CN219229669U - Bean grinder is with two thick and thin structures of adjusting and bean grinder - Google Patents

Abstract

The utility model belongs to the technical field of bean grinding machines, and particularly relates to a double-adjusting-thickness structure for a bean grinding machine and the bean grinding machine, which comprise a shell, a grinding assembly, a gap adjusting assembly, a coarse adjusting assembly and a fine adjusting assembly; the grinding component comprises a fixed grinding disc arranged on the shell and a movable grinding disc capable of being arranged on the shell in a vertical moving mode, a grinding gap is formed between the movable grinding disc and the fixed grinding disc, the movable grinding disc can be driven to move up and down through linkage of the coarse adjusting component and the gap adjusting component, coarse adjustment of the size of the grinding gap is achieved, coffee bean powder thickness is changed, meanwhile, the movable grinding disc can be driven to move up and down through linkage of the fine adjusting component and the gap adjusting component, fine adjustment of the size of the grinding gap is achieved, coarse adjustment and fine adjustment of the grinding gap can be achieved, and accordingly the thickness degree of ground powder is divided more accurately, and different requirements of users are met.

Description

Bean grinder is with two thick and thin structures of adjusting and bean grinder

[ field of technology ]

The utility model belongs to the technical field of bean grinding machines, and particularly relates to a double-thickness-adjusting structure for a bean grinding machine and the bean grinding machine.

[ background Art ]

The consumer market for coffee and coffee appliances, the potential of which is difficult to measure, is increasingly being tried to drink coffee, and the market share of coffee is increasing day by day; when drinking coffee, people are more loved to grind the coffee now, which is the manifestation of pursuing in coffee culture for high-quality life, the key step in grinding the coffee now is to grind the coffee beans into the coffee powder with proper thickness, and the bean grinder is a device special for grinding the coffee bean materials.

At present, a coffee bean grinder in the market adopts a mode of adjusting the fineness only for coarse adjustment, so that the selection of the fineness of powder is not accurate enough, and the grinding level required by a user is not accurate enough.

[ utility model ]

The utility model aims to provide a double-thickness-adjusting structure for a bean grinder, which can realize rough adjustment and fine adjustment of a grinding gap, so that the thickness degree of ground powder is divided more accurately, different requirements of users are met, and the operation is simple and convenient.

The utility model is realized by the following technical scheme:

bean grinder is with two thickness structures that adjust, include:

a housing;

the grinding assembly comprises a fixed grinding disc arranged on the shell and a movable grinding disc which can be arranged on the shell in an up-and-down moving manner, and a grinding gap is formed between the movable grinding disc and the fixed grinding disc;

the gap adjusting component is arranged on the shell and used for driving the movable grinding disc to move up and down so as to adjust the size of the grinding gap;

the coarse adjusting component is used for being linked with the clearance adjusting component so as to drive the movable millstone to move up and down;

the fine adjustment assembly is used for being linked with the gap adjustment assembly so as to drive the movable millstone to move up and down;

the distance that the coarse adjustment assembly drives the movable millstone to move up and down is greater than the distance that the fine adjustment assembly drives the movable millstone to move up and down.

The bean grinder is with two thick thin structures of accent, the thick regulation subassembly includes:

the coarse adjustment rotating column is rotationally arranged on the shell, and pushes the gap adjusting assembly to move up and down when rotating;

and the coarse adjusting arm is arranged on the coarse adjusting rotating column and is used for driving the coarse adjusting rotating column to rotate.

As the coarse adjustment gap is arranged on the coarse adjustment rotating column, when the coarse adjustment rotating column rotates, the gap adjusting component is gradually separated from the coarse adjustment gap and contacts with the outer wall of the coarse adjustment rotating column to be pushed by the outer wall of the coarse adjustment rotating column to move upwards, or the gap adjusting component is gradually separated from the outer wall of the coarse adjustment rotating column to enter the coarse adjustment gap, so that the gap adjusting component moves downwards.

