CN221083432U - Powder receiving ring, powder receiving device and coffee machine of powder receiving device - Google Patents

Abstract

The utility model discloses a powder receiving ring, a powder receiving device and a coffee machine thereof, wherein the powder receiving ring comprises a mounting bottom ring and a powder baffle plate, the powder baffle plate is arranged on the periphery of the top end of the mounting bottom ring in a surrounding manner, and the powder baffle plate is provided with a guide-in notch; the powder baffle plate is provided with a powder baffle section and guide sections connected to the two sides of the powder baffle section, and a guide notch is formed between the two guide sections; the guiding section gradually inclines from top to bottom towards the position far away from the powder blocking section. The powder receiving device comprises a powder receiving cup and a powder receiving ring, wherein the powder receiving ring comprises a mounting bottom ring and a powder baffle plate, the powder baffle plate is arranged on the periphery of the top end of the mounting bottom ring in a surrounding manner, and the powder baffle plate is provided with a guide-in notch; the powder baffle plate is provided with a powder baffle section and guide sections connected to the two sides of the powder baffle section, and a guide notch is formed between the two guide sections; the guiding section gradually inclines from top to bottom towards the position far away from the powder blocking section. A coffee machine comprises a coffee machine body; a powder receiving device. The utility model can guide the powder receiving ring with the guide section in the process of loading the powder receiving ring.

Description

Powder receiving ring, powder receiving device and coffee machine of powder receiving device

Technical Field

The utility model relates to the field of coffee machines, in particular to a powder receiving ring, a powder receiving device and a coffee machine thereof.

Background

In a coffee machine, coffee beans are generally ground by a grinding mechanism in the coffee machine, so that after the coffee beans form coffee powder, the coffee powder is guided out from a powder outlet channel of the coffee machine, and therefore, a powder receiving device for receiving the coffee powder is generally arranged on the coffee machine and is used for receiving the coffee powder guided out from the powder outlet channel of the coffee machine.

However, when the coffee powder is discharged, the coffee powder is powder, so that static electricity is generated, and powder flying occurs between the powder outlet channel and the powder collector, and the powder is adhered to the handle of the powder collector, the inner wall or the outer wall of the powder cup of the powder collector and the like.

In order to reduce the powder flying situation, the most common powder flying preventing structure is to arrange a powder receiving ring on a powder cup of a powder receiving device, and the powder receiving ring is sleeved at the interval position of a powder outlet channel and the powder cup and used for preventing powder flying. The powder receiving ring is generally provided with a positioning block with a grip fastened on the periphery of a powder cup of the powder receiving device, and after the powder receiving device is fastened, the height of the whole powder receiving device is increased.

The positioning block at the periphery of the powder cup is generally used as a structure of a powder outlet switch of the touch coffee machine, and after the powder receiving ring is buckled, the touch structure is required to be arranged on the powder receiving ring due to the clamping of the positioning block and the grip of the powder receiving ring, so that the cost is increased.

Disclosure of utility model

In order to overcome at least one of the defects in the prior art, the utility model provides a powder receiving ring, a powder receiving device and a coffee machine thereof, wherein the powder receiving ring and a powder receiving cup can be assembled by inserting a mounting bottom ring, so that a powder baffle plate encloses the position of a powder outlet channel of the coffee machine, and is guided in the process of loading.

The utility model adopts the technical proposal for solving the problems that:

The powder receiving ring comprises a mounting bottom ring and a powder baffle plate, wherein the powder baffle plate is arranged on the periphery of the top end of the mounting bottom ring in a surrounding manner, and is provided with a guide-in notch; the powder baffle plate is provided with a powder baffle section and guide sections connected to two sides of the powder baffle section, and the guide gap is formed between the two guide sections; the guide section gradually inclines from top to bottom towards the powder blocking section.

Further, the top end of the guide section is connected with the powder blocking section in an arc shape.

Further, the outer wall of the bottom end of the powder baffle plate is convexly provided with a bearing step; the bearing step protrudes out of the outer wall of the mounting bottom ring.

The powder receiving device comprises a powder receiving cup and a powder receiving ring, wherein the powder receiving ring comprises a mounting bottom ring and a powder baffle plate, the mounting bottom ring is connected with the powder receiving cup in a plug-in manner and in clearance fit, the powder baffle plate is arranged on the peripheral edge of the top end of the mounting bottom ring in a surrounding manner, and the powder baffle plate is provided with a guide-in notch; the powder baffle plate is provided with a powder baffle section and guide sections connected to two sides of the powder baffle section, and the guide gap is formed between the two guide sections; the guide section gradually inclines from top to bottom towards the powder blocking section.

