阅读说明：本技术 滴滤式咖啡机 (Drip filter type coffee machine ) 是由 R·哈罗德 A·M·D·梁 于 2018-05-31 设计创作，主要内容包括：本技术涉及滴滤式咖啡机,且更具体地说,涉及滤篮、其容器与其对着分配的器皿之间的互连。在一种形式中,所述咖啡机具有基部、从所述基部向上延伸的主体、具有面朝上的表面和联接部分的平台、以及滤篮,所述平台由主体支撑并从主体向外延伸,其中所述滤篮包括：面朝下的底表面,其支撑于所述面朝上的表面上；凹槽,其位于所述滤篮的所述底表面中以容纳所述平台的所述联接部分；至少一个面朝下的定位结构,其与所述平台配合以帮助所述滤篮与所述平台对准；且其中所述平台的所述面朝上的表面包括与所述面朝下的定位结构接合的至少一个面朝上的定位结构,以至少帮助将所述滤篮定位在与所述联接部分的接合位置中。(The present technology relates to drip coffee makers and, more particularly, to the interconnection between a filter basket, its container and the vessel it dispenses against. In one form, the coffee maker has a base, a body extending upwardly from the base, a platform having an upwardly facing surface and a coupling portion, the platform being supported by and extending outwardly from the body, and a filter basket, wherein the filter basket comprises: a downwardly facing bottom surface supported on the upwardly facing surface; a recess in the bottom surface of the filter basket to receive the coupling portion of the platform; at least one downwardly facing locating structure cooperating with the platform to assist in aligning the filter basket with the platform; and wherein the upwardly facing surface of the platform includes at least one upwardly facing locating feature that engages with the downwardly facing locating feature to at least assist in locating the filter basket in an engaged position with the coupling portion.)

1. A coffee maker, having: a base, a body extending upwardly from the base, a platform having an upwardly facing surface and a coupling portion, the platform supported by and extending outwardly from the body, and a filter basket, wherein the filter basket comprises:

a downwardly facing bottom surface supported on said upwardly facing surface, a recess in said bottom surface of said filter basket to receive said coupling portion of said platform;

at least one downwardly facing locating structure cooperating with the platform to assist in aligning the filter basket with the platform; and wherein

The upwardly facing surface of the platform includes at least one upwardly facing locating feature that engages with the downwardly facing locating feature to at least assist in locating the filter basket in an engaged position with the coupling portion.

2. A coffee machine according to claim 1, wherein said downwardly facing bottom surface of said filter basket has two guide surfaces that taper towards said recess to guide said filter basket into an engaged position with said platform.

3. A coffee machine according to claim 2, further comprising a generally upright axis passing through a central portion of the coupling portion, the coupling portion of the platform being aligned on the axis and with the recess when the locating structure is engaged.

4. A coffee machine according to claim 3, wherein said coupling portion has a rim extending upwardly from said platform, said rim being in contact with at least one of said two guide surfaces during engagement of said filter basket with said platform.

5. A coffee machine according to claim 4, wherein the filter basket is positionable in the engaged position by moving the filter basket relative to the generally upright axis from a radial angle of at least 180 degrees towards the generally upright axis.

6. A coffee maker, having: a base, a body extending upwardly from the base, a platform having an upwardly facing surface, the platform supported by and extending outwardly from the body, and a filter basket, wherein the filter basket comprises:

a valve selectively operable to allow liquid coffee to exit the filter basket; and

the platform includes a stem having a central channel; and wherein

The stem is operable to open the valve to allow liquid coffee to exit the filter basket through the central passage of the stem.

7. A coffee machine according to claim 6, wherein the valve has a central pin with a fin-like structure to promote wicking of the liquid coffee as it passes through the valve and through the central channel of the stem.

8. A coffee-making machine according to claim 7, wherein said stem has a proximal end and a distal end with respect to said machine, said proximal end having a point of rotation and said distal end having an annular head surrounding said central passage to allow the passage of liquid coffee through said central passage of said stem.

9. A coffee machine according to claim 8, wherein said valve is spring biased to a closed position preventing liquid coffee from exiting said filter basket.

10. A coffee machine according to claim 9, wherein the head of the stem is actuatable to contact the valve to overcome the spring bias and open the valve, thereby allowing liquid coffee to pass through the central passage of the stem.

11. A coffee machine according to claim 10, wherein said valve has an axis aligned with a central axis of said central passage when said filter basket is in an engaged position on said platform.