As described above, the bean grinder is with the double-adjustment thickness structure, the fine adjustment assembly comprises a fine adjustment rotating column and a fine adjustment arm for driving the fine adjustment rotating column to rotate, one end of the gap adjustment assembly is arranged on the fine adjustment rotating column, a fine adjustment gap is arranged on the fine adjustment rotating column, when the fine adjustment rotating column rotates, the gap adjustment assembly is gradually separated from the fine adjustment gap and contacts with the outer wall of the fine adjustment rotating column to be pushed by the outer wall of the fine adjustment rotating column to move upwards, or the gap adjustment assembly is gradually separated from the outer wall of the fine adjustment rotating column to enter the fine adjustment gap, so that the gap adjustment assembly moves downwards.

As mentioned above, the bean grinder is with two-step structure, the fine adjustment subassembly is including rotating the fine adjustment pivoted post of locating on the coarse adjustment pivoted post and locating on the fine adjustment pivoted post and be used for driving the fine adjustment pivoted post pivoted fine adjustment arm relatively, the fine adjustment pivoted post with coarse adjustment pivoted post eccentric setting and locating in the coarse adjustment breach, works as when the coarse adjustment arm drive coarse adjustment pivoted post rotates, coarse adjustment pivoted post and fine adjustment pivoted post cooperation form cam structure, in order to drive the clearance adjustment subassembly reciprocates.

As described above, the bean grinder is of a double-thickness-adjusting structure, the gap adjusting assembly comprises a lever adjusting arm and an adjusting pushing piece arranged on the lever adjusting arm, a limiting column is arranged on the shell, one end of the lever adjusting arm is sleeved on the limiting column, and the other end of the lever adjusting arm is arranged on the micro-adjusting assembly.

As described above, the bean grinder has a double-thickness-adjusting structure, the gap adjusting assembly further comprises an adjusting screw arranged on the shell, and the adjusting screw is abutted to one end of the lever adjusting arm, which is far away from the fine adjusting assembly.

The double-thickness-adjusting structure for the bean grinder, as described above, the grinding assembly further comprises:

the grinding rotating shaft is rotationally arranged on the shell, one end of the grinding rotating shaft is connected with the movable grinding disc, and the other end of the grinding rotating shaft is contacted with the adjusting pushing piece;

the rotating wheel is sleeved on the grinding rotating shaft and used for driving the grinding rotating shaft to rotate;

and the driving motor is arranged on the shell and used for driving the rotating wheel to rotate.

As described above, the bean grinder is with the double-thickness structure, the casing includes the inferior valve, locates the epitheca on the inferior valve, locates the cap on the epitheca and locates the play powder shell on the inferior valve, form between epitheca and the cap and grind the chamber, decide the mill fixed mounting and cover just be equipped with the pan feeding passageway that communicates grinding the chamber on grinding mill and the cap, move the mill rotation and locate in grinding the chamber, be equipped with the play powder passageway that communicates with grinding the chamber in the play powder shell, the activity is equipped with the shutoff board on the play powder shell, shutoff board one end stretches out outside the powder shell, and the other end stretches into shutoff play powder passageway.

A bean grinder comprises the double-thickness-adjusting structure for the bean grinder.

The embodiment of the utility model has the following beneficial effects:

the utility model provides a double-thickness-adjusting structure for a bean grinder, which comprises a shell, a grinding assembly, a gap adjusting assembly, a rough adjusting assembly and a fine adjusting assembly, wherein the shell is provided with a groove; the grinding component comprises a fixed grinding disc arranged on the shell and a movable grinding disc capable of being arranged on the shell in a vertical moving mode, a grinding gap is formed between the movable grinding disc and the fixed grinding disc, the movable grinding disc can be driven to move up and down through linkage of the coarse adjusting component and the gap adjusting component, coarse adjustment of the size of the grinding gap is achieved, coffee bean powder thickness is changed, meanwhile, the movable grinding disc can be driven to move up and down through linkage of the fine adjusting component and the gap adjusting component, fine adjustment of the size of the grinding gap is achieved, coarse adjustment and fine adjustment of the grinding gap can be achieved, and accordingly the thickness degree of ground powder is divided more accurately, and different requirements of users are met.

