CN203378497U

CN203378497U - Automatic cleaning soybean milk maker

Info

Publication number: CN203378497U
Application number: CN201320384319.XU
Authority: CN
Inventors: 王旭宁; 夏立国; 王国华
Original assignee: Joyoung Co Ltd
Current assignee: Joyoung Co Ltd
Priority date: 2013-07-01
Filing date: 2013-07-01
Publication date: 2014-01-08
Anticipated expiration: 2023-07-01

Abstract

The utility model discloses an automatic cleaning soybean milk maker, which belongs to the field of small household electrical appliances and aims at solving the problems of separate arrangement of a water inlet valve and a soybean milk outlet valve in the soybean milk maker, relatively more parts caused by single control, complexity in assembly, relatively high cost and the like. The automatic cleaning soybean milk maker comprises a crushing cavity, a valve body and a motor, wherein the crushing cavity is fixed in the valve body; an upper fixed valve plate, a moving valve plate and a lower fixed valve plate are sequentially arranged in the valve body from top to bottom; the moving valve plate is in transmission connection with the motor to realize rotation relative to the upper fixed valve plate and the lower fixed valve plate, a soybean milk outlet hole I is formed in the upper fixed valve plate, a soybean milk outlet hole II is formed in the lower fixed valve plate, a soybean milk outlet hole III which is in corresponding communication with the soybean milk outlet hole I is formed in the crushing cavity, the moving valve plate is provided with at least one communication hole, a water inlet hole I is formed in the upper fixed valve plate, a water inlet hole II is formed in the lower fixed valve plate, the crushing cavity is provided with a water inlet hole III in corresponding communication with the water inlet hole I, the moving valve plate can rotate under the drive of the motor to communicate the water inlet hole I with the water inlet hole II through the communication hole or communicate the soybean milk outlet hole I with the soybean milk outlet hole II through the communication hole, and the automatic cleaning soybean milk maker is used for making soybean milk and can realize automatic cleaning.

Description

A kind of automatic washing soymilk maker

Technical field

The utility model relates to small household appliances, particularly a kind of automatic washing soymilk maker.

Background technology

Automatic washing soymilk maker rises in the market, and this type of soy bean milk making machine generally all has water intaking valve and slurry-supplying valve, and both are generally separately designs, control separately.The defect of design is that parts are more like this, and assembling is complicated, and cost is also higher.

Summary of the invention

The purpose that the utility model will reach just is to provide a kind of automatic washing soymilk maker that adopts single control valve to realize pulp and water inlet control.

In order to achieve the above object, the utility model adopts following technical scheme: a kind of automatic washing soymilk maker, comprise crushing chamber, valve body and motor, described crushing chamber is fixed on valve body, be provided with successively from top to bottom quiet valve block in described valve body, moving valve plate and lower quiet valve block, described quiet valve block and lower quiet valve block are fixed in valve body, described moving valve plate connects and can realize rotating relative to upper quiet valve block and lower quiet valve block with motor-driven, described quiet valve block is provided with the slurry outlet I, described lower quiet valve block is provided with the slurry outlet II, described crushing chamber is provided with the slurry outlet III with the corresponding connection of slurry outlet I, described moving valve plate is provided with at least one intercommunicating pore, described quiet valve block is provided with the inlet opening I, lower quiet valve block is provided with the inlet opening II, described crushing chamber is provided with the inlet opening III with the corresponding connection of inlet opening I, described moving valve plate can rotate and make intercommunicating pore that ⅠYu inlet opening, inlet opening II is communicated with or intercommunicating pore is communicated with the slurry outlet I with the slurry outlet II under driven by motor.

Further, described quiet valve block is provided with the osculum I, and described lower quiet valve block is provided with the osculum II, and described crushing chamber is provided with the osculum III with the corresponding connection of osculum I, and described intercommunicating pore can be communicated with the osculum I with the osculum II.

Further, described intercommunicating pore is provided with three, described moving valve plate turns to optional position, in three intercommunicating pores, only has at most an intercommunicating pore ⅠYu inlet opening, inlet opening II can be communicated with or the slurry outlet I is communicated with the slurry outlet II or the osculum I is communicated with the osculum II.The quantity of intercommunicating pore is more, and position requires to increase, but the angle of the required rotation of moving valve plate reduces while changing the state of crushing chamber.

