CN208822569U - Fine grinding device assembly and food processor comprising same - Google Patents

Abstract

The utility model provides a refiner component and food processor comprising the refiner component, the refiner component comprises a locking piece, an upper clutch, a lower clutch, a dynamic grinding component, a static grinding component and a shaft lever sleeve component, the static grinding component is fixed on the shaft lever sleeve component, the dynamic grinding component is sleeved outside the static grinding component, a transmission shaft lever of the shaft lever sleeve component penetrates out of the static grinding component and extends upwards to form a bearing platform, and the lower clutch is sleeved on the bearing platform and fixed on the transmission shaft lever; the upper clutch is fixedly connected to the inner top surface of the movable grinding assembly through a fixing part, the movable grinding assembly is sleeved on the transmission shaft rod, and the upper clutch is connected and matched with the lower clutch; the retaining member is mounted on the top of the drive shaft. The utility model discloses with upper and lower clutch difference rigid coupling on moving mill and transmission axostylus axostyle, realize moving the quick assembly and disassembly of mill, solved and moved the mill with the dead problem of back card, make the mill of moving easily load and unload and wash more.

Description

Refine device assembly and the food cooking machine including it

Technical field

The utility model relates to food cooking machine field, in particular to a kind of fine grinding device assembly and the food cooking including it Machine.

Background technique

In the existing soy bean milk making machine with sharpener, food cooking machine, the essence being equipped in cup for grinding food materials is arranged Grinder.Wherein, it is equipped with dynamic mill and transmission shaft lever in sharpener, is equipped with anti-rotation plane at the upper section shaft shoulder of transmission shaft lever, dynamic mill is set There is axis hole, is also correspondingly provided with anti-rotation plane on the hole wall of axis hole upper end orifice edge, the rotation to anti-stop mill.Together When, drive dynamic mill to rotate together by transmission shaft lever.

However, this drive mechanism has the following deficiencies: since transmission shaft lever drives dynamic mill rotation, couple by anti-rotation plane Cooperation, there are fit clearances for the anti-rotation plane and the anti-rotation plane of transmission shaft lever for moving grinding out mouth.During grinding beans, dynamic mill can be held The continuous effect by load torque and centrifugal force.The gap of retention leads to the dynamic mill continuous work for bearing torque load in the process With.At the angle of cut of the anti-rotation plane of dynamic grinding out mouth and continuous frictional occurs for the anti-rotation horizontal edge of transmission shaft lever, so as to cause biography The edge of anti-rotation plane on moving axis bar is worn, and forms the step surface of back-off.After having ground soya-bean milk, mill quilt when taking out is moved Back-off step surface in transmission shaft lever blocks, it is difficult to take out, could take out after the position of dynamic mill need to be corrected with other specific purpose tools Cleaning, user experience are poor.

Utility model content

The technical problems to be solved in the utility model is to overcome the sharpener in food cooking machine in the prior art to hold It easily wears, the defect that dismounting is troublesome and user experience is poor provides a kind of fine grinding device assembly and the food cooking including it Machine.

The utility model is to solve above-mentioned technical problem by following technical proposals:

A kind of fine grinding device assembly, which is characterized in that the fine grinding device assembly include locking member, upper clutch, lower clutch, Dynamic mill component, quiet mill component and shaft cover component, and the quiet mill component is fixed on the shaft set component, the dynamic mill component It is sleeved on the outside of the quiet mill component, the transmission shaft lever of the shaft set component is pierced by the quiet mill component and upwardly extends to be formed One axis platform, the lower clutch sleeve are fixed in the transmission shaft lever in the axis platform；

The upper clutch is fixedly connected on the inner top surface of the dynamic mill component, the dynamic mill component by a fixation member It is sleeved in the transmission shaft lever, the upper clutch couples cooperation with the lower clutch；The locking member is mounted on described The top of transmission shaft lever.

One embodiment according to the present utility model, dynamic grind is equipped with an anti-rotating hole at the top end face center covered, and institute The top for stating mill lid is equipped at least two discharge ports, and the discharge port is looped around the surrounding of the anti-rotating hole.

One embodiment according to the present utility model passes through arc surface between the inside of two adjacent discharge ports and connects It connects.