Further, the outer wall of the bottom end of the powder baffle plate is convexly provided with a bearing step; the bearing step protrudes out of the outer wall of the mounting bottom ring; the bearing step is used for propping against the top end surface of the powder receiving cup after the mounting bottom ring is inserted into the powder receiving cup, and the powder baffle is arranged on the periphery of the powder receiving cup in a surrounding mode.

Further, a plurality of positioning blocks are convexly arranged on the peripheral wall of the powder receiving cup.

A coffee machine, comprising a main body and a plurality of coffee machines,

The coffee machine body is provided with a powder outlet channel, and the side part of the powder outlet channel is provided with a penetrating port;

The powder receiving device comprises a powder receiving cup and a powder receiving ring, and the powder receiving cup is used for extending into the powder outlet channel through the through-connection opening; the powder receiving ring comprises a mounting bottom ring and a powder baffle plate, the powder baffle plate is arranged on the periphery of the top end of the mounting bottom ring in a surrounding mode, and the powder baffle plate is provided with a guide-in notch; the powder baffle plate is provided with powder baffle sections and guide sections connected to two sides of the powder baffle sections, the guide sections are gradually inclined from top to bottom towards the position far away from the powder baffle sections, and the guide gaps are formed between the two guide sections; the installation bottom ring is connected with the powder receiving cup in a plug-in manner and in clearance fit, and the powder baffle plate encloses the penetrating opening.

Further, guide parts are arranged on two sides of the inner wall of the powder outlet channel; the guide part is used for being in sliding fit with the guide section when the powder receiving cup penetrates into the powder outlet channel through the penetrating opening so as to guide the powder receiving ring to rotate relative to the powder receiving cup.

Further, guide inclined planes are arranged on two sides of the inner wall of the powder outlet channel and are used for being in sliding fit with the guide sections, and the guide inclined planes are formed into the guide parts.

Further, the outer wall of the bottom end of the powder baffle plate is convexly provided with a bearing step; the bearing step protrudes out of the outer wall of the installation bottom ring, and the bearing step is used for propping against the top end surface of the powder receiving cup after the installation bottom ring is inserted into the powder receiving cup.

Further, the side wall of the through interface is provided with a guide-in chute, and the peripheral wall of the powder receiving cup is convexly provided with a plurality of positioning blocks; the positioning block is used for sliding into the powder outlet channel after the powder receiving cup stretches into the powder outlet channel.

In summary, the utility model has the following technical effects:

The inclined guide section of the powder receiving ring can be subjected to the force of the inner wall of the powder discharging channel, the inclined guide section can decompose the force to different directions, and the mounting bottom ring of the powder receiving ring and the powder receiving cup have a rotation trend, so that the powder receiving ring can be driven to rotate to avoid the force applying point of the inner wall of the powder discharging channel after the guide section is stressed, the powder receiving ring can be in a straightening state, the powder receiving ring is not required to be assembled in place in advance, and the mounting difficulty is reduced. In addition, the installation base ring and the powder receiving cup are mutually inserted and assembled, and other connecting structures are not needed to be additionally arranged on the powder receiving cup, so that the structure of the powder receiving cup is not influenced, and the guide section of the powder baffle plate of the powder receiving ring is in an inclined state, namely, the whole height has a certain inclination, so that the installation height cannot be increased after the powder receiving ring is installed on the powder receiving cup.

The powder baffle of the powder receiving ring is arranged on the outer side of the powder outlet channel in a surrounding mode, so that the inside is relatively closed, powder can be guided out of the powder outlet channel at the moment, and enters the powder receiving cup through the guide-in notch at the top and the side of the powder receiving ring, so that a large amount of coffee powder can be prevented from flying out of the powder cup seat, and powder flying can be prevented. The powder blocking ring is provided with a guide-in notch, so that the powder receiving ring is in a non-complete surrounding wall state, and the powder receiving ring is more convenient to clean.