Further, the rotary motion trace at the center of three intercommunicating pores overlaps, on the rotary motion trace at the center that is centered close to intercommunicating pore of described slurry outlet I, osculum I and inlet opening I.Simplified processing process.

Further, formed by some aperture concentrated settings or formed by some gaps concentrated setting for that intercommunicating pore by the corresponding connection of ⅠYu inlet opening, inlet opening II in three intercommunicating pores.Intercommunicating pore has certain filtering function like this.

Further, described valve body is comprised of upper valve body and lower valve body, described upper valve body is provided with installing hole, described quiet valve block is embedded at installing hole and makes that the slurry outlet I is corresponding with the slurry outlet III is communicated with, makes that osculum I and osculum III are corresponding is communicated with and makes the corresponding connection of ⅠYu inlet opening, inlet opening III, described lower quiet valve block is fixed in lower valve body, described lower valve body be provided with connection corresponding to the slurry outlet II respectively, with the osculum II corresponding be communicated with and with corresponding three lower through-holes that are communicated with of inlet opening II.Be convenient to the assembling of valve body, upper quiet valve block, moving valve plate and lower quiet valve block.

Further, described lower valve body is provided with the water inlet pipe of external inlet pipeline, described water inlet pipe is communicated with the lower through-hole of corresponding inlet opening II, described water inlet pipe, lower through-hole, inlet opening II, intercommunicating pore, ⅠHe inlet opening, inlet opening III can be communicated with the formation intake tunnel, are provided with the check valve that the liquid refluence prevented in crushing chamber enters inlet pipeline in described intake tunnel.

Further, be provided with sealing gasket in described installing hole, described upper sealing gasket is located between quiet valve block and crushing chamber, described upper sealing gasket is provided with respectively three upper through flow holes that the slurry outlet I are communicated with the slurry outlet III, the osculum I is communicated with the osculum III and ⅠYu inlet opening, inlet opening III is communicated with, be provided with the lower seal pad between the upper surface of the lower surface of described lower quiet valve block and lower valve body, described lower seal pad is provided with corresponding slurry outlet II, corresponding communicated drainage hole II and corresponding three the lower through flow holes that are communicated with the inlet opening II of being communicated with respectively.

Further, the upper surface of described lower valve body is provided with column, and described moving valve plate is set in column and realizes rotating relative to upper quiet valve block and lower quiet valve block.

Further, described motor is fixed in valve body, and the output shaft of motor stretches in valve body, and the output shaft of described motor is provided with gear, and the periphery of described moving valve plate is provided with the gear ring with the gear engagement.Transmission is stable, is convenient to accurate control, and noise is little.

After adopting technique scheme, the utlity model has following advantage: originally by the control valve parts that form of quiet valve block, moving valve plate and lower quiet valve block increase the structure of intaking on for the basis of pulp, draining, be equivalent to water intaking valve and slurry-supplying valve are combined, the function increase does not but increase parts, just correspondingly increase several inlet openings, as ⅡHe inlet opening, Ⅰ, inlet opening, inlet opening III, thereby realize pulp, draining and the water inlet of single control valve control crushing chamber, thereby realize the automatic cleaning of soy bean milk making machine after pulp.

The accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail:

The dispersed structure figure that Fig. 1 is a kind of embodiment of the utility model;

Fig. 2 is cutaway view embodiment illustrated in fig. 1;

The top view that Fig. 3 is crushing chamber;

Fig. 4 is A place enlarged drawing in Fig. 2;

The structural representation that Fig. 5 is check valve;

Fig. 6 is the schematic diagram that has an intercommunicating pore to be formed by some aperture concentrated settings in three intercommunicating pores;

Fig. 7 is the schematic diagram that has an intercommunicating pore to be formed by some gaps concentrated setting in three intercommunicating pores;

Fig. 8 position relationship schematic diagram during in closed condition that is upper quiet valve block, moving valve plate and lower quiet valve block at crushing chamber;

Fig. 9 position relationship schematic diagram during in the water inlet state that is upper quiet valve block, moving valve plate and lower quiet valve block at crushing chamber;

Figure 10 position relationship schematic diagram during in the pulp state that is upper quiet valve block, moving valve plate and lower quiet valve block at crushing chamber;

Figure 11 position relationship schematic diagram during in hull-borne that is upper quiet valve block, moving valve plate and lower quiet valve block at crushing chamber.