12. A coffee maker, having: a base, a body extending upwardly from the base, a platform having an upwardly facing surface and a coupling portion, the platform supported by and extending outwardly from the body, a filter basket, and a jug having a lid with an upwardly forced portion, wherein the filter basket comprises:

a downwardly facing bottom surface supported on the upwardly facing surface of the platform;

a recess in the bottom surface of the filter basket to receive the coupling portion of the platform;

a valve to prevent or allow liquid coffee to exit from the filter basket; and

the platform including a stem to open the valve and allow liquid coffee to exit the filter basket and drip through a central passage of the stem; and wherein

Once the jug is in the engaged position relative to the platform, the upwardly-urging portion of the lid reciprocates downwardly with interference from the platform.

13. A coffee machine according to claim 12, wherein said valve is spring biased to a closed position.

14. A coffee machine according to claim 13, wherein said upward force portion of said cover is spring biased into an open position.

15. A coffee machine according to claim 14, wherein the spring bias of the force-up portion forces the lever to contact and open the valve of the filter basket when the carafe is in the engaged position.

16. A coffee-making machine according to claim 15, wherein the spring bias of said upward force portion is greater than the spring bias of said valve.

17. A coffee machine according to claim 16, wherein in said engaged position, said filter basket valve, said central passage of said stem and said upwardly forced portion of said jug cover are aligned such that said liquid coffee from said filter basket can flow through said central passage and said jug cover and into said jug.

Technical Field

The present technology relates to drip coffee makers and, more particularly, to the interconnection between a filter basket, its container and the vessel it dispenses against.

Background

Drip coffee makers have a filter basket. The filter basket is configured to contain a filter that separates coffee brewed therein from an exit opening of the basket. Devices using paper filters are well known. In the flow configuration, the filter basket is placed into the jug. Eliminating undesirable or unnecessary drainage (leakage) of the filter basket is a significant advantage. Unless the jug is sufficiently aligned to receive the output of the filter basket, any output from the filter basket is undesirable. The problem is exacerbated when the range of acceptable misalignment between the filter basket and the jug is small.

Some kettles, particularly insulated kettles, have relatively small inlets. A smaller inlet provides more insulation in the lid of the jug. The prior art is known to contain jugs with insulated lids and small inlets which cooperate with drip-proof valves which regulate the output of the filter basket. Such an arrangement effectively prevents unwanted draining and dripping and also provides a well insulated jug in which the beverage remains warmer for a longer period of time.

However, in that type of coffee machine, it is generally required that the filter baskets (and sometimes the carafe) be aligned with each other and with the coffee machine that supports them in a particular and limited range of orientations.

Because both the filter basket and the jug typically have handles, the common orientation includes one or both handles facing forward, or alternately facing one side or the other.

Consumers of such devices are more likely to be unconstrained by the manner in which the filter basket and jug need to be aligned during use.

Filter baskets are known having drip-proof valves. The discharge valve selectively controls the flow of brewed coffee from the filter basket. Conventionally, drip resistant valves are biased into a closed position and must be actuated in order to permit flow out of the filter basket. Manual and electromechanical actuation of discharge valves is known. However, because the mechanical drip resistant valve actuator is physically proximate to the outlet of the filter basket, the drained coffee may wick or otherwise accumulate on the filter basket. This leakage and accumulation is somewhat unavoidable, but can be managed.

A specific relationship between the components is required for an effective fit between the actuator and the drain valve of the filter basket.

Because it is preferred that the actuator is operated by a jug inserted thereunder and because the actuator contact surface of the jug can be spring biased upwards, the relative spring force of the drip valve and the jug must be configured to cooperate.

Disclosure of Invention

The present technology provides a mechanical coupling between a filter basket and a jug.

In some embodiments, the present technology provides a drip coffee maker having a filter basket support platform. The platform engages the coupling between the filter basket and the jug.

The present technology provides a drip-filter coffee machine having a filter with a drip-proof valve. Both the filter basket and the jug may be inserted for use regardless of the handle orientation of either.

The present technology provides a drip coffee maker having a filter basket receiving platform and an upstanding rim that mates with the underside of the filter basket. In some embodiments, the filter basket is interlocked with a portion of the platform.

In other embodiments of the present technique, the bottom side of the filter basket has a wide tapered guide leading to a receiving opening surrounding the central outlet of the filter basket.

In other embodiments, the drip resistant valve has a central outlet that produces a concentrated flow.

In other embodiments, the actuator is a ring having a central opening with a cylindrical sidewall. In some embodiments, the upper and lower edges of the cylindrical sidewall are sharply rounded.