Drawings

FIG. 1 is a schematic view of the powder receiving ring according to the present utility model;

FIG. 2 is a schematic view of the structure of the powder collector of the present utility model;

FIG. 3 is a schematic diagram of an assembly structure of the powder receiver and the powder outlet channel of the present utility model;

FIG. 4 is a schematic diagram of an assembled and disassembled structure of the powder receiver and the powder outlet channel of the present utility model;

FIG. 5 is an assembled cross-sectional view of the powder receiver and the air outlet channel of the present utility model.

Wherein the reference numerals have the following meanings: 10. a powder receiving ring; 11. installing a bottom ring; 12. a powder baffle plate; 121. a powder blocking section; 122. a guide section; 123. a notch is introduced; 13. bearing the step; 20. a powder receiving device; 21. a powder receiving cup; 22. a positioning block; 30. a powder outlet channel; 31. leading into the chute; 32. a threading port; 33. and (5) correcting the inclined plane.

Detailed Description

For a better understanding and implementation, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

In the case of example 1,

Referring to fig. 1, the utility model discloses a powder receiving ring 10, which comprises a mounting bottom ring 11 and a powder baffle 12, wherein the powder baffle 12 is surrounded on the periphery of the top end of the mounting bottom ring 11, the powder baffle 12 is provided with a guide notch 123, the guide notch 123 can enable the powder baffle 12 to be in a semi-surrounding state, namely, the powder baffle 12 is not fully enclosed, and a specific surrounding and blocking area of the powder baffle 12 can be adjusted adaptively according to different use situations. Specifically, the powder baffle 12 has a powder baffle section 121 and a guiding section 122, and both sides of the powder baffle section 121 are connected with the guiding section 122, so that the guiding sections 122 on both sides are spaced from each other to form the guiding notch 123, and the guiding section 122 is gradually inclined from top to bottom toward a direction away from the powder baffle section 121.

Based on the above structure, when the powder receiving ring 10 of the present utility model is used, the powder receiving ring 10 can be used for the powder receiving cup 21 or the powder receiving bowl, when the powder receiving ring 10 is assembled, taking the powder receiving ring 10 applied to the powder receiving cup 21 as an example, the mounting bottom ring 11 of the powder receiving ring 10 can be inserted into the inner wall of the powder receiving cup 21, and the mounting bottom ring 11 has a rotation trend relative to the powder receiving cup 21.

When the powder receiving action is carried out, the guide notch 123 of the powder receiving ring 10 can be pushed into the powder outlet channel 30, the powder receiving cup 21 is pushed into the powder outlet channel, in the pushing process, the guide sections 122 are abutted against the inner wall of the powder outlet channel 30 on two sides of the powder baffle 12, the inner wall of the powder outlet channel 30 can slide along the guide section 122 of the powder receiving ring 10 due to the inclined state of the guide sections 122 of the powder receiving ring 10, the inclined guide sections 122 can decompose the stress to different directions, and the mounting bottom ring 11 of the powder receiving ring 10 and the powder receiving cup 21 have rotation trend, so that the guide sections 122 can drive the powder receiving ring 10 to rotate to avoid the force point of the inner wall of the powder outlet channel 30 after being stressed, the powder receiving ring 10 can be in a correct state in advance, the powder receiving ring 10 is not required to be assembled in place, and the mounting difficulty is reduced.

And connect powder ring 10's fender powder board 12 encloses to establish in the outside of going out powder passageway 30 for inside relatively closed, can derive powder in going out the powder passageway 30 this moment, and the leading-in breach 123 that connects powder ring 10 top and lateral part enters into and connects powder cup 21, can prevent that a large amount of coffee powder from flying out the powder cup seat, can realize preventing flying powder like this.

Compared with the powder baffle plate 12 which is directly adopted in a whole circle, the powder baffle plate 12 adopted in the application has the leading-in notch 123 which extends into the powder outlet channel 30, so that the material consumption of the powder baffle plate 12 can be reduced, and the cost is lower. After the powder receiving action is finished, as the powder can be adhered to the powder baffle plate 12, the powder receiving ring 10 is only required to be taken out, and the powder is cleaned by the guide notch 123, so that compared with the whole circle of powder baffle plate 12, the powder receiving ring 10 with the guide notch 123 is more convenient to clean.

It is also to be noted that, because when assembling, adopt the installation base ring to insert the assembly with connecing the powder cup and close, during the assembly, the installation base ring can the suit outside connecing the powder cup, also can wear to connect the powder cup in, need not to set up jack catch or other lock structures in addition like this and realize tight assembly, easy dismounting like this, and adopts the direct mode dismouting of going up straight down, can not cause the interference to other structures on the powder cup, does not influence the normal use who connects the powder cup.