The specific embodiment

Be a kind of embodiment of the utility model as shown in Figures 1 to 3, a kind of automatic washing soymilk maker, comprise crushing chamber 1, valve body 2 and motor 3, valve body 2 is comprised of upper valve body 21 and lower valve body 22, crushing chamber 1 is fixed in upper valve body 21, be provided with successively from top to bottom quiet valve block 4 in valve body 2, moving valve plate 5 and lower quiet valve block 6, upper quiet valve block 4 and lower quiet valve block 6 are fixed in valve body 2, motor 3 is fixed in upper valve body 21, can certainly be fixed in lower valve body 22, the output shaft of motor 3 stretches in valve body 2, the output shaft of motor 3 is provided with gear 31, the periphery of moving valve plate 5 is provided with the gear ring with gear 31 engagements, moving valve plate 5 can be realized rotating relative to upper quiet valve block 4 and lower quiet valve block 6 by meshed transmission gear with motor 3, upper quiet valve block 4 is provided with slurry outlet I 41, osculum I 42 and inlet opening I 43, lower quiet valve block 6 is provided with slurry outlet II 61, osculum II 62 and inlet opening II 63, crushing chamber 1 is provided with the slurry outlet III 11 with the corresponding connection of slurry outlet I 41, with the osculum III 12 of the corresponding connection of osculum I 42 and with the corresponding inlet opening III 13 be communicated with of inlet opening I 43, moving valve plate 5 is provided with three intercommunicating pores 51, moving valve plate 5 can rotate and make intercommunicating pore 51 be communicated with or make intercommunicating pore 51 and be communicated with or intercommunicating pore 51 is communicated with osculum I 42 with osculum II 62 is corresponding slurry outlet I 41 and slurry outlet II 61 are corresponding inlet opening I 43 is corresponding with inlet opening II 63 under motor 3 drives, the rotary motion trace that preferred structure is three intercommunicating pore 51 centers overlaps, slurry outlet I 41, on the rotary motion trace that is centered close to intercommunicating pore 51 center of osculum I 42 and inlet opening I 43, moving valve plate 5 turns to optional position, in three intercommunicating pores 51, only have at most an intercommunicating pore 51 to be communicated with or osculum I 42 is communicated with osculum II 62 is corresponding by inlet opening I 43 connection corresponding to inlet opening II 63 or by slurry outlet I 41 and slurry outlet II 61 are corresponding, such structure processing most convenient.If in the rotary motion trace at three intercommunicating pore 51 centers all not identical, correspondingly by the rotary motion trace at corresponding one of them intercommunicating pore 51 center, slurry outlet Ⅰ41 center, the rotary motion trace at corresponding another intercommunicating pore 51 center, osculum Ⅰ42 center, and the rotary motion trace at corresponding last intercommunicating pore 51 center, Ⅰ43 center, inlet opening, such three structures that intercommunicating pore 51 staggers mutually, also be convenient to select the setting position of intercommunicating pore 51 on moving valve plate 5, as long as two or more intercommunicating pores 51 are not set on the same diameter of moving valve plate 5.

Concrete, upper valve body 21 is provided with installing hole 211, upper quiet valve block 4 is embedded at installing hole 211 and makes that slurry outlet I 41 connection corresponding to slurry outlet III 11, osculum I 42 and osculum III 12 are corresponding to be communicated with and inlet opening I 43 is communicated with inlet opening III 13 is corresponding, lower quiet valve block 6 is fixed in lower valve body 22, and lower valve body 22 is provided with three lower through-holes 223 of connection corresponding to slurry outlet II 61, osculum II 62 and inlet opening II 63 respectively.In addition, also can upper valve body 21 arrange by slurry outlet I 41 and slurry outlet III 11 be communicated with, by osculum I 42 corresponding with osculum III 12 be communicated with and by inlet opening I 43 and inlet opening III 13 through hole on corresponding three of being communicated with, rather than installing hole 211 is set.The upper surface of lower valve body 22 is provided with column 222, and moving valve plate 5 is set in column 222 and realizes rotating relative to upper quiet valve block 4 and lower quiet valve block 6, column 222 can certainly be located to upper valve body 21 or be located at upper quiet valve block 4 or be located at lower quiet valve block 6.