One embodiment according to the present utility model, the main body of the upper clutch are one first rotary table, first circle The lower end surface of platform is equipped with clutch tooth at least two, and the upper clutch tooth is symmetrical with the center line of first rotary table；

The upper surface of first rotary table is equipped with the linkage section outwardly protruded, and the linkage section and the fixation member connect It connects, the upper clutch is fastened on the inner top surface of the dynamic mill lid；

First shaft hole is arranged in the central part of the upper clutch tooth, and the first shaft hole runs through the entire upper clutch.

One embodiment according to the present utility model, the leading flank of the upper clutch tooth are set perpendicularly to first circle The plane or cambered surface of the top surface of platform；The trailing flank of the upper clutch tooth is set as inclined-plane；The top surface of the upper clutch tooth is set as Cambered surface, inclined-plane or plane；The medial surface and lateral surface of the upper clutch tooth are set as cambered surface, inclined-plane or plane.

One embodiment according to the present utility model, the main body of the lower clutch are one second rotary table, second circle The upper surface of platform is equipped at least two lower clutch tooths, and the lower clutch tooth is symmetrical with the center line of second rotary table；

The lower end surface setting of second rotary table is a flat surface, and a counterbore is equipped at the center of the lower end surface, and being used for will The lower clutch sleeve positions in the transmission shaft lever；

The second axis hole is arranged in the centre of the lower clutch teeth, and second axis hole is upper through second rotary table End face and the counterbore.

One embodiment according to the present utility model, the leading flank of the lower clutch tooth are set perpendicularly to second circle The plane or cambered surface of the top surface of platform；The trailing flank of the lower clutch tooth is set as inclined-plane；The top surface of the lower clutch tooth is set as Cambered surface, inclined-plane or plane；The medial surface and lateral surface of the lower clutch tooth are set as cambered surface, inclined-plane or plane.

One embodiment according to the present utility model is additionally provided between the upper clutch and the lower clutch Clutch resilient cushion, the lower clutch resilient cushion are sleeved on the lower clutch；

The lower end surface of the lower clutch resilient cushion is a counterbore table top, is subtracted by the counterbore table top to the lower clutch The upper surface protrusion of shake pad is formed with multiple clutch tooth suit counterbores, and the clutch tooth is set under counterbore and the lower clutch Clutch tooth matching；

One central through hole is set at the center of the counterbore table top, and the central through hole runs through the lower clutch damping Pad.

One embodiment according to the present utility model, the lower clutch are sleeved on the transmission by the counterbore of lower end surface In the axis platform of shaft, and using lower end inner orifice edge/upper end inner orifice of lower clutch described in Laser Welding or argon arc welding welding The whole circle fit clearance at edge and the matching part of the transmission shaft lever.

The utility model additionally provides a kind of food cooking machine, it is characterized in that, the food cooking machine includes institute as above The fine grinding device assembly stated.

The positive effect of the utility model is:

The utility model refines device assembly and uses similar upper and lower clutch connection assembly and disassembly including its food cooking machine Structure, upper and lower clutch is respectively and fixedly connected to dynamic mill and in transmission shaft lever, realizes the rapid-assembling/disassembling of dynamic mill, solves dynamic mill With rear stuck problem, make mill more easily handling and cleaning.

Detailed description of the invention

The above and other feature of the utility model, property and advantage will pass through with reference to the accompanying drawings and examples It describes and becomes apparent, identical appended drawing reference always shows identical feature in the accompanying drawings, in which:

Fig. 1 is the perspective view of the utility model food cooking machine.

Fig. 2 is the schematic diagram of partly cut-away in the utility model food cooking machine.

Fig. 3 is the perspective view that the utility model refines device assembly.

Fig. 4 is the axial sectional view that the utility model refines device assembly.

Fig. 5 is the explosive view that the utility model refines device assembly.

Fig. 6 is that the utility model refines upper clutch in device assembly, lower clutch, the dynamic perspective view for grinding lid assembled portion.

Fig. 7 is that the utility model refines upper clutch in device assembly, lower clutch, the dynamic mill inverted solid of lid assembled portion Figure.

Fig. 8 is that the utility model refines upper clutch in device assembly, lower clutch, the dynamic axial section view for grinding lid assembled portion Figure.

Fig. 9 is the perspective view that the utility model refines transmission shaft lever in device assembly.

Figure 10 is that the utility model refines the perspective view one that mill lid is moved in device assembly.

