阅读说明：本技术 高效蒸湿机 (High-efficiency steaming and wetting machine ) 是由 汪腊新 于 2020-04-08 设计创作，主要内容包括：本申请涉及制鞋技术领域,提供一种高效蒸湿机,包括蒸汽发生器和鞋面容纳箱,蒸汽发生器用于产生水蒸汽；鞋面容纳箱具有上敞口设置且用于容纳鞋面的鞋面容纳腔,并具有至少一个蒸汽加热组件,蒸汽加热组件包括由金属制成的导汽结构以及用于加热导汽结构的加热结构,导汽结构开设有用于接收水蒸汽的进汽口、与鞋面容纳腔连通的出汽口以及连通进汽口和出汽口的导汽通道,加热结构用于加热导汽结构并使导汽结构温度高于水蒸汽的温度。本申请提供的高效蒸湿机通过加热结构和导汽结构利用热传递来提高水蒸汽的热量/温度,该高效蒸湿机无需增压也能实现鞋面的蒸湿作业,使用方便且安全性能高。(The application relates to the technical field of shoemaking, and provides a high-efficiency steam-wet machine which comprises a steam generator and a vamp accommodating box, wherein the steam generator is used for generating steam; the vamp holds the case and has last uncovered setting and be used for holding the vamp of vamp and hold the chamber to at least one steam heating element has, steam heating element includes the steam guide structure of making by the metal and is used for heating the heating structure of steam guide structure, steam guide structure offers the steam inlet that is used for receiving steam, hold the play steam port of chamber intercommunication and the steam guide channel of intercommunication steam inlet and play steam port with the vamp, heating structure is used for heating steam guide structure and makes steam guide structure temperature be higher than the temperature of steam. The application provides a high-efficient wet machine of evaporating utilizes the heat transfer to improve steam's heat/temperature through heating structure and leading vapour structure, and this high-efficient wet machine of evaporating need not the pressure boost and also can realize evaporating wet operation of vamp, and convenient to use and security performance are high.)

1. The utility model provides a wet machine is evaporated to high efficiency for evaporate wet operation to vamp, its characterized in that includes:

a steam generator for generating steam;

the vamp holds the case, has the uncovered setting of going up and is used for holding the vamp of vamp holds the chamber to at least one steam heating element has, steam heating element includes the steam guide structure of making by the metal and is used for heating the heating structure of steam guide structure, steam guide structure offers and is used for receiving steam inlet, with the vamp holds the steam outlet and the intercommunication of chamber intercommunication steam inlet with the steam outlet lead the steam passageway, heating structure is used for heating steam guide structure makes steam guide structure temperature is higher than steam's temperature.

2. The efficient moisture evaporator according to claim 1, wherein the steam guide structure of at least one of the steam heating assemblies is a first steam guide structure, the first steam guide structure comprises a steam outlet plate, a steam guide plate and a steam inlet plate which are sequentially stacked, the steam guide plate is provided with a steam guide channel which is arranged in a through manner and is in a groove shape, the steam outlet plate is provided with a plurality of steam outlets which are communicated with the steam guide channel, and the steam inlet plate is provided with at least one steam inlet which is communicated with the steam guide channel.

3. The efficient moisture evaporator of claim 2 wherein each of said steam outlets of said steam outlet plate are arranged in a rectangular array.

4. The high efficiency dehumidifier of claim 2 wherein each of said steam outlets of said steam outlet plate has a cross-sectional dimension that is less than a cross-sectional dimension of said steam inlet plate.

5. The efficient steam moisture machine according to claim 1, wherein the steam guide structure of one of the steam heating assemblies is a second steam guide structure, the second steam guide structure comprises a steam passing plate and at least one steam guide block connected with the steam passing plate, the steam passing plate is provided with at least one steam outlet arranged in a groove shape and penetrating through the steam passing plate, the side of the steam guide block facing the steam passing plate is provided with the steam guide channel arranged opposite to and communicated with the steam outlet, and the steam inlet arranged in a staggered manner with the steam outlet and communicated with the steam guide channel is arranged beside the steam guide channel.