The embodiment of the utility model also provides a bean grinder, which comprises the double-thickness-adjusting structure for the bean grinder, and has the advantages corresponding to the double-thickness-adjusting structure for the bean grinder.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments will be briefly described below.

FIG. 1 is a schematic diagram of a dual-thickness structure for a bean grinder according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the cross-sectional structure of A-A of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2 a;

FIG. 4 is a schematic view showing a partially exploded structure of a double-thickness structure for a bean grinder according to an embodiment of the present utility model;

fig. 5 is a schematic diagram showing an exploded structure of a dual-thickness structure for a bean grinder according to an embodiment of the present utility model.

[ detailed description ] of the utility model

In order to make the technical problems, technical schemes and beneficial effects solved by the utility model more clear, the utility model 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 for purposes of illustration only and are not intended to limit the scope of the utility model.

When embodiments of the present utility model refer to the ordinal terms "first," "second," etc., it is to be understood that they are merely used for distinguishing between them unless the order of their presentation is indeed dependent on the context.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In a specific embodiment, the dual-thickness structure for a bean grinder and the bean grinder shown in fig. 1-5 comprise a shell 1, a grinding assembly 2, a gap adjusting assembly 3, a coarse adjusting assembly 4 and a fine adjusting assembly 5. The grinding assembly 2 comprises a fixed grinding disc 21 arranged on the shell 1 and a movable grinding disc 22 which can be arranged on the shell 1 in an up-and-down moving way, wherein a grinding gap 23 is formed between the movable grinding disc 22 and the fixed grinding disc 21; the gap adjusting component 3 is arranged on the shell 1 and is used for driving the movable millstone 22 to move up and down so as to adjust the size of the grinding gap 23; the coarse adjusting component 4 is used for being linked with the gap adjusting component 3 so as to drive the movable millstone 22 to move up and down; the fine adjusting component 5 is used for being linked with the gap adjusting component 3 so as to drive the movable millstone 22 to move up and down; the distance that the coarse adjusting component 4 drives the movable millstone 22 to move up and down is larger than the distance that the fine adjusting component 5 drives the movable millstone 22 to move up and down. The movable grinding disc can be driven to move up and down through the linkage of the coarse adjusting component and the gap adjusting component, coarse adjustment on the size of the grinding gap is further achieved, so that the thickness of coffee bean powder is changed, meanwhile, the movable grinding disc can be driven to move up and down through the linkage of the fine adjusting component and the gap adjusting component, fine adjustment on the size of the grinding gap is achieved, coarse adjustment and fine adjustment on the size of the grinding gap can be achieved, the thickness degree of the ground powder is divided more accurately, and different requirements of users are met.

Specifically, the coarse adjustment assembly 4 includes a coarse adjustment column 41 and a coarse adjustment arm 42. The coarse adjustment rotating column 41 is rotatably arranged on the shell 1, and pushes the gap adjusting component 3 to move up and down when the coarse adjustment rotating column 41 rotates, alternatively, the coarse adjustment rotating column 41 can adopt a cam column or a notch is formed in a column body; the coarse adjusting arm 42 is arranged on the coarse adjusting rotating column 41 and is used for driving the coarse adjusting rotating column 41 to rotate; when in use, the coarse adjustment of the size of the grinding gap can be realized by directly poking the coarse adjustment arm 42, and the operation is very simple and convenient.

More specifically, the coarse tuning rotating post 41 is provided with a coarse tuning gap 411, and when the coarse tuning rotating post 41 rotates, the gap adjusting component 3 gradually breaks away from the coarse tuning gap 411 and contacts with the outer wall of the coarse tuning rotating post 41 to be pushed by the outer wall of the coarse tuning rotating post 41 to move upwards, or the gap adjusting component 3 gradually breaks away from the outer wall of the coarse tuning rotating post 41 to enter the coarse tuning gap 411, so that the gap adjusting component 3 moves downwards.