More specifically, the top end of the guiding section 122 is connected with the powder blocking section 121 by an arc, the arc can also be applied to the powder outlet channel, and the arc can also decompose the forces in different directions to realize the pushing of the powder receiving ring 10, so that the powder receiving ring 10 is easier to guide.

In addition, the joint position between the guide section 122 and the powder blocking section 121 is in arc transition, so that the joint position is gentle and not too sharp, and the condition that scratches occur due to the sharp joint position when the powder receiving ring 10 is taken and placed is not easy.

Further, a supporting step 13 may be provided on the outer wall of the bottom end of the powder baffle 12, and the supporting step 13 protrudes from the outer wall of the bottom ring 11. Therefore, when the powder receiving ring 10 and the powder receiving cup 21 are assembled, the mounting bottom ring 11 of the powder receiving ring 10 can be inserted into the inner ring of the powder receiving cup 21, and the supporting step 13 at the bottom end of the powder baffle 12 can be abutted against the top end face of the powder receiving quilt for supporting the whole powder receiving ring 10, so that the assembly structure is more stable.

In this embodiment, the mounting bottom ring 11 is matched with the supporting step 13 to realize the assembly with the powder receiving cup 21, so that no clamping claw or other fastening structure is required to be additionally arranged to realize the tight assembly, the disassembly and the assembly are convenient, the disassembly and the assembly are realized in a straight up and down mode, the interference to other structures on the powder receiving cup 21 is avoided, and the normal use of the powder receiving cup 21 is not influenced.

Of course, on the basis of the structure without the bearing steps, the mounting bottom ring can be made of rubber, so that the mounting bottom ring can be stretched and sleeved on the powder receiving cup, or the mounting bottom ring can be extruded to be connected in the powder receiving cup in a penetrating manner, and the mounting bottom ring is specifically selected according to actual needs.

Furthermore, the supporting step 13 is disposed around the outer wall of the bottom end of the powder baffle 12, so that the supporting step 13 can be consistent with the extending direction of the powder baffle 12, and has a larger supporting surface with the powder receiving cup 21, so that the assembling structure is more stable.

Of course, the supporting step 13 may be realized by a plurality of protruding sheet structures distributed at intervals on the outer wall of the powder receiving ring 10.

In the case of example 2,

Referring to fig. 1 and 2, the present embodiment provides a powder collector 20, specifically including a powder collecting cup 21 and a powder collecting ring 10, the powder collecting ring 10 includes a mounting bottom ring 11 and a powder baffle 12, the powder baffle 12 is surrounded on the periphery of the top end of the mounting bottom ring 11, and the powder baffle 12 is provided with an introduction notch 123, and the introduction notch 123 can make the powder baffle 12 in a semi-surrounding state. Specifically, the powder baffle 12 has a powder baffle section 121 and a guiding section 122, and both sides of the powder baffle section 121 are connected with the guiding section 122, so that the guiding sections 122 on both sides are spaced from each other to form the guiding notch 123, and the guiding section 122 is gradually inclined from top to bottom toward a direction away from the powder baffle section 121.

When the powder receiving ring 10 and the powder receiving cup 21 are assembled, the mounting bottom ring of the powder receiving ring 10 and the powder receiving cup can be in plug-in connection, in particular, the mounting bottom ring is sleeved outside the powder receiving cup, or the mounting bottom ring is connected into the powder receiving cup in a penetrating manner, and after the assembly, the mounting bottom ring is in clearance fit with the powder receiving cup 21, and the powder baffle 12 on the powder receiving ring 10 can be arranged on part of the peripheral wall of the powder receiving cup 21 in a surrounding manner, so that the top end of the powder receiving cup 21 is in a semi-closed state.

Based on the above structure, when the powder collector 20 of the present utility model is used, the mounting base ring 11 of the powder collecting ring 10 can be inserted into the inner wall of the powder collecting cup 21, and the mounting base ring 11 has a rotation tendency relative to the powder collecting cup 21.