6. The high efficiency moisture evaporator as set forth in claim 5 wherein said steam inlet of said steam guide block extends in a direction parallel to the direction of extension of said steam outlet of said steam admission plate.

7. The efficient moisture steaming machine as claimed in claim 1, further comprising at least one upper support member for supporting the upper and a support driver connected to the upper support member for driving the upper support member to move up and down, wherein the upper support member can drive the upper into and out of the upper receiving cavity under the driving of the support driver.

8. The efficient moisture steaming machine as claimed in claim 7, wherein the upper supporting member has a plurality of steam holes for passing the steam therethrough, which are formed on a side thereof for supporting the upper.

9. The efficient steaming and moisture-removing machine according to claim 7, further comprising a steaming and moisture-removing closing cover which is arranged on the upper side of the vamp supporting piece and connected with the supporting driver, wherein the steaming and moisture-removing closing cover can move up and down together with the vamp supporting piece under the driving of the supporting driver and cover the upper side opening of the vamp accommodating cavity when the vamp supporting piece is positioned in the vamp accommodating cavity.

10. The efficient moisture distilling apparatus as recited in claim 1, further comprising at least one steam exhausting fan for exhausting said water vapor and at least one heat dissipating fan for dissipating heat.

Technical Field

The application belongs to the technical field of shoemaking, especially, relate to a high-efficient wet machine that evaporates.

Background

After the shoe upper is lasted, the shoe upper needs to be wetted by steam to soften the shoe upper, so as to be beneficial to the subsequent processing and shaping of the shoe upper. In related industries, a steaming and wetting machine is mostly adopted to realize steaming and wetting operation of the vamp. However, the steaming temperature is often about 170 ℃, and for this reason, the conventional steaming machine mostly adopts a pressurization method to increase the calorific value/temperature of the water vapor, so that the steaming machine needs to perform vamp steaming operation under high pressure, and even explosion risks are easy to occur during dry burning, thereby having great potential safety hazards.

Disclosure of Invention

An object of the embodiment of the application is to provide a high-efficient wet machine that evaporates to solve current wet machine that evaporates and adopt the calorific value/the temperature that the mode of pressure boost improves steam, have the technical problem of great potential safety hazard.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: an efficient steaming and wetting machine for steaming and wetting shoe uppers, comprising:

a steam generator for generating steam;

the vamp holds the case, has the uncovered setting of going up and is used for holding the vamp of vamp holds the chamber to at least one steam heating element has, steam heating element includes the steam guide structure of making by the metal and is used for heating the heating structure of steam guide structure, steam guide structure offers and is used for receiving steam inlet, with the vamp holds the steam outlet and the intercommunication of chamber intercommunication steam inlet with the steam outlet lead the steam passageway, heating structure is used for heating steam guide structure makes steam guide structure temperature is higher than steam's temperature.

In one embodiment, the high-efficiency steam-wet machine further comprises a water storage tank connected with the steam generator and used for storing water and a water shortage buzzer used for alarming when water is in shortage in the water storage tank.

In one embodiment, the steam-guiding structure is made of aluminum.

In an embodiment, the steam guide structure of at least one of the steam heating assemblies is a first steam guide structure, the first steam guide structure includes a steam outlet plate, a steam guide plate and a steam inlet plate, which are sequentially stacked, the steam guide plate is provided with a steam guide channel which is arranged in a through manner and is in a groove shape, the steam outlet plate is provided with a plurality of steam outlets which are communicated with the steam guide channel, and the steam inlet plate is provided with at least one steam inlet which is communicated with the steam guide channel.

In one embodiment, each of the steam outlets of the steam outlet plate is arranged in a rectangular array.

In one embodiment, a cross-sectional dimension of each of the steam outlets of the steam outlet plate is smaller than a cross-sectional dimension of the steam inlet plate.