Be provided with sealing gasket 7 in installing hole 211, upper sealing gasket 7 is located between quiet valve block 4 and crushing chamber 1, upper sealing gasket 7 is provided with three upper through flow holes 71 that are communicated with respectively slurry outlet I 41 and slurry outlet III 11, communicated drainage hole I 42 and osculum III 12 and are communicated with inlet opening I 43 and inlet opening III 13, that is to say corresponding slurry outlet I 41 and the slurry outlet III 11 of being communicated with of through flow hole 71 on one of them, also have the upper corresponding communicated drainage of through flow hole 71 a hole I 42 and osculum III 12, corresponding inlet opening I 43 and the inlet opening III 13 of being communicated with of through flow hole 71 on another one.Be provided with lower seal pad 8 between the lower surface of lower quiet valve block 6 and the upper surface of lower valve body 22, lower seal pad 8 is provided with corresponding three lower through flow holes 81 that are communicated with slurry outlet II 61, osculum II 62 and inlet opening II 63 respectively, that is to say the corresponding slurry outlet II 61 that is communicated with of one of them lower through flow hole 81, also has the corresponding communicated drainage of lower through flow hole 81 a hole II 62, the corresponding inlet opening II 63 that is communicated with of through flow hole 81 under another one.

Lower valve body 22 is provided with the water inlet pipe 221 of external inlet pipeline, water inlet pipe 221 is communicated with the lower through-hole 223 of corresponding inlet opening II 63, water inlet pipe 221, lower through-hole 223, inlet opening II 63, intercommunicating pore 51, inlet opening I 43 and inlet opening III 13 can be communicated with the formation intake tunnel, are provided with the check valve 9 that the liquid refluence prevented in crushing chamber 1 enters inlet pipeline in intake tunnel.

As shown in Figures 4 and 5, check valve 9 is arranged in water inlet pipe 221, be provided with bench port 2211 in water inlet pipe 221, check valve 9 comprises flap 91, valve rod 93 and limited block 92, flap 91 is located at the upper end of valve rod 93 and is positioned at the top of bench port 2211, valve rod 93 is through bench port 2211, and limited block 92 is located at the lower end of valve rod 93 and be positioned at the below of bench port 2211, bench port 2211 is circular port, the diameter of flap 91 is greater than the diameter of bench port 2211, the diameter of bench port 2211 is greater than the diameter of valve rod 93, and limited block 92 just prevents from after check valve 9 from being impacted by water inlet leaving bench port 2211, so it doesn't matter for shape, for the ease of processing, can be arranged to square shape or round pie, and there is a size radially to be greater than the diameter of bench port 2211, could when water inlet, be stuck in the lower surface of bench port 2211 like this.The structure of check valve 9 is very simple, operation principle is also very simple, original state, flap 91 drops on the upper surface of bench port 2211, after starting water inlet, check valve 9 moves up under water inlet is impacted, flap 91 separates with the upper surface of bench port 2211 realizes water inlet, stops after water, and check valve 9 falls after rise downwards under Water Pressure, flap 91 again drops on the upper surface of bench port 2211 and is tightly connected with the upper surface of bench port 2211, thereby prevents that slurry from entering inlet pipeline from intake tunnel.

As shown in Figure 6, to in three intercommunicating pores 51, for that intercommunicating pore 51 by inlet opening I 43 connection corresponding to inlet opening II 63, by some aperture concentrated settings, be formed, also can be as shown in Figure 7, to in three intercommunicating pores 51, for that intercommunicating pore 51 by inlet opening I 43 connection corresponding to inlet opening II 63, by some gaps concentrated setting, be formed, the fine particle thing that can effectively reduce in crushing chamber 1 like this enters in the intake tunnel of moving valve plate 5 belows.