When the powder receiving action is carried out, the guide notch 123 of the powder receiving ring 10 can be pushed into the powder outlet channel 30, the powder receiving cup 21 is pushed into the powder outlet channel, in the pushing process, the guide sections 122 are abutted against the inner wall of the powder outlet channel 30 on two sides of the powder baffle 12, the inner wall of the powder outlet channel 30 can slide along the guide section 122 of the powder receiving ring 10 due to the inclined state of the guide sections 122 of the powder receiving ring 10, the inclined guide sections 122 can decompose the stress to different directions, and the mounting bottom ring 11 of the powder receiving ring 10 and the powder receiving cup 21 have rotation trend, so that the guide sections 122 can drive the powder receiving ring 10 to rotate to avoid the force point of the inner wall of the powder outlet channel 30 after being stressed, the powder receiving ring 10 can be in a correct state in advance, the powder receiving ring 10 is not required to be assembled in place, and the mounting difficulty is reduced. And connect powder ring 10's fender powder board 12 encloses to establish in the outside of going out powder passageway 30 for inside relatively closed, can derive powder in going out the powder passageway 30 this moment, and the leading-in breach 123 that connects powder ring 10 top and lateral part enters into and connects powder cup 21, can prevent that a large amount of coffee powder from flying out the powder cup seat, can realize preventing flying powder like this.

Compared with the powder baffle plate 12 which is directly adopted in a whole circle, the powder baffle plate 12 adopted in the application has the leading-in notch 123 which extends into the powder outlet channel 30, so that the material consumption of the powder baffle plate 12 can be reduced, and the cost is lower. After the powder receiving action is finished, as the powder can be adhered to the powder baffle plate 12, the powder receiving ring 10 is only required to be taken out, and the powder is cleaned by the guide notch 123, so that compared with the whole circle of powder baffle plate 12, the powder receiving ring 10 with the guide notch 123 is more convenient to clean.

More specifically, the top end of the guiding section 122 is connected with the powder blocking section through an arc, the arc can also act on the powder outlet channel, and the arc can also decompose the forces in different directions, so as to realize the pushing of the powder receiving ring 10, so that the powder receiving ring 10 is easier to guide.

In addition, the joint position between the guide section 122 and the powder blocking section 121 is in arc transition, so that the joint position is gentle and not too sharp, and the condition that scratches occur due to the sharp joint position when the powder receiving ring 10 is taken and placed is not easy.

Further, a supporting step 13 may be provided on the outer wall of the bottom end of the powder baffle 12, and the supporting step 13 protrudes from the outer wall of the bottom ring 11. Therefore, when the powder receiving ring 10 and the powder receiving cup 21 are assembled, the mounting bottom ring 11 of the powder receiving ring 10 can be inserted into the inner ring of the powder receiving cup 21, and the supporting step 13 at the bottom end of the powder baffle 12 can be abutted against the top end face of the powder receiving quilt for supporting the whole powder receiving ring 10, so that the assembly structure is more stable.

Furthermore, the supporting step 13 is disposed around the outer wall of the bottom end of the powder baffle 12, so that the supporting step 13 can be consistent with the extending direction of the powder baffle 12, and has a larger supporting surface with the powder receiving cup 21, so that the assembling structure is more stable.

Of course, the supporting step 13 may be realized by a plurality of protruding sheet structures distributed at intervals on the outer wall of the powder receiving ring 10.

Further, a plurality of positioning blocks 22 are convexly arranged on the outer peripheral wall of the powder receiving cup 21, and the positioning blocks 22 can be positioned and abutted against the inner wall of the powder discharging channel 30 after the powder receiving cup 21 is placed in the powder discharging channel 30 to support the whole powder receiving cup 21. Of course, a powder discharging touch switch can be arranged on the inner wall of the powder discharging channel 30, and when the powder receiving cup 21 is installed, the positioning block 22 can be used as a touch block of the touch powder discharging touch switch, so that the powder discharging action can be started after the powder receiving device 20 is positioned and assembled in place.

If connect powder ring 10 suit outside connecing powder cup 21 then to the location of locating piece 22 support and cause the interference, still need set up touch structure in addition, and in this embodiment connect powder ring 10 with installation base ring 11 cooperation bearing step 13 realize with connect the assembly of powder cup 21, need not to set up in addition jack catch or other lock structure in this way and realize tight assembly, easy dismounting like this, and adopt the direct mode dismouting of going up straight down, can not cause the interference to the locating piece 22 structure on connecing powder cup 21, do not influence the locating piece 22 normal touch who connects powder cup 21.