In an embodiment, the steam guide structure of one of the steam heating assemblies is a second steam guide structure, the second steam guide structure includes a steam passing plate and at least one steam guide block connected to the steam passing plate, the surface of the steam passing plate is provided with at least one steam outlet which is in a groove shape and is arranged in a penetrating manner, the side of the steam guide block facing the steam passing plate is provided with the steam guide channel which is arranged in an opposite manner to the steam outlet and is communicated with the steam outlet, and the side of the steam guide channel is provided with the steam inlet which is arranged in a staggered manner to the steam outlet and is communicated with the steam guide channel.

In one embodiment, the extending direction of the steam inlet of the steam guide block is parallel to the extending direction of the steam outlet of the steam through plate.

In one embodiment, the high-efficiency steaming and wetting machine further comprises at least one upper support piece for supporting the upper and a support driver which is connected with the upper support piece and used for driving the upper support piece to move up and down, and the upper support piece can drive the upper to enter and exit the upper accommodating cavity under the driving of the support driver.

In one embodiment, the upper support includes an upper left support portion and an upper right support portion disposed on a right side of the upper left support portion.

In one embodiment, the upper left support portion is integrally connected with the upper right support portion.

In one embodiment, the upper supporting member has a plurality of steam holes formed through the upper supporting member and through which the steam passes.

In one embodiment, the efficient moisture steaming machine further comprises a moisture steaming closing cover which is arranged on the upper side of the vamp supporting piece and connected with the supporting driver, the moisture steaming closing cover can move up and down together with the vamp supporting piece under the driving of the supporting driver, and the moisture steaming closing cover covers an upper side cavity opening of the vamp accommodating cavity when the vamp supporting piece is located in the vamp accommodating cavity.

In one embodiment, the high efficiency moisture evaporator further comprises at least one steam exhaust fan for exhausting the water vapor and at least one heat radiation fan for radiating heat.

The application provides beneficial effect lies in:

the application provides a high-efficient wet machine of evaporating converts liquid water into steam through steam generator earlier, and heat so that the temperature of leading the vapour structure is higher than the temperature of steam through heating structure to leading the vapour structure, afterwards through sending into the steam guide passageway with steam through the steam inlet in, so that steam and leading the vapour structure contact and realize the heat transfer, thereby can carry out the secondary heating to steam and reach required temperature until steam, reach after presetting the temperature at steam, the accessible steam outlet spouts steam into the vamp from leading the vapour passageway and holds the intracavity, thereby can carry out the operation of evaporating to the vamp that holds the intracavity in the vamp. The application provides a high-efficient wet machine of evaporating utilizes the heat transfer to improve steam's heat/temperature through heating structure and leading vapour structure, and this high-efficient wet machine of evaporating need not the pressure boost and also can realize evaporating wet operation of vamp, and convenient to use and security performance are high.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic perspective view of a high-efficiency moisture evaporator according to an embodiment of the present disclosure;

FIG. 2 is a schematic view of a portion of the high efficiency moisture evaporator provided in FIG. 1;

FIG. 3 is a schematic partial structural view of the upper-receiving box provided in FIG. 2;

FIG. 4 is an exploded view of the first vapor-directing structure provided in FIG. 3;

FIG. 5 is an exploded view of the second vapor-directing structure provided in FIG. 3;

FIG. 6 is a schematic structural view of the upper support, support actuator and steam-wet closure provided in FIG. 2;

fig. 7 is a schematic partial structural view of a high-efficiency steam-wet machine provided in the second embodiment of the present application;

fig. 8 is a schematic structural view of the upper support, support actuator and steam-off closure provided in fig. 7.

Wherein, in the figures, the respective reference numerals:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Water storage tank	200	Steam generator
300	Shoe upper containing box	310	Steam heating assembly
				311	Steam guide structure	3111	Steam inlet
3112	Steam outlet	3113	Steam guide channel
				312	First steam guide structure	3121	Steam outlet plate
3122	Steam guide plate	3123	Steam inlet plate
				313	Second steam guide structure	3131	Steam passing plate
3132	Steam guide block	301	Vamp accommodating cavity
				400	Shoe upper support	410	Left supporting part of shoe upper
420	Upper right supporting part	401	Steam vent
				500	Support driver	600	Steam wet closing cover
700	Steam exhaust fan	800	Heat radiation fan

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the description of the present application, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and does not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, is not to be considered as limiting.

