to cylinder axis line in front of steel ladle wall surface It faces directly as reference, from roller wall surface edge to center position, the distance between the busbar of the surface of revolution and the vertical plane It continuously decreases.

18. the roller washing-drying integral machine according to any one in claim 7 or 9, it is characterised in that：The drainage trough Wall surface is the cambered surface along current trend, and shunting exports the water of outflow along the cambered surface flow direction drainage muscle of drainage trough.

19. roller washing-drying integral machine as claimed in any of claims 1 to 7, it is characterised in that：Connecting portion into The cooling water pipe of water valve and steel ladle has U-shaped portion, and the U-shaped portion is horizontally disposed, the port of export of U-shaped portion bend downward after with it is cold But the interface connection of water intake tunnel.