In the case of example 3,

Referring to fig. 1-5, a coffee maker includes a coffee maker body and a powder receiver 20, a powder discharge passage 30 is provided in the coffee maker body, and a through-port 32 is provided at a side portion of the powder discharge passage 30.

Specifically, the powder collector 20 includes a powder collecting cup 21 and a powder collecting ring 10, and the powder collecting cup 21 can extend into the powder outlet channel 30 through a through-hole 32 at the side of the powder outlet channel 30. The powder receiving ring 10 includes a mounting bottom ring 11 and a powder baffle 12, the powder baffle 12 is surrounded on the outer periphery of the top end of the mounting bottom ring 11, and the powder baffle 12 is provided with a guiding notch 123. The powder baffle 12 has a powder baffle section 121 and guide sections 122 connected to both sides of the powder baffle section 121, and a guide gap 123 is formed between the two guide sections 122; the guiding section 122 gradually inclines from top to bottom towards the position far away from the powder blocking section; powder receiving cup 21 is adapted to extend into powder discharge passage 30 through a pass-through port 32.

The installation bottom ring 11 is inserted into the powder receiving cup 21 and is in clearance fit with the inner wall of the powder receiving cup 21, and after the powder receiving cup 21 penetrates into the powder outlet channel 30 through the penetrating opening 32, the powder blocking plate 12 on the powder receiving ring 10 encloses the penetrating opening 32.

On the basis of the structure, when the coffee machine is used, the powder receiving cup 21 can be penetrated into the powder outlet channel 30 through the through-hole 32 at the side part of the powder outlet channel 30 of the coffee machine, so that the lead-in notch 123 of the powder receiving ring 10 on the powder receiving cup 21 faces the powder outlet channel 30 and is positioned at the inner side of the powder outlet channel 30 after being filled, and the powder receiving plate of the powder receiving ring 10 can be enclosed at the position of the through-hole 32 of the powder outlet channel 30, thus forming a relatively closed powder outlet environment inside the powder outlet through groove.

During powder discharge, the coffee powder can be ground by the cutter head assembly of the coffee machine, is downwards guided into the powder receiving device 20 through the powder discharge channel 30, enters the powder receiving cup 21 through the guide notch 123 of the powder receiving ring 10, is received by the powder receiving cup 21 and is taken out.

Specifically, when the powder receiving action is performed, the introduction notch 123 of the powder receiving ring 10 can be pushed into the powder discharge channel 30, the powder receiving cup 21 is pushed into the air discharge channel, in the pushing process, the guide sections 122 are abutted against the inner wall of the powder discharge channel 30 on both sides of the powder baffle 12, and as the guide sections 122 of the powder receiving ring 10 are arranged in an inclined state, the inner wall of the powder discharge channel 30 can slide along the guide sections 122 of the powder receiving ring 10, the inclined guide sections 122 can decompose the stress to different directions, and the mounting bottom ring 11 of the powder receiving ring 10 and the powder receiving cup 21 have a rotation trend, so that the powder receiving ring 10 can be driven to rotate to avoid the force point of the inner wall of the powder discharge channel 30 after the guide sections 122 are stressed, the powder receiving ring 10 can be in an alignment state without assembling the powder receiving ring 10 in place in advance, and the mounting difficulty is reduced. And connect powder ring 10's fender powder board 12 encloses to establish in the outside of going out powder passageway 30 for inside relatively closed, can derive powder in going out the powder passageway 30 this moment, and the leading-in breach 123 that connects powder ring 10 top and lateral part enters into and connects powder cup 21, can prevent that a large amount of coffee powder from flying out the powder cup seat, can realize preventing flying powder like this.

Compared with the powder baffle plate 12 which is directly adopted in a whole circle, the powder baffle plate 12 adopted in the application has the leading-in notch 123 which extends into the powder outlet channel 30, so that the material consumption of the powder baffle plate 12 can be reduced, and the cost is lower. After the powder receiving action is finished, as the powder can be adhered to the powder baffle plate 12, the powder receiving ring 10 is only required to be taken out, and the powder is cleaned by the guide notch 123, so that compared with the whole circle of powder baffle plate 12, the powder receiving ring 10 with the guide notch 123 is more convenient to clean.

More specifically, the top end of the guiding section 122 is connected with the powder blocking section 121 by an arc, the arc can also be applied to the powder outlet channel, and the arc can also decompose the forces in different directions to realize the pushing of the powder receiving ring 10, so that the powder receiving ring 10 is easier to guide.