It should be further noted that, in the embodiment of the present application, the XYZ rectangular coordinate system established in fig. 1 is defined as follows: one side in the positive direction of the X axis is defined as the front, and one side in the negative direction of the X axis is defined as the back; one side in the positive Y-axis direction is defined as the left side, and one side in the negative Y-axis direction is defined as the right side; the side in the positive direction of the Z axis is defined as the upper side, and the side in the negative direction of the Z axis is defined as the lower side.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

Specific implementations of the present application are described in more detail below with reference to specific embodiments:

referring to fig. 1-3, the embodiment of the present application provides a high efficiency steaming machine for steaming shoe uppers, which includes a steam generator 200 and a shoe upper accommodating box 300. It is to be noted here that the upper has a sole, a side, a toe cap and a heel, as is conventional.

The steam generator 200 serves to generate steam; the vamp holds case 300 has the setting of upper shed and is used for holding the vamp of vamp and holds chamber 301, and at least one steam heating component 310 has, steam heating component 310 includes the steam-guiding structure 311 that makes by the metal and is used for heating the heating structure who leads steam-guiding structure 311, steam-guiding structure 311 offers the steam inlet 3111 that is used for receiving steam, hold the steam outlet 3112 and the steam-guiding passageway 3113 that feeds through steam inlet 3111 and steam outlet 3112 that the chamber 301 communicates with the vamp, the heating structure is used for heating steam-guiding structure 311 and makes steam-guiding structure 311 temperature be higher than the temperature of steam.

It should be noted that the upper accommodating box 300 has an upper accommodating cavity 301, and when a user wants to steam and wet the upper, the upper can be placed in the upper accommodating cavity 301 from the upper side opening of the upper accommodating cavity 301 to wait for operation. Preferably, in order to make the shoe upper present a three-dimensional state, so as to facilitate the efficient steaming machine to perform a complete steaming operation on the shoe upper, the user may first put the shoe upper into the shoe last, and then put the shoe upper and the shoe last into the shoe upper accommodating cavity 301. After the vamp is placed in the vamp accommodating cavity 301, the steam generator 200 converts the liquid water into steam by heating the liquid water, and the steam generator 200 is further provided with a high temperature resistant pipeline communicated to the steam guide structure 311, so that the steam can be transferred from the steam generator 200 to the steam guide structure 311 through the pipeline. Before the water vapor reaches the steam guide structure 311, the heating structure heats the steam guide structure 311 made of metal in advance, and the temperature of the steam guide structure 311 is higher than the steam-wet operation temperature required to be reached by the water vapor, so that after the water vapor enters the steam guide channel 3113 from the steam inlet 3111, the water vapor is in contact with the steam guide structure 311 for a certain time before being sprayed to the vamp accommodating cavity 301 from the steam outlet 3112, and the heat of the steam guide structure 311 can be transferred to the water vapor by heat transfer, so that secondary heating of the water vapor is realized, the temperature of the water vapor is increased, and the temperature of the water vapor/the ambient temperature of the vamp accommodating cavity 301 can meet the steam-wet requirement of the vamp. For example, if the temperature of the water vapor required by the vamp steaming operation needs to reach about 170 ℃, based on the efficient steaming machine provided in this embodiment, the temperature of the water vapor converted by the steam generator 200 will reach about 100 ℃, and the temperature of the steam guide structure 311 is heated to above 200 ℃, so that the heat can be transferred to the water vapor through the steam guide structure 311 to heat the water vapor to about 170 ℃, thereby maintaining the ambient temperature of the vamp accommodating cavity 301 at about 170 ℃, and thus satisfying the condition requirement of the vamp steaming operation.