Operation principle below in conjunction with accompanying drawing explanation the present embodiment.At first as shown in Figure 8, crushing chamber 1 is in closed condition, and three intercommunicating pore 51 any one slurry outlet I 41 of all getting along well, osculum I 42 and inlet opening I 43 are communicated with, and the slurry outlet II 61 of naturally also getting along well, osculum II 62 and inlet opening II 63 are communicated with.When crushing chamber 1 needs water inlet, starter motor 3 drives moving valve plate 5 and rotates, make in three intercommunicating pores 51 and forward to and inlet opening I 43 for that intercommunicating pore 51 by inlet opening I 43 connection corresponding to inlet opening II 63, the position of inlet opening II 63 correspondences, here specially select the intercommunicating pore 51 formed by some aperture concentrated settings to show difference, as shown in Figure 9, now two other intercommunicating pore 51 has just in time all staggered with slurry outlet I 41 and osculum I 42, crushing chamber 1 is just in the water inlet state, if stop into water, motor 3 reverses or is rotated further and makes intercommunicating pore 51 and inlet opening I 43 stagger.After finishing, soy bean milk making machine slurrying needs to carry out plasma discharge, crushing chamber 1 nature will be in the pulp state, as shown in figure 10, continuation drives moving valve plate 5 by motor 3 and rotates, an intercommunicating pore 51 is by slurry outlet I 41 and the corresponding connection of slurry outlet II 61, two other intercommunicating pore 51 is not communicated with osculum I 42 and inlet opening I 43, and the intercommunicating pore 51 formed by some aperture concentrated settings here preferably is not used in and is communicated with slurry outlet I 41 and slurry outlet II 61, avoids clogging and affects pulp.Soy bean milk making machine is carried out the automatic feeding water cleaning procedure after plasma discharge finishes, then the water after cleaning is discharged crushing chamber 1, now just osculum I 42 and osculum II 62 need to be communicated with, as shown in figure 11, motor 3 drives moving valve plate 5 and rotates, make one of them connection in three intercommunicating pores 51 that osculum I 42 and osculum II 62 correspondences are communicated with, two other intercommunicating pore 51 staggers with inlet opening I 43 and slurry outlet I 41, here do not advise equally that the intercommunicating pore 51 formed with some aperture concentrated settings comes communicated drainage hole I 42 and osculum II 62, because having residue after slurrying leaves over, easily congestion affects draining.

In above-described embodiment, arrange the structure of three intercommunicating pores 51, also an intercommunicating pore 51 can only be set, on the rotary motion trace that is centered close to intercommunicating pore 51 center of slurry outlet I 41, osculum I 42 and inlet opening I 43, can control well pulp, draining and water inlet equally, corresponding processing cost has also reduced.Two intercommunicating pores 51 can also be set, and principle is same as the previously described embodiments.In addition, pulp and draining can also be realized with same hole, go up quiet valve block 4 and only be provided with slurry outlet I 41 and inlet opening I 43, realize pulp and draining by slurry outlet I 41, then other parts in above-described embodiment are also made to corresponding variation, remove osculum II 62 and osculum III 12, correspondingly reduce a lower through-hole 223, upper through flow hole 71 and lower through flow hole 81, and the intercommunicating pore 51 on moving valve plate 5 arrange one or two all can, even three, four is also feasible.

Except above preferred embodiment, the utility model also has other embodiment, those skilled in the art can make various changes and distortion according to the utility model, only otherwise break away from spirit of the present utility model, all should belong to the defined scope of the utility model claims.