In addition, the joint position between the guide section 122 and the powder blocking section 121 is in arc transition, so that the joint position is gentle and not too sharp, and the condition that scratches occur due to the sharp joint position when the powder receiving ring 10 is taken and placed is not easy.

Further, in this embodiment, guide portions are disposed on two sides of the inner wall of the powder outlet channel 30 of the coffee machine, after the powder receiving cup 21 extends into the powder receiving opening 32, the guide portions may be slidably engaged with the guide sections 122, and when the guide portions slide with the guide sections 122, the guide portions may apply force to the inclined guide sections 122, and since the guide sections 122 are inclined, the guide sections 122 may decompose forces in different directions when being stressed, so as to guide the powder receiving ring 10 to rotate relative to the powder receiving cup 21.

Since the two sides of the powder discharging channel 30 are provided with the guide sections 122 corresponding to the guide sections applied to the two sides of the powder receiving ring 10, the left side and the right side are taken as examples for explanation, when the guide section applied to the left side 122 is applied to the guide section applied to the left side by the guide section applied to the left side, the powder receiving ring 10 can be driven to rotate to the left side, and the guide section applied to the right side 122 is applied to the guide section applied to the right side by the guide section applied to the right side, so that the two sides applied to the left side and the right side can drive the powder receiving ring 10 to swing.

Specifically, the two sides of the inner wall of the powder outlet channel 30 may be provided with guiding inclined planes 33, and the guiding inclined planes 33 may be slidably matched with the guiding section 122, and on the basis of this structure, the guiding inclined planes 33 are formed into guiding parts, so that force decomposition can be realized by matching the guiding inclined planes 33 with the inclined planes of the inclined guiding section 122, and the powder receiving ring 10 is driven to swing.

The guiding inclined plane 33 is attached to the inclined plane of the guiding section 122, so that a closed structure is formed inside the powder outlet channel 30 by the guiding inclined plane 33 and the powder baffle 12 of the powder receiving ring 10, and a closed structure is formed by the enclosing wall of the powder baffle 12 at the through hole 32 outside the powder outlet channel 30, so that the enclosing wall is respectively arranged inside and outside the air outlet channel, and the adhesion of coffee powder on the outer wall of the powder receiving cup 21 is reduced.

Of course, the guiding portion may be a protruding block protruding from the inner wall of the powder outlet channel 30, or may be an arc surface structure, so that the guiding portion 122 may be forced, but a relatively closed space is not formed therein, and the coffee powder easily falls on the outer wall of the powder receiving cup 21, so that the guiding inclined surface 33 is selected as the guiding portion in this embodiment.

Further, a supporting step 13 may be provided on the outer wall of the bottom end of the powder baffle 12, and the supporting step 13 protrudes from the outer wall of the bottom ring 11. Therefore, when the powder receiving ring 10 and the powder receiving cup 21 are assembled, the mounting bottom ring 11 of the powder receiving ring 10 can be inserted into the inner ring of the powder receiving cup 21, and the supporting step 13 at the bottom end of the powder baffle 12 can be abutted against the top end face of the powder receiving quilt for supporting the whole powder receiving ring 10, so that the assembly structure is more stable.

Furthermore, the supporting step 13 is disposed around the outer wall of the bottom end of the powder baffle 12, so that the supporting step 13 can be consistent with the extending direction of the powder baffle 12, and has a larger supporting surface with the powder receiving cup 21, so that the assembling structure is more stable.

Of course, the supporting step 13 may be realized by a plurality of protruding sheet structures distributed at intervals on the outer wall of the powder receiving ring 10.

Further, the side wall of the penetrating opening 32 may be further provided with a guiding chute 31, the peripheral wall of the powder receiving cup 21 is convexly provided with a plurality of positioning blocks 22, the plurality of positioning blocks 22 may be slidably matched with the guiding chute 31 of the powder discharging channel 30 after the powder receiving cup 21 is placed into the powder discharging channel 30, the powder receiving cup 21 is guided to be smoothly guided in, the guiding chute 31 may also support the whole powder receiving cup 21, and the assembly structure of the powder receiving cup 21 is more stable.

Of course, a powder discharging touch switch can be arranged on the inner wall of the powder discharging channel 30, and when the powder receiving cup 21 is installed, the positioning block 22 can be used as a touch block of the touch powder discharging touch switch, so that the powder discharging action can be started after the powder receiving device 20 is positioned and assembled in place.