The high-efficient wet machine that evaporates that this application embodiment provided converts liquid water into steam through steam generator 200 earlier, and lead steam structure 311 through heating structure and heat so that the temperature of leading steam structure 311 is higher than the temperature of steam, then send into in leading steam channel 3113 through steam inlet 3111 with steam again, so that steam and leading steam structure 311 contact and realize the heat transfer, thereby can carry out the secondary heating to steam until steam reaches required temperature, after steam reaches preset temperature, accessible steam outlet 3112 spouts steam into in vamp holds chamber 301 from leading steam channel 3113, thereby can carry out the operation of evaporating to the vamp of placing in vamp holding chamber 301. The high-efficient wet machine of evaporating that this application embodiment provided utilizes the heat transfer to improve steam's heat/temperature through heating structure and leading vapour structure 311, and this high-efficient wet machine of evaporating need not the pressure boost and also can realize the wet operation of evaporating of vamp, and convenient to use and security performance are high.

Referring to fig. 1-3, in the present embodiment, the high efficiency steam-wet machine further includes a water storage tank 100 connected to the steam generator 200 for storing water and a water shortage buzzer for alarming when there is water shortage in the water storage tank 100. It should be noted that a certain amount of liquid water is stored in the water reservoir 100, and the steam generator 200 is used for pumping the liquid water from the water reservoir 100 by a pumping actuator such as a pumping motor. When the water in the water storage tank 100 is short of water, the water shortage buzzer can sound in time to prompt a user to interrupt the steaming operation in time and supplement water to the water storage tank 100.

Referring to fig. 1-3, in the present embodiment, the steam guide structure 311 is made of aluminum. It should be noted that, based on the arrangement of the embodiment, the heating time of the steam guide structure 311 reaching the preset temperature under the heating of the heating structure can be correspondingly shortened, and the efficiency of heat transfer between the steam guide structure 311 and the water vapor is improved, so that the efficiency of the wet steaming operation of the high-efficiency wet steaming machine can be ensured and improved.

Referring to fig. 2-4, in the present embodiment, the steam guiding structure 311 of at least one of the steam heating assemblies 310 is a first steam guiding structure 312, the first steam guiding structure 312 includes a steam outlet plate 3121, a steam guiding plate 3122, and a steam inlet plate 3123, which are sequentially stacked, a steam guiding channel 3113 is formed on a plate surface of the steam guiding plate 3122, the steam outlet plate 3121 is formed with a plurality of steam outlets 3112, which are respectively communicated with the steam guiding channel 3113, and the steam inlet plate 3123 is formed with at least one steam inlet 3111 communicated with the steam guiding channel 3113. It should be noted that, the steam outlet plate 3121, the steam guide plate 3122, and the steam inlet plate 3123 are sequentially stacked from inside to outside (where "inside" and "outside" refer to the vamp accommodating cavity 301), as shown in fig. 4, the steam guide passage 3113 of the steam guide plate 3122 is disposed in a groove shape, and each steam inlet 3111 of the steam inlet plate 3123 and each steam outlet 3112 of the steam outlet plate 3121 are located in an area surrounded by the steam guide passage 3113. The number of the steam outlets 3112 of the steam outlet plate 3121 is relatively large and dense, and after the steam enters the steam guide passage 3113 from the steam inlets 3111 of the steam inlet plate 3123, the steam can be dispersed and spread in a space enclosed by a plate surface of the steam outlet plate 3121 facing the steam guide passage 3113, a groove wall of the steam guide passage 3113, and a plate surface of the steam inlet plate 3123 facing the steam guide passage 3113 to realize heat transfer, and then the steam is sprayed into the shoe upper accommodating cavity 301 through the steam outlets 3112. Therefore, based on the first steam guide structure 312 provided by this embodiment, the steam spraying amount in the unit time can be relatively more, more comprehensively and more finely evaporated wet operation, and the evaporation efficiency of the high-efficiency evaporation wet machine is improved, and the evaporation effect of the high-efficiency evaporation wet machine on the vamp evaporation wet operation is improved. Preferably, the first steam guide structure 312 is suitable for performing a steaming operation on the shoe side of the upper, so as to ensure a steaming effect and a steaming efficiency in the same time for the shoe side with a relatively large specific area.