Figure 11 is that the utility model refines the perspective view two that mill lid is moved in device assembly.

Figure 12 is the perspective view one that the utility model refines an embodiment of upper clutch in device assembly.

Figure 13 is the perspective view two that the utility model refines an embodiment of upper clutch in device assembly.

Figure 14 is the perspective view that the utility model refines another embodiment of upper clutch in device assembly.

Figure 15 is the assembling schematic diagram that the utility model refines another embodiment of upper clutch and dynamic mill lid in device assembly.

Figure 16 is the perspective view one that the utility model refines fixation member in device assembly.

Figure 17 is the perspective view two that the utility model refines fixation member in device assembly.

Figure 18 is the perspective view one that the utility model refines lower clutch in device assembly.

Figure 19 is the perspective view two that the utility model refines lower clutch in device assembly.

Figure 20 is the perspective view one that the utility model refines lower clutch resilient cushion in device assembly.

Figure 21 is the perspective view two that the utility model refines lower clutch resilient cushion in device assembly.

Figure 22 is the solid that the utility model refines upper clutch in an embodiment of device assembly, lower clutch assembled portion Figure.

Figure 23 is the cross-sectional view splitted in Figure 22 along line B-B.

Figure 24 is that the utility model refines lower clutch and transmission shaft lever assembled portion in another embodiment of device assembly Perspective view.

Figure 25 is the cross-sectional view splitted in Figure 24 along line C-C.

Specific embodiment

It is practical to this below in conjunction with attached drawing for the above objects, features, and advantages of the utility model can be clearer and more comprehensible Novel specific embodiment elaborates.

The embodiments of the present invention are described with detailed reference to attached drawing now.Now with detailed reference to the excellent of the utility model Embodiment is selected, its example is shown in the drawings.In the case of any possible, will be come in all the appended drawings using identical label Indicate the same or similar part.

In addition, although term used in the utility model is selected from public term, this reality Some terms mentioned in novel specification may be applicant by his or her judgement come selection, and detailed meanings exist Illustrate in the relevant portion of description herein.

Furthermore, it is desirable that not only by used actual terms, and be also to the meaning contained by each term To understand the utility model.

Fig. 1 is the perspective view of the utility model food cooking machine.Fig. 2 is partly cut-away in the utility model food cooking machine Schematic diagram.

As depicted in figs. 1 and 2, the utility model discloses a kind of food cooking machines 100 comprising cup lid component 110, material Manage cup assembly 120, base assembly 130 and fine grinding device assembly 200.It opens on the top of the covering cooking cup assembly 120 of cup lid component 110 Mouthful, in cooking cup assembly 120, cooking cup assembly 120 is arranged on base assembly 130 setting of fine grinding device assembly 200.It is arranging The side of cup assembly 120 is provided with handle 121, and user is facilitated to take.

Fig. 3 is the perspective view that the utility model refines device assembly.Fig. 4 is the axial section view that the utility model refines device assembly Figure.Fig. 5 is the explosive view that the utility model refines device assembly.Fig. 6 be the utility model refine upper clutch in device assembly, under from The perspective view of clutch, dynamic mill lid assembled portion.Fig. 7 is that the utility model refines upper clutch in device assembly, lower clutch, dynamic mill The inverted perspective view of lid assembled portion.Fig. 8 is that the utility model refines upper clutch in device assembly, lower clutch, dynamic mill lid dress Axial sectional view with part.

As shown in Figures 3 to 8, the fine grinding device assembly 200 in the utility model include locking member 210, upper clutch 230, Lower clutch 240, dynamic mill component 250, quiet mill component 260 and shaft cover component 270.Wherein, quiet mill component 260 is fixed on shaft It covers on component 270, quiet mill pedestal 261, and quiet mill base is set between the lower end and shaft set component 270 of quiet mill component 260 Sealing rubber ring 262 is set between seat 261 and shaft set component 270.Dynamic mill component 250 is sleeved on the outside of quiet mill component 260, will The transmission shaft lever 271 of shaft set component 270 is pierced by quiet mill component 260 and upwardly extends to form an axis platform 272, lower clutch 240 It is sleeved in axis platform 272, and is fixed in transmission shaft lever 271.Upper clutch 230 is fixedly connected on by a fixation member 280 The inner top surface of dynamic mill component 250, dynamic mill component 250 are sleeved in transmission shaft lever 271, upper clutch 230 and lower clutch 240 Cooperation is connect, the lower inner wall face of dynamic mill component 250 is connect with the external wall of upper portion face of dynamic mill component 250.Meanwhile by locking member 210 It is mounted on the top end part of transmission shaft lever 271.The embodiment that locking member 210 herein uses can such as press, screw thread to be a variety of Deng the purpose of this utility model may be implemented in bayonet etc..