If connect powder ring 10 suit outside connecing powder cup 21 then to the location of locating piece 22 support and cause the interference, still need set up touch structure in addition, and in this embodiment connect powder ring 10 with installation base ring 11 cooperation bearing step 13 realize with connect the assembly of powder cup 21, need not to set up in addition jack catch or other lock structure in this way and realize tight assembly, easy dismounting like this, and adopt the direct mode dismouting of going up straight down, can not cause the interference to the locating piece 22 structure on connecing powder cup 21, do not influence the locating piece 22 normal touch who connects powder cup 21.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (10)

1. The powder receiving ring is characterized by comprising a mounting bottom ring and a powder baffle, wherein the powder baffle is arranged on the periphery of the top end of the mounting bottom ring in a surrounding manner and is provided with a guide-in notch; the powder baffle plate is provided with a powder baffle section and guide sections connected to two sides of the powder baffle section, and the guide gap is formed between the two guide sections; the guide section gradually inclines from top to bottom towards the powder blocking section.

2. The powder receiving ring of claim 1, wherein the top end of the guide section is in circular arc engagement with the powder blocking section.

3. The powder receiving ring of claim 1, wherein the outer wall of the bottom end of the powder baffle plate is convexly provided with a bearing step; the bearing step protrudes out of the outer wall of the mounting bottom ring.

4. The powder receiving device is characterized by comprising a powder receiving cup and a powder receiving ring, wherein the powder receiving ring comprises a mounting bottom ring and a powder baffle plate, the mounting bottom ring is connected with the powder receiving cup in an inserting way and in clearance fit, the powder baffle plate is arranged on the peripheral edge of the top end of the mounting bottom ring in a surrounding way, and the powder baffle plate is provided with a guide-in notch; the powder baffle plate is provided with a powder baffle section and guide sections connected to two sides of the powder baffle section, and the guide gap is formed between the two guide sections; the guide section gradually inclines from top to bottom towards the powder blocking section.

5. The powder collector of claim 4, wherein the outer wall of the bottom end of the powder baffle plate is convexly provided with a bearing step; the bearing step protrudes out of the outer wall of the mounting bottom ring; the bearing step is used for propping against the top end surface of the powder receiving cup after the mounting bottom ring is inserted into the powder receiving cup, and the powder baffle is arranged on the periphery of the powder receiving cup in a surrounding mode.

6. The powder collector of claim 4, wherein the peripheral wall of the powder collecting cup is convexly provided with a positioning block.

7. A coffee machine is characterized by comprising,

The coffee machine body is provided with a powder outlet channel, and the side part of the powder outlet channel is provided with a penetrating port;

The powder receiving device comprises a powder receiving cup and a powder receiving ring, and the powder receiving cup is used for extending into the powder outlet channel through the through-connection opening; the powder receiving ring comprises a mounting bottom ring and a powder baffle plate, the powder baffle plate is arranged on the periphery of the top end of the mounting bottom ring in a surrounding mode, and the powder baffle plate is provided with a guide-in notch; the powder baffle plate is provided with powder baffle sections and guide sections connected to two sides of the powder baffle sections, the guide sections are gradually inclined from top to bottom towards the position far away from the powder baffle sections, and the guide gaps are formed between the two guide sections; the installation bottom ring is connected with the powder receiving cup in a plug-in manner and in clearance fit, and the powder baffle plate encloses the penetrating opening.

8. The coffee machine of claim 7, wherein guide parts are arranged on both sides of the inner wall of the powder outlet channel; the guide part is used for being in sliding fit with the guide section when the powder receiving cup penetrates into the powder outlet channel through the penetrating opening so as to guide the powder receiving ring to rotate relative to the powder receiving cup.

9. The coffee machine of claim 7, wherein the outer wall of the bottom end of the powder baffle is convexly provided with a bearing step; the bearing step protrudes out of the outer wall of the installation bottom ring, and the bearing step is used for propping against the top end surface of the powder receiving cup after the installation bottom ring is inserted into the powder receiving cup.

10. The coffee machine of claim 7, wherein the sidewall of the through-connection is provided with a guide-in chute, and the outer peripheral wall of the powder receiving cup is convexly provided with a plurality of positioning blocks; the positioning block is used for sliding into the powder outlet channel after the powder receiving cup stretches into the powder outlet channel.