Referring to fig. 2-4, in the present embodiment, the steam outlets 3112 of the steam outlet plate 3121 are arranged in a rectangular array. It should be noted that, the steam outlets 3112 of the steam outlet plate 3121 are arranged in a rectangular array, so that the steam outlets 3112 of the steam outlet plate 3121 are in a regular layout state, and the steam-wet effect of the steam outlets 3112 of the steam outlet plate 3121 on (the shoe side of) the shoe upper can be equalized, thereby further ensuring and improving the steam-wet effect of the efficient steam-wet machine on steam-wet operation of the shoe upper.

Referring to fig. 2-4, in the present embodiment, the cross-sectional dimension of each steam outlet 3112 of the steam outlet plate 3121 is smaller than the cross-sectional dimension of the steam inlet 3111 of the steam inlet plate 3123. It should be noted that, by enlarging the cross-sectional size of the steam inlet 3111 of the steam inlet plate 3123, the volume of the water vapor entering the steam guide channel 3113 in a unit time can be increased, so that the first steam guide structure 312 can perform secondary heating treatment on a large amount of water vapor at a time, thereby not only timely satisfying the environmental requirement of the steam-wet operation, but also correspondingly increasing the steam-wet operation efficiency of the high-efficiency steam-wet machine. By reducing the cross-sectional size of each steam outlet 3112 of the steam outlet plate 3121, the amount of steam sprayed from each steam outlet 3112 of the steam outlet plate 3121 to the shoe upper can be refined, and the increase in the density of each steam outlet 3112 provided in the steam outlet plate 3121 can be facilitated, so that more comprehensive and finer steam-wet operation can be performed on (the shoe side of) the shoe upper, and the steam-wet effect of the efficient steam-wet machine on steam-wet operation of the shoe upper can be effectively improved.

Referring to fig. 2-3 and 5, in the present embodiment, the steam guiding structure 311 of one steam heating assembly 310 is a second steam guiding structure 313, the second steam guiding structure 313 includes a steam guiding plate 3131 and at least one steam guiding block 3132 connected to the steam guiding plate 3131, the steam guiding plate 3131 has at least one steam outlet 3112 disposed in a groove shape and penetrating through the steam guiding plate, the steam guiding block 3132 has a steam guiding channel 3113 disposed opposite to and communicated with the steam outlet 3112 on a side of the steam guiding plate 3131 facing the steam guiding plate 3131, and a steam inlet 3111 disposed beside the steam guiding channel 3113 and staggered with the steam outlet 3112 and communicated with the steam guiding channel 3113. It should be noted that, the steam outlet 3112 formed on the steam passing plate 3131 is groove-shaped and has a specific extending direction, the steam guide passages 3113 of the steam guide block 3132 are arranged at intervals in the extending direction of the steam outlet 3112, and the steam guide block 3132 is further provided with at least one steam inlet 3111 communicated with each steam guide passage 3113, based on the above structure, when the vamp is to be steamed, the steam inlet 3111 is circulated and dispersed to each steam guide passage 3113, and then is sprayed toward the toe/heel side of the vamp through each steam guide passage 3113 via the steam outlet 3112. Thus, the present embodiment achieves presetting of the injection direction of the water vapor toward the shoe upper by the arrangement of the extending direction of the steam outlet 3112, and has a relatively small injection amount of the water vapor per unit time. Preferably, the second steam guide structure 313 is suitable for being arranged right opposite to the toe cap/heel with a smaller area to be steamed on the opposite shoe side, and is used for steaming the toe cap/heel, so as to avoid the excessive steaming of the toe cap/heel due to excessive water vapor content or excessive temperature, and thus, the steaming effect of the toe cap/heel can be ensured and balanced.