In some other embodiments of the present technology, the underside of the filter basket carries a locator that is captured within a circular track formed on the upper surface of the filter basket support platform.

The present technology also provides a pitcher having a valve activation surface that is biased upwardly so as to enter a recessed area above a lower surface of a filter basket support platform. The contact surface interacts with the actuator.

The actuator interacts with the drip resistant valve of the basket. The discharge valve has a central opening that discharges through the actuator and into an aligned opening in the contact surface. Thus, the flow of liquid out of the filter basket and under it into the jug is from the centre line of the filter basket, through the centre of the actuator and again through the centre of the opening in the contact surface.

In a preferred embodiment of the present technique, the contact surface comprises, in the region of its inlet, a spherical main surface in which the inlet is formed. There is a funnel-like transition between the spherical surface and the opening. Preferably, the transition between the spherical surface and the opening lacks distinct edges.

Drawings

For a better understanding of the present invention, reference is now made to the following drawings, in which:

FIG. 1 is a perspective view of a drip-filter coffee maker.

Figure 2 is a perspective view of the underside of the filter basket showing the guides or guides.

FIG. 3 is a perspective view of a platform of the coffee maker.

Figure 4 is a cross-sectional view through the filter basket, platform and actuator.

Fig. 5 is a cross-sectional view through the filter basket, platform and actuator.

Fig. 6 is a cross-sectional view through the filter basket, platform and actuator.

Fig. 7 is a perspective view of the electric cam.

Figure 8 is a perspective view of the jug and lid.

FIG. 9 is a bottom perspective view of the filter basket and drip resistant valve.

Fig. 10 is a perspective view of the platform and actuator.

Fig. 11 is a cross-sectional view of the interlocking of the filter basket with the platform, below which is the actuator.

Figure 12 is a cross-sectional view of the platform and filter basket.

FIG. 13 is a perspective view, partially in section, of a drip resistant valve.

Detailed Description

As shown in FIG. 1, a drip coffee maker 100 has a body 101.

The body 101 has a base 102 adapted to receive a jug 103. Jug 103 is insertable and movable under a fixed platform 104 forming part of body 101.

The body 101 may support a pivoting or preferably fixed cover 105. In some embodiments, the cover may have an internal drain head 106 that cooperates with a supply line 107 carrying hot water from within the body 101. In some embodiments, the vertical heights of the tank of the main body and the upper surface of the cover 105 are all the same. In other embodiments, the discharge head is carried by the body 101 rather than the cap.

When the cover 105 or discharge head 106 is in place, the filter basket 111 may be removed from the platform 104.

Both jug 103 and filter basket 111 have handles 112, 113. In the example of fig. 1, the handle 112 of the jug can be positioned at any angular orientation that is not inhibited by the body 101 during insertion, use and removal. This represents an angular travel or range of angles of about 270 degrees. The technology described herein will show how a filter basket with an anti-drip valve can also be inserted in a range of angular orientations (about 20 to 270 degrees) 114 to fit with a jug, that is, limited in practice only by the presence of the body 101 or other obstruction (such as a user's hand).

As shown in fig. 2 and 3, the bottom side 200 of the filter basket 201 has a groove 202 with a ramp or tapered guide formed in a central bore 203. The groove 202 includes a flat or horizontal guide surface 217 that defines one edge 218 of the aperture 203. The flat guide surface 217 is for contacting the upper rim 307 of the coupling 303 and the ramp 202 is for contacting the tapered or chamfered edge 302 of the upper rim 302 of the platform. The sidewalls 215, 216 of the ramp taper or narrow towards the aperture 203 and guide the coupling 303 into position. The lower surface or contact surface 205 of the drain valve or drip resistant valve of the filter basket is positioned within the aperture 203. The valve surface 205 is preferably a portion of a sphere or otherwise smoothly curved. Surface 205 has a central opening 206 through which brewed coffee is discharged out of filter basket 201. In this example, the discharged coffee flow is concentrated and ordered by means of a set of fins 207, which intersect along a common axis 208 in the centre of the fins 207. An exhaust stream is formed about and along axis 208.

The lowermost surface 204 of the filter basket may include a set of locating structures 212. In this example, each locating structure is a protruding spherical or rounded tip 213. The tip 213 may be retractable. In this example, the number of structures 212 is three and is located around a common radius from the axis 208. All three structures 212 engage and mate with structures on the upper surface of the platform 104.