Fig. 9 is the perspective view that the utility model refines transmission shaft lever in device assembly.

As shown in figure 9, the upper semisection of the transmission shaft lever 271 of shaft set component 270 is equipped with the annular axis platform of a largest outside diameter, Axis platform thickness at least 2mm, as lower clutch sleeve loaded on the positioning shaft shoulder on transmission shaft.Due to using upper clutch 230, under The dynamic mill of the assembly of clutch 240 drives dynamic mill rotation by transmission shaft lever 271 in transmission shaft lever 271, so transmission shaft lever 271 No longer setting is dynamic on the excircle at this side axle end grinds anti-rotation plane.

Figure 10 is that the utility model refines the perspective view one that mill lid is moved in device assembly.Figure 11 is the utility model sharpener group The perspective view two of mill lid is moved in part.

As shown in Figure 10 and Figure 11, moving mill component 250 further includes dynamic mill lid 220, wherein the top end face center of dynamic mill lid 220 Place is equipped with an anti-rotating hole 221, and anti-rotating hole 221 can be arranged to slotted hole, rectangular opening or polygonal hole comprising anti-rotation plane. At least two discharge ports 222 are equipped on the top of dynamic mill lid 220, four discharge ports 222 are provided in the present embodiment, by discharge port 222 are looped around the surrounding of anti-rotating hole 221.The shape of discharge port 222 is unlimited herein, premised on the processing technology of use is simple. The inner hole wall of dynamic mill lid 220 is equipped with internal screw thread 223, passes through the external thread bolt connection of internal screw thread 223 and dynamic mill component 250.Meanwhile It is connected between the inside of two adjacent discharge ports 222 by arc surface 224, arc surface 223 can be used as dynamic mill lid herein 220 extraction unit.

Figure 12 is the perspective view one that the utility model refines an embodiment of upper clutch in device assembly.Figure 13 is that this is practical The perspective view two of an embodiment of upper clutch in novel fine grinding device assembly.

As shown in Figure 12 and Figure 13, the main body of upper clutch 230 is one first rotary table 231, in the lower end of the first rotary table 231 Face is equipped at least two upper clutch tooth 232, and upper clutch tooth 232 is symmetrical with the center line of the first rotary table 231, or Uniformly distributed with 360 ° of circumference, the requirement for height of upper clutch tooth 232 is at least in 3.5mm or more.Meanwhile the profile side of upper clutch tooth 232 Edge is preferably set to rounded corner.

Further, the upper surface of the first rotary table 231 is equipped with the linkage section 233 outwardly protruded, linkage section 233 and fixed part Part 280 connects, and upper clutch 230 is fastened on the inner top surface of dynamic mill lid 220.Linkage section 233 herein is set as thread segment, External screw thread thereon is connect with fixation member 280, upper clutch 230 is fastened on the inner top surface of dynamic mill lid 220.Fixation member 280 preferably fastening nut, linkage sections 233 are spirally connected with fastening nut.Meanwhile it being provided on the thread segment of upper clutch 230 At least one anti-rotation plane 234.First shaft hole 235 is arranged in the central part of upper clutch tooth 232, by first shaft hole 235 through whole A upper clutch 230.The anti-rotating hole 221 of the anti-rotation plane 234 of upper clutch tooth 230 and dynamic mill lid 220 cooperates, and passes through fixed part Part 280 is fastened in the inner top surface of dynamic mill lid 220.

The leading flank 236 of upper clutch tooth 232 is used as mating surface, and leading flank 236 is set perpendicularly to the first rotary table 231 The plane or cambered surface of top surface.Trailing flank 237 is used as non-mating surface, sets inclined-plane for trailing flank 237, clutch 230 in convenience, The clutch tooth of lower clutch 240 aligns and assembly.Certainly, trailing flank 237 may be set to be plane or cambered surface.Leading flank 236 Setting with trailing flank 237 also can according to need to be arranged in turn, and that of motor rotation trend is arranged in effect mating surface Side.The top surface 238 of upper clutch tooth 232 is set as cambered surface, inclined-plane or plane.The medial surface 239 and lateral surface of upper clutch tooth 232 239 ' are set as cambered surface, inclined-plane or plane.