Referring to fig. 2-3 and 5, in the present embodiment, the extending direction of the steam inlet 3111 of the steam guide block 3132 is parallel to the extending direction of the steam outlet 3112 of the steam passing plate 3131. Here, for example, when the extending direction of the steam outlet 3112 of the steam passage plate 3131 is parallel to the vertical direction, the steam guide passages 3113 of the steam guide block 3132 are also provided at intervals in the vertical direction, and accordingly, the extending direction of the steam inlet 3111 of the steam guide block 3132 is also provided in the vertical direction, so that the steam inlet 3111 and each steam guide passage 3113 can be conveniently and easily communicated with each other. Thus, based on the arrangement of the present embodiment, the processing convenience of the second steam guiding structure 313 can be secured and improved.

Referring to fig. 1-2 and 6, in the present embodiment, the high efficiency moisture steaming machine further includes at least one upper support 400 for supporting the upper and a support driver 500 connected to the upper support 400 and used for driving the upper support 400 to move up and down, wherein the upper support 400 can drive the upper to enter and exit the upper accommodating cavity 301 under the driving of the support driver 500. It should be noted that, before the upper is to be placed in the upper accommodating cavity 301, the user may place the upper on the upper supporting member 400, and then the supporting driver 500 drives the upper supporting member 400 to move downward and enter the upper accommodating cavity 301, and after the upper finishes the steaming operation, the supporting driver 500 drives the upper supporting member 400 to drive the upper to leave the upper accommodating cavity 301 from the upper side cavity opening of the upper accommodating cavity 301, so as to facilitate the user to take and place the upper. Based on the setting of this embodiment, not only can avoid user's hand to get into perhaps having high temperature environment's vamp and hold chamber 301 in to reduce the risk that the user was scalded, thereby further improve the high-efficient performance of evaporating wet machine, still can further shorten the interval setting that the vamp was got and put, avoid waiting for the vamp to hold the condition emergence that carries out the vamp again and get after chamber 301 cools off completely, thereby further improved the high-efficient wet machine of evaporating's the wet operating efficiency that evaporates. Preferably, the upper supporter 400 may be provided in plurality, and when the upper supporter 400 is provided in plurality, each upper supporter 400 may be provided at intervals in an up-down direction, so that the efficient steaming machine may steam a plurality of uppers simultaneously, thereby further improving the steaming efficiency of the efficient steaming machine.

In the present embodiment, the arrangement position of the support driver 500 can be flexibly arranged, and only two embodiments are provided as follows: alternatively, as shown in fig. 2 and 6, the support driver 500 is provided at the lower side of the telescopic bar for coupling the respective upper supports 400; or, alternatively, as shown in fig. 7 to 8, the support driver 500 is provided at an upper side of the telescopic bar for coupling the respective upper supports 400.

Referring to fig. 1-2 and 6, in the present embodiment, the upper support 400 includes an upper left support portion 410 and an upper right support portion 420 disposed on the right side of the upper left support portion 410. It should be noted that, one upper support 400 is provided with one upper left support 410 and one upper right support 420, and the two mated upper can be simultaneously steamed through the upper left support 410 and the upper right support 420, so that the process of repeated mating can be simplified, and the steaming efficiency of the high-efficiency steaming machine is further improved. Preferably, in this embodiment, the upper left support portion 410 and the upper right support portion 420 are provided at left and right sides of the support actuator 500, respectively.

Referring to fig. 1-2 and 6, in the present embodiment, the upper supporting member 400 is provided with a plurality of air holes 401 for passing water vapor therethrough on a side surface thereof for supporting the upper. It should be noted that, through the arrangement of the steam through holes 401, on one hand, the steam filled in the vamp accommodating cavity 301 can perform the steaming operation on the contact surface of the vamp and the vamp supporting member 400 through each steam through hole 401 of the vamp supporting member 400, so as to ensure the comprehensiveness of the steaming operation, and further improve the steaming effect of the efficient steaming machine on the steaming operation of the vamp; on the other hand, can promote steam to a certain extent and form certain convection current to can equalize the operation environment in vamp holding chamber 301, thereby can further improve the high-efficient wet machine of evaporating and evaporate wet effect of wet operation to the vamp.