Claims

1. an automatic washing soymilk maker, comprise crushing chamber, valve body and motor, described crushing chamber is fixed on valve body, be provided with successively from top to bottom quiet valve block in described valve body, moving valve plate and lower quiet valve block, described quiet valve block and lower quiet valve block are fixed in valve body, described moving valve plate connects and can realize rotating relative to upper quiet valve block and lower quiet valve block with motor-driven, described quiet valve block is provided with the slurry outlet I, described lower quiet valve block is provided with the slurry outlet II, described crushing chamber is provided with the slurry outlet III with the corresponding connection of slurry outlet I, it is characterized in that: described moving valve plate is provided with at least one intercommunicating pore, described quiet valve block is provided with the inlet opening I, lower quiet valve block is provided with the inlet opening II, described crushing chamber is provided with the inlet opening III with the corresponding connection of inlet opening I, described moving valve plate can rotate and make intercommunicating pore that ⅠYu inlet opening, inlet opening II is communicated with or intercommunicating pore is communicated with the slurry outlet I with the slurry outlet II under driven by motor.

2. automatic washing soymilk maker according to claim 1, it is characterized in that: described quiet valve block is provided with the osculum I, described lower quiet valve block is provided with the osculum II, and described crushing chamber is provided with the osculum III with the corresponding connection of osculum I, and described intercommunicating pore can be communicated with the osculum I with the osculum II.

3. automatic washing soymilk maker according to claim 2, it is characterized in that: described intercommunicating pore is provided with three, described moving valve plate turns to optional position, in three intercommunicating pores, only has at most an intercommunicating pore ⅠYu inlet opening, inlet opening II can be communicated with or the slurry outlet I is communicated with the slurry outlet II or the osculum I is communicated with the osculum II.

4. automatic washing soymilk maker according to claim 3 is characterized in that: the rotary motion trace at the center of three intercommunicating pores overlaps, on the rotary motion trace at the center that is centered close to intercommunicating pore of described slurry outlet I, osculum I and inlet opening I.

5. according to the described automatic washing soymilk maker of claim 3 or 4, it is characterized in that: in three intercommunicating pores, for that intercommunicating pore by the corresponding connection of ⅠYu inlet opening, inlet opening II, formed by some aperture concentrated settings or formed by some gaps concentrated setting.

6. according to the arbitrary described automatic washing soymilk maker of claim 2 to 4, it is characterized in that: described valve body is comprised of upper valve body and lower valve body, described upper valve body is provided with installing hole, described quiet valve block is embedded at installing hole and makes that the slurry outlet I is corresponding with the slurry outlet III is communicated with, makes that osculum I and osculum III are corresponding is communicated with and makes the corresponding connection of ⅠYu inlet opening, inlet opening III, described lower quiet valve block is fixed in lower valve body, described lower valve body be provided with connection corresponding to the slurry outlet II respectively, with the osculum II corresponding be communicated with and with corresponding three lower through-holes that are communicated with of inlet opening II.

7. automatic washing soymilk maker according to claim 6, it is characterized in that: described lower valve body is provided with the water inlet pipe of external inlet pipeline, described water inlet pipe is communicated with the lower through-hole of corresponding inlet opening II, described water inlet pipe, lower through-hole, inlet opening II, intercommunicating pore, ⅠHe inlet opening, inlet opening III can be communicated with the formation intake tunnel, are provided with the check valve that the liquid refluence prevented in crushing chamber enters inlet pipeline in described intake tunnel.

8. automatic washing soymilk maker according to claim 6, it is characterized in that: in described installing hole, be provided with sealing gasket, described upper sealing gasket is located between quiet valve block and crushing chamber, described upper sealing gasket is provided with respectively the slurry outlet I is communicated with the slurry outlet III, three upper through flow holes that the osculum I are communicated with the osculum III and ⅠYu inlet opening, inlet opening III is communicated with, be provided with the lower seal pad between the upper surface of the lower surface of described lower quiet valve block and lower valve body, described lower seal pad is provided with the corresponding slurry outlet II that is communicated with respectively, corresponding communicated drainage hole II and corresponding three lower through flow holes that are communicated with the inlet opening II.

9. automatic washing soymilk maker according to claim 6, it is characterized in that: the upper surface of described lower valve body is provided with column, and described moving valve plate is set in column and realizes rotating relative to upper quiet valve block and lower quiet valve block.

10. according to the arbitrary described automatic washing soymilk maker of claim 1 to 4, it is characterized in that: described motor is fixed in valve body, the output shaft of motor stretches in valve body, and the output shaft of described motor is provided with gear, and the periphery of described moving valve plate is provided with the gear ring with the gear engagement.