Figure 14 is the perspective view that the utility model refines another embodiment of upper clutch in device assembly.Figure 15 is that this is practical The assembling schematic diagram of another embodiment of upper clutch and dynamic mill lid in novel fine grinding device assembly.

As shown in Figure 14 and Figure 15, in another embodiment, the upper surface of upper clutch 230 one section of setting protruding upward Non-threaded smooth surface cylinder 233 ', the excircle of the smooth surface cylinder, which is equipped at least one, prevents clutch 230 certainly The anti-rotation plane 234 ' turned.Specifically, the upper clutch tooth 232 of upper clutch 230 can cancel the convex cylinder appearance in upper end The external screw thread in face, i.e. external screw thread on linkage section 233.Meanwhile cancel upper clutch 230 is spirally connected be fastened on dynamic mill cover it is tight Gu nut, i.e. fixation member 280.The present embodiment is using Laser Welding or the top inner orifice edge of the dynamic mill lid 220 of argon arc welding welding With the convex cylinder outer circumferential of upper clutch 230 at matching part whole circle fit clearance A, the two is directly welded at Together, it can effectively simplify structure in this way and reduce manufacturing cost.

Figure 16 is the perspective view one that the utility model refines fixation member in device assembly.Figure 17 is the utility model sharpener The perspective view two of fixation member in component.

As shown in Figure 16 and Figure 17, it is described according to above structure, wherein fixation member 280 uses fastening nut, described tight Gu being equipped with a central shaft hole 282 at the end face center of the big end rotary body 281 of nut, hole is passed through as transmission shaft lever 271. 283 end face of small end rotary body of the fastening nut is equipped with an interior counterbore 284, and hole wall is equipped with internal screw thread, with upper clutch The external thread bolt connection on 230 tops fastens upper clutch 230 on dynamic mill lid 220.Meanwhile it being revolved in big end rotary body 281 and small end The tangent smooth connection of two ring shape arc surface 285 is arranged in the junction of swivel 283, in this, as the handle portion of dynamic mill.

Figure 18 is the perspective view one that the utility model refines lower clutch in device assembly.Figure 19 is the utility model sharpener The perspective view two of lower clutch in component.

As shown in Figure 18 and Figure 19, the main body of lower clutch 240 is one second rotary table 241, the upper surface of the second rotary table 240 Equipped at least two lower clutch tooth 242, lower clutch tooth 242 is symmetrical with the center line of the second rotary table 240, or with 360 ° of circumference uniformly distributed, and the requirement for height of lower clutch tooth 242 is higher by the top surface at least 3.5mm of the second rotary table 241.Meanwhile lower clutch The contour edge of tooth 242 is preferably set to rounded corner.

Further, the lower end surface setting of the second rotary table 241 is a flat surface, and it is heavy that one is equipped at the center of the lower end surface Hole 243, the depth of counterbore 243 are preferably set at least depth 1.5mm or more, for lower clutch 240 to be sleeved on transmission shaft It is positioned on bar 271.Second axis hole 244 is set in the centre of lower clutch teeth 242, the second axis hole 244 runs through the second rotary table 241 upper surface and counterbore 243.

The leading flank 245 of lower clutch tooth 242 is used as mating surface, and lower clutch tooth 242 is set perpendicularly to the second rotary table 241 Top surface plane or cambered surface.Trailing flank 246 is used as non-mating surface, sets inclined-plane, clutch in convenience for trailing flank 246 230, the clutch tooth contraposition and assembly of lower clutch 240.Certainly, trailing flank 246 may be set to be plane or cambered surface.Leading flank 245 and the setting of trailing flank 246 also can according to need and be arranged in turn, that motor rotation tends to is arranged in effect mating surface Side.The top surface 247 of lower clutch tooth 242 is set as cambered surface, inclined-plane or plane.The medial surface 248 and lateral surface of lower clutch tooth 242 249 are set as cambered surface, inclined-plane or plane.