Referring to fig. 1-2 and 6, in the present embodiment, the high efficiency moisture steaming machine further includes a moisture steaming close cover 600 disposed on the upper side of the shoe upper supporting member 400 and connected to the supporting driver 500, wherein the moisture steaming close cover 600 can move up and down together with the shoe upper supporting member 400 under the driving of the supporting driver 500, and cover the upper side opening of the shoe upper accommodating cavity 301 when the shoe upper supporting member 400 is located in the shoe upper accommodating cavity 301. It should be noted that, in the present embodiment, the upper side opening of the vamp accommodating cavity 301 is sealed by the moisture steaming closing cover 600 before the vamp enters the vamp accommodating cavity 301 and the moisture steaming operation starts, so that a closed moisture steaming operation environment is formed by enclosing between each cavity wall of the vamp accommodating cavity 301 and the lower side surface of the moisture steaming closing cover 600, and thus the temperature of the moisture steaming operation environment in the moisture steaming operation process can be maintained and balanced, the moisture steaming operation efficiency of the high-efficiency moisture steaming machine can be further improved, and the moisture steaming effect of the high-efficiency moisture steaming machine in the moisture steaming operation on the vamp can be improved. It should be further noted that, in this embodiment, the steaming closing cover 600 is further disposed on the upper side of the upper support 400 and connected to the support driver 500, and a proper distance is provided between the steaming closing cover 600 and the upper support 400, so that the steaming closing cover 600 can just close the upper accommodating cavity 301 when the support driver 500 drives the upper support 400 to drive the upper to completely enter the upper accommodating cavity 301, thereby further improving the steaming operation efficiency of the high-efficiency steaming machine.

Referring to fig. 1, in the present embodiment, the high efficiency steam-wet machine further includes at least one steam exhaust fan 700 for exhausting water vapor and at least one heat dissipation fan 800 for dissipating heat. It should be noted here that, can get rid of the steam to shoes utensil containing box upside when vamp containing cavity 301 opens through steam exhaust fan 700, and can dispel the heat to shoes utensil containing box upside through radiator fan 800, based on the setting of this embodiment, can further reduce the risk that the user scalded to the security performance of high-efficient wet machine of evaporating has further been improved.

The high-efficient wet machine that evaporates that this application embodiment provided converts liquid water into steam through steam generator 200 earlier, and lead steam structure 311 through heating structure and heat so that the temperature of leading steam structure 311 is higher than the temperature of steam, then send into in leading steam channel 3113 through steam inlet 3111 with steam again, so that steam and leading steam structure 311 contact and realize the heat transfer, thereby can carry out the secondary heating to steam until steam reaches required temperature, after steam reaches preset temperature, accessible steam outlet 3112 spouts steam into in vamp holds chamber 301 from leading steam channel 3113, thereby can carry out the operation of evaporating to the vamp of placing in vamp holding chamber 301. The high-efficient wet machine of evaporating that this application embodiment provided utilizes the heat transfer to improve steam's heat/temperature through heating structure and leading vapour structure 311, and this high-efficient wet machine of evaporating need not the pressure boost and also can realize the wet operation of evaporating of vamp, and convenient to use and security performance are high.

Example two

The difference between this embodiment and the first embodiment is:

referring to fig. 7-8, in the present embodiment, the upper left support portion 410 and the upper right support portion 420 are integrally connected. It should be noted that, the upper left support portion 410 and the upper right support portion 420 are integrally connected, so that the upper left support portion 410 and the upper right support portion 420 can be supported by each other, thereby ensuring the structural strength of the upper left support portion 410 and the upper right support portion 420, avoiding the need of additionally providing a support structure, and simplifying the structure of the upper support member 400 to a certain extent. In addition, through with vamp left branch portion 410 and vamp right branch portion 420 body coupling, still can ensure vamp left branch portion 410 and vamp right branch portion 420's parallel and level degree to can balance the high-efficient wet machine of evaporating to a certain extent and evaporate wet effect to the vamp on vamp left branch portion 410 and the vamp right branch portion 420.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.