In addition, the fine adjustment assembly 5 includes a fine adjustment rotating column 51, and a fine adjustment arm 52 for driving the fine adjustment rotating column 51 to rotate, one end of the gap adjustment assembly 3 is disposed on the fine adjustment rotating column 51, a fine adjustment gap 511 is disposed on the fine adjustment rotating column 51, and when the fine adjustment rotating column 51 rotates, the gap adjustment assembly 3 gradually breaks away from the fine adjustment gap 511 and contacts with the outer wall of the fine adjustment rotating column 51 to be pushed up by the outer wall of the fine adjustment rotating column 51, or the gap adjustment assembly 3 gradually breaks away from the outer wall of the fine adjustment rotating column 51 to enter the fine adjustment gap 511, so that the gap adjustment assembly 3 moves down.

Further, the fine adjustment assembly 5 includes a fine adjustment rotating post 51 rotatably disposed on the coarse adjustment rotating post 41, and a fine adjustment arm 52 disposed on the fine adjustment rotating post 51 for driving the fine adjustment rotating post 51 to rotate relative to the coarse adjustment rotating post 41, wherein the fine adjustment rotating post 51 is eccentrically disposed with the coarse adjustment rotating post 41 and disposed in the coarse adjustment notch 411, and when the coarse adjustment arm 42 drives the coarse adjustment rotating post 41 to rotate, the coarse adjustment rotating post 41 and the fine adjustment rotating post 51 cooperate to form a cam structure so as to drive the gap adjustment assembly 3 to move up and down. When the gap adjusting component 3 is positioned in the rough adjusting notch 411 and positioned on the fine adjusting rotating column 51, the rough adjusting arm 42 is rotated to drive the rough adjusting rotating column 41 to eccentrically rotate, and the rough adjusting rotating column 41 drives the fine adjusting rotating column 51 to push the gap adjusting component 3 to move upwards so as to roughly adjust the size of the grinding gap 23; and when the fine adjustment arm 52 drives the fine adjustment rotating column 51 to rotate relative to the coarse adjustment rotating column 41, the fine adjustment rotating column 51 rotates by itself, so that the gap adjustment assembly 3 is gradually separated from the fine adjustment gap 511 and contacts with the outer wall of the fine adjustment rotating column 51, the outer wall of the fine adjustment rotating column 51 pushes the gap adjustment assembly 3 to move upwards, or the gap adjustment assembly 3 is gradually separated from the outer wall of the fine adjustment rotating column 51 and enters the fine adjustment gap 511, so that the gap adjustment assembly 3 moves downwards to further finely adjust the size of the grinding gap 23, coarse adjustment and fine adjustment on the grinding thickness of coffee beans are realized, the coarse and fine degree division of the ground powder is more accurate, and different requirements of users are met.

Specifically, the gap adjusting assembly 3 includes a lever adjusting arm 31 and an adjusting pushing member 32 disposed on the lever adjusting arm 31, the housing 1 is provided with a limiting post 6, one end of the lever adjusting arm 31 is sleeved on the limiting post 6, and the other end of the lever adjusting arm 31 is disposed on the micro adjusting assembly 5. More specifically, the gap adjusting assembly 3 further includes an adjusting screw 33 provided on the housing 1, and the adjusting screw 33 abuts against an end of the lever adjusting arm 31 remote from the fine adjusting assembly 5. The height of one end of the lever adjusting arm 31, which is far away from the fine adjusting component 5, is adjusted by the up-and-down movement of the adjusting screw 33, and then the adjusting stroke of the coarse adjusting component 4 and the fine adjusting component 5 is changed, specifically, when the adjusting screw 33 moves up to jack up one end of the lever adjusting arm 31, the distance that the coarse adjusting component 4 and the fine adjusting component 5 drive the movable grinding disc 22 to move up and down is reduced, and when the adjusting screw 33 moves down, the distance that the coarse adjusting component 4 and the fine adjusting component 5 drive the movable grinding disc 22 to move up and down is increased.