Figure 20 is the perspective view one that the utility model refines lower clutch resilient cushion in device assembly.Figure 21 is the utility model Refine the perspective view two of lower clutch resilient cushion in device assembly.

As shown in Figure 20 and Figure 21, clutch resilient cushion is additionally provided between upper clutch 230 and lower clutch 240 290, lower clutch resilient cushion 290 is sleeved on lower clutch 240.The lower end surface of lower clutch resilient cushion 290 is a counterbore Table top 291 is formed with multiple clutch tooths by the upper surface protrusion of counterbore table top 291 to lower clutch resilient cushion 290 and is set with counterbore 292, clutch tooth suit counterbore 292 is matched with the lower clutch tooth 242 of lower clutch 240.

Preferably, a central through hole 293 is set at the center of counterbore table top 291, central through hole 293 is run through into lower clutch Device resilient cushion 290.The appearance profile of lower clutch resilient cushion 290 is according to the appearance profile of lower clutch 240 offset material outward It is formed, the thickness of material is at least 1.5mm.It seperated can be set between lower clutch resilient cushion 290 and lower clutch 240, or Person can also be using integral forming process such as encapsulated or quadric injection moulds.

According to above structure, the lower clutch resilient cushion in the present embodiment can play the role of vibration damping and noise reduction, can be with It is effectively prevented from clutch up and down and directly contacts generation abrasive dust, be mixed in abrasive dust in food and lead to the problem of safe diet hidden danger.

Figure 22 is the solid that the utility model refines upper clutch in an embodiment of device assembly, lower clutch assembled portion Figure.Figure 23 is the cross-sectional view splitted in Figure 22 along line B-B.

As shown in Figure 22 and Figure 23, a kind of connecting mode of clutch, lower clutch: Ke Yikao is present embodiments provided Consider and cancel lower clutch resilient cushion 290, clutch 230 upper in this way, lower clutch 240 directly couple cooperation, to drive dynamic mill Rotation.

Figure 24 is that the utility model refines lower clutch and transmission shaft lever assembled portion in another embodiment of device assembly Perspective view.Figure 25 is the cross-sectional view splitted in Figure 24 along line C-C.

As shown in figures 24 and 25, lower clutch 240 is sleeved on 271 upper semisection of transmission shaft lever by the counterbore of lower end surface In axis platform (shaft shoulder), and using the lower end inner orifice edge and transmission shaft lever 271 of clutch 240 under Laser Welding or argon arc welding welding Matching part whole circle fit clearance D.Or weld the upper end inner orifice edge and transmission shaft lever 271 of lower clutch 240 The whole circle fit clearance E of matching part.

In addition, welding can not also be used in another embodiment, the thickness of the axis platform of transmission shaft is thickeied to 3mm or more, And the threading on excircle.Simultaneously by the depth down of the interior counterbore of lower 240 lower end of clutch to 3mm or more, and Two parts are spirally connected by machining internal thread on hole wall.

In conclusion the utility model fine grinding device assembly and the food cooking machine including it use similar upper and lower clutch Upper and lower clutch is respectively and fixedly connected to dynamic mill and in transmission shaft lever, realizes the rapid-assembling/disassembling of dynamic mill by the structure of device connection assembly and disassembly, Dynamic mill is solved the problems, such as with rear stuck, makes mill more easily handling and cleans.

Although the foregoing describe specific embodiment of the present utility model, it will be appreciated by those of skill in the art that These are merely examples, and the protection scope of the utility model is defined by the appended claims.Those skilled in the art Member can make numerous variations or be repaired to these embodiments under the premise of without departing substantially from the principles of the present invention and essence Change, but these change and modification each fall within the protection scope of the utility model.

Claims (10)

1. a kind of fine grinding device assembly, which is characterized in that the fine grinding device assembly (200) includes locking member (210), upper clutch (230), lower clutch (240), dynamic mill component (250), quiet mill component (260) and shaft set component (270), the quiet mill component (260) it is fixed on shaft set component (270), dynamic mill component (250) is sleeved on the outer of quiet mill component (260) Portion, the transmission shaft lever (271) of shaft set component (270) are pierced by the quiet mill component (260) and upwardly extend to form an axis Platform (272), the lower clutch (240) is sleeved on the axis platform (272), and is fixed on the transmission shaft lever (271)；

The upper clutch (230) is fixedly connected on the inner top surface of dynamic mill component (250) by a fixation member (280), The dynamic mill component (250) is sleeved on the transmission shaft lever (271), the upper clutch (230) and the lower clutch (240) connection cooperation；The locking member (210) is mounted on the top of the transmission shaft lever (271).