As shown in fig. 3, the platform 104 has an upper surface 300 with a circumferential groove 301 formed therein. The upper edge 302 of the platform is rounded or tapered to open into the channel 301. The lower portion of the rim may also be tapered. The raised male coupling portion or rim 303 rises above the level of the groove sufficiently to circumferentially engage the aperture and locate through the aperture 203 in the underside of the filter basket when the outer portion 303 of the coupling portion is in contact with or stopped by the aperture 203. This occurs when the filter basket is inserted.

The male coupling structure 303 has a central through opening 305 which receives the upper part of the actuator 306 of the drip proof valve. When the actuator 306 is raised, it acts on the contact surface 205 of the drip resistant valve, allowing fluid to flow past the surface.

As shown in fig. 4, the actuator 400 is supported for pivotal movement about a retaining pin 401. Depressing the distal end 402 of the actuator causes it to pivot and contact the bottom side 403 of the basket's drain valve 405. The drain valve 405 is located at the lowest point of the basket's internal filter chamber 406. The valve 405 is biased downward (toward the actuator) by a spring 407. As the moving valve element 408 is lifted by the actuator, brewed coffee flows through a small valve stem or shaft 410 and through a central discharge opening 409 in the actuator. The shaft 410 is supported by a set of radial fins 413 to slide in a larger opening 411 in the filter basket compartment 412.

As shown in fig. 5, lifting valve body 408 opens seal 501, which allows brewed coffee to enter opening 502 in the valve body. In this example, the lifting force is provided by linear motion 503 of a tab or mechanical finger 505. The finger 505 may be driven by a motorized cam 504 as shown in fig. 7 or otherwise.

Fig. 5 also illustrates that the protruding locating structure 506 may have a tip 507 biased into position by a compression spring 508 captured between the tip 507 and a portion of the filter basket 509. Also illustrated is a chamfer, taper or curvature around the upper 520 and lower 521 edges of the platform 104 that contact the filter basket when inserted.

As shown in fig. 4, 5 and 6, the working head of the actuator 510 comprises an annular or donut-shaped structure having a central passage 511. The passage 511 is generally cylindrical or tapered toward a wider opening at the discharge end of the passage 511. The upper and lower ends of the passage 511 are sharply rounded 512, 513 and are more sharply rounded than the remainder of the outer portion 514 of the head 510. This serves to collect and manage leaks. The upper extent of the passage 511 is slightly offset and wider in diameter than the discharge passage 502. This allows for movement of the actuator and minimizes the likelihood that the exit-stream will take a path above the outer portion 514. The parallel or cylindrical walls of the channel 511 and the rounded edges 512, 513 together minimize the accumulation of fluid on the head 510, particularly in the central flow path.

The radius 512 is smooth enough to make a desired sliding engagement with the contact surface 802 of the jug, which causes the jug to engage the drip resistant valve. Similarly, upper edge 513 of the head is sufficiently smooth to slidingly engage bottom surface 404 of drip resistant valve 405 and guide 202.

As shown in FIG. 6, the thermo jug 600 has a thermo lid 601. The cover has a spring biased contact surface 602 that is capable of driving an actuator 603 into an anti-drip valve 604. In a preferred embodiment, it is desirable to have the upper or extended position of the contact surface 602 terminate at a vertical height above the bottom surface 605 of the fixed platform 104. The biased contact surface 602 reciprocates to better pass under the platform 104 and then extends upward into the through opening 305 to contact the head 510. The bottom front edge 606 of the platform is chamfered to guide the contact surface 602.

To pass both under platform 104 and ultimately achieve positioning above lower surface 605 of the platform, cover contacting surface 602 is biased upward by a second compression spring 609. The spring force of second spring 609 must be sufficient to overcome the spring force of spring 407 that holds drip resistant valve 604 closed. However, the spring force must not be too strong to interfere with the insertion of the jug into its filling position.

As shown in fig. 7, the finger 505 of the drive actuator 400 may be driven or advanced by an electrically powered rotary cam 700. The finger 505 is captured for reciprocating motion and biased away from its extended position by a compression spring 701. In a preferred embodiment, the head 702 of the finger 701 or the cam itself 700 interacts with a switch 703 or sensor that transmits a signal 704 to a processor 705 of the device. The switch or sensor 703 provides information to the processor regarding the positioning of the actuator. The processor 705 also controls the movement of the cam 700 by transmitting power signals to an electric motor 706 located within a housing 707 that supports the cam 700, the finger 500, and optionally the switch or sensor 703.

As shown in fig. 8, the contact surface 800 of the jug cover 801 