Further, the grinding assembly 2 further includes a grinding spindle 24, a rotating wheel 25, and a drive motor 26. The grinding rotating shaft 24 is rotatably arranged on the shell 1, one end of the grinding rotating shaft is connected with the movable grinding disc 22, and the other end of the grinding rotating shaft is contacted with the adjusting pushing piece 32; the rotating wheel 25 is sleeved on the grinding rotating shaft 24 and is used for driving the grinding rotating shaft 24 to rotate; the driving motor 26 is disposed on the housing 1 and is used for driving the rotating wheel 25 to rotate. The present application is driven by a conveyor belt arranged between the output end of the drive motor 26 and the rotating wheel 25. Realize electric grinding through grinding component, grind efficiently, the quality is good.

Still further, the housing 1 includes a lower shell 11, an upper shell 12 disposed on the lower shell 11, a shell cover 13 disposed on the upper shell 12, and a powder outlet shell 14 disposed on the lower shell 11, a grinding cavity 7 is formed between the upper shell 12 and the shell cover 13, the fixed grinding disc 21 is fixedly disposed on the shell cover 13, and the fixed grinding disc 21 and the shell cover 13 are provided with a feeding channel 8 communicating with the grinding cavity 7, and the movable grinding disc 22 is rotatably disposed in the grinding cavity 7 and is detachable for cleaning; the powder discharging shell 14 is internally provided with a powder discharging channel 141 communicated with the grinding cavity 7, the powder discharging shell 14 is movably provided with a plugging plate 9, one end of the plugging plate 9 extends out of the powder discharging shell 14, and the other end extends into the powder discharging channel 141.

The utility model also provides a bean grinder, which comprises the double-thickness-adjusting structure for the bean grinder, and has the advantages corresponding to the double-thickness-adjusting structure for the bean grinder.

The above description of one embodiment provided in connection with the specific content does not set forth limitation to the specific implementation of the present utility model, and is not limited to the above designations but is not limited to english designations due to the different industry designations. The method, structure, etc. similar to or identical to those of the present utility model, or some technical deductions or substitutions are made on the premise of the inventive concept, should be regarded as the protection scope of the present utility model.

Claims (10)

1. Bean grinder is with two thick thin structures of adjusting, its characterized in that includes:

a housing (1);

the grinding assembly (2) comprises a fixed grinding disc (21) arranged on the shell (1) and a movable grinding disc (22) which can be arranged on the shell (1) in an up-and-down moving mode, and a grinding gap (23) is formed between the movable grinding disc (22) and the fixed grinding disc (21);

the gap adjusting component (3) is arranged on the shell (1) and is used for driving the movable millstone (22) to move up and down so as to adjust the size of the grinding gap (23);

the coarse adjusting component (4) is used for being linked with the clearance adjusting component (3) so as to drive the movable millstone (22) to move up and down;

the fine adjusting component (5) is used for being linked with the clearance adjusting component (3) so as to drive the movable millstone (22) to move up and down;

the distance that coarse adjustment subassembly (4) drove movable millstone (22) and reciprocate is greater than fine adjustment subassembly (5) and drives movable millstone (22) and reciprocate.

2. The double-thickness structure for a bean grinder according to claim 1, wherein the coarse adjustment assembly (4) comprises:

a coarse adjustment rotating column (41) which is rotatably arranged on the shell (1), wherein the coarse adjustment rotating column (41) pushes the gap adjusting assembly (3) to move up and down when rotating;

and a rough adjustment arm (42) provided on the rough adjustment rotation column (41) for driving the rough adjustment rotation column (41) to rotate.

3. The double-adjustment coarse-fine structure for a bean grinder according to claim 2, wherein the coarse adjustment rotating column (41) is provided with a coarse adjustment gap (411), and when the coarse adjustment rotating column (41) rotates, the gap adjustment assembly (3) is gradually separated from the coarse adjustment gap (411) and contacts with the outer wall of the coarse adjustment rotating column (41) to be pushed by the outer wall of the coarse adjustment rotating column (41) to move upwards, or the gap adjustment assembly (3) is gradually separated from the outer wall of the coarse adjustment rotating column (41) to enter the coarse adjustment gap (411) to move the gap adjustment assembly (3) downwards.