2. fine grinding device assembly as described in claim 1, which is characterized in that the dynamic mill component (250) further includes dynamic mill lid (220), an anti-rotating hole (221) are equipped at the top end face center of the dynamic mill lid (220), and the top of the dynamic mill lid (220) Equipped at least two discharge ports (222), the discharge port (222) is looped around the surrounding of the anti-rotating hole (221).

3. fine grinding device assembly as claimed in claim 2, which is characterized in that the inside of two adjacent discharge ports (222) Between pass through arc surface connect.

4. fine grinding device assembly as described in claim 1, which is characterized in that the main body of the upper clutch (230) is one first The lower end surface of rotary table (231), first rotary table (231) is equipped with clutch tooth (232) at least two, the upper clutch tooth (232) symmetrical with the center line of first rotary table (231)；

The upper surface of first rotary table (231) is equipped with the linkage section (233) that outwardly protrudes, the linkage section (233) with it is described The upper clutch (230) is fastened on the inner top surface of the dynamic mill lid (220) by fixation member (280) connection；

First shaft hole (235) are arranged in the central part of the upper clutch tooth (232), and the first shaft hole (235) is through entire described Upper clutch (230).

5. fine grinding device assembly as claimed in claim 4, which is characterized in that the leading flank of the upper clutch tooth (232) is set as Perpendicular to the plane or cambered surface of the top surface of first rotary table (231)；The trailing flank of the upper clutch tooth (232) is set as oblique Face；The top surface of the upper clutch tooth (232) is set as cambered surface, inclined-plane or plane；The medial surface of the upper clutch tooth (232) and outer Side is set as cambered surface, inclined-plane or plane.

6. fine grinding device assembly as described in claim 1, which is characterized in that the main body of the lower clutch (240) is one second Rotary table (241), the upper surface of second rotary table (241) are equipped at least two lower clutch tooth (242), the lower clutch tooth (242) symmetrical with the center line of second rotary table (241)；

The lower end surface setting of second rotary table (241) is a flat surface, and is equipped with a counterbore (243) at the center of the lower end surface, It is positioned for the lower clutch (240) to be sleeved on the transmission shaft lever (271)；

The second axis hole (244) are arranged in the centre of the lower clutch tooth (242), and second axis hole (244) is through described the The upper surface and the counterbore (243) of two rotary tables (241).

7. fine grinding device assembly as claimed in claim 6, which is characterized in that the leading flank of the lower clutch tooth (242) is set as Perpendicular to the plane or cambered surface of the top surface of second rotary table (241)；The trailing flank of the lower clutch tooth (242) is set as oblique Face；The top surface of the lower clutch tooth (242) is set as cambered surface, inclined-plane or plane；The medial surface of the lower clutch tooth (242) and outer Side is set as cambered surface, inclined-plane or plane.

8. fine grinding device assembly as claimed in claim 6, which is characterized in that the upper clutch (230) and the lower clutch (240) be additionally provided with clutch resilient cushion (290) between, the lower clutch resilient cushion (290) be sleeved on it is described under from In clutch (240)；

The lower end surface of the lower clutch resilient cushion (290) is a counterbore table top (291), by the counterbore table top (291) to institute The upper surface protrusion for stating lower clutch resilient cushion (290) is formed with multiple clutch tooth suits counterbore (292), the clutch tooth suit Counterbore (292) is matched with the lower clutch tooth (242) of the lower clutch (240)；

A central through hole (293) are set at the center of the counterbore table top (291), under the central through hole (293) runs through described Clutch resilient cushion (290).

9. fine grinding device assembly as claimed in claim 6, which is characterized in that the lower clutch (240) passes through the heavy of lower end surface Hole (243) is sleeved in the axis platform of the transmission shaft lever (271), and using lower clutch described in Laser Welding or argon arc welding welding (240) between the whole circle cooperation of the matching part at lower end inner orifice edge/upper end inner orifice edge and the transmission shaft lever (271) Gap.

10. a kind of food cooking machine, which is characterized in that the food cooking machine (100) includes such as claim 1-9 any one The fine grinding device assembly (200).