4. The double-adjustment coarse-fine structure for a bean grinder according to claim 1, wherein the fine adjustment assembly (5) comprises a fine adjustment rotating column (51) and a fine adjustment arm (52) for driving the fine adjustment rotating column (51) to rotate, one end of the gap adjustment assembly (3) is arranged on the fine adjustment rotating column (51), a fine adjustment gap (511) is arranged on the fine adjustment rotating column (51), and when the fine adjustment rotating column (51) rotates, the gap adjustment assembly (3) is gradually separated from the fine adjustment gap (511) and is contacted with the outer wall of the fine adjustment rotating column (51) to be pushed by the outer wall of the fine adjustment rotating column (51) to move upwards, or the gap adjustment assembly (3) is gradually separated from the outer wall of the fine adjustment rotating column (51) to enter the fine adjustment gap (511) so that the gap adjustment assembly (3) moves downwards.

5. A dual-adjustment coarse and fine structure for a bean grinder according to claim 3, wherein the fine adjustment assembly (5) comprises a fine adjustment rotating column (51) rotatably arranged on the coarse adjustment rotating column (41), and a fine adjustment arm (52) arranged on the fine adjustment rotating column (51) and used for driving the fine adjustment rotating column (51) to rotate relative to the coarse adjustment rotating column (41), the fine adjustment rotating column (51) and the coarse adjustment rotating column (41) are eccentrically arranged and arranged in the coarse adjustment notch (411), and when the coarse adjustment rotating column (41) is driven to rotate by the coarse adjustment arm (42), the coarse adjustment rotating column (41) and the fine adjustment rotating column (51) are matched to form a cam structure so as to drive the gap adjustment assembly (3) to move up and down.

6. The double-thickness-adjusting structure for bean grinder according to claim 2, wherein the gap adjusting component (3) comprises a lever adjusting arm (31) and an adjusting pushing piece (32) arranged on the lever adjusting arm (31), a limiting column (6) is arranged on the shell (1), one end of the lever adjusting arm (31) is sleeved on the limiting column (6), and the other end of the lever adjusting arm is arranged on the micro adjusting component (5).

7. The dual-thickness structure for a bean grinder according to claim 6, wherein the gap adjusting assembly (3) further comprises an adjusting screw (33) arranged on the housing (1), and the adjusting screw (33) is abutted against one end of the lever adjusting arm (31) far away from the fine adjusting assembly (5).

8. The double-thickness structure for a bean grinder according to claim 6, wherein the grinding assembly (2) further comprises:

the grinding rotating shaft (24) is rotatably arranged on the shell (1), one end of the grinding rotating shaft is connected with the movable grinding disc (22), and the other end of the grinding rotating shaft is contacted with the adjusting pushing piece (32);

the rotating wheel (25) is sleeved on the grinding rotating shaft (24) and is used for driving the grinding rotating shaft (24) to rotate;

and a driving motor (26) provided on the housing (1) for driving the rotation wheel (25) to rotate.

9. The bean grinder is with two thickness structures of adjusting of claim 1, wherein, casing (1) include inferior valve (11), locate epitheca (12) on inferior valve (11), locate cap (13) on epitheca (12) and locate out powder shell (14) on inferior valve (11), form grinding chamber (7) between epitheca (12) and cap (13), decide mill (21) fixed locate on cap (13) just be equipped with pan feeding passageway (8) of intercommunication grinding chamber (7) on mill (21) and cap (13), move mill (22) rotate locate in grinding chamber (7), be equipped with in powder outlet passageway (141) with grinding chamber (7) intercommunication in powder outlet shell (14), the activity is equipped with shutoff board (9) on powder outlet shell (14), shutoff board (9) one end stretches out outside powder shell (14), and the other end stretches into shutoff and stretches into out powder passageway (141).

10. A bean grinder, characterized by comprising a double-thickness structure for a bean grinder according to any one of claims 1 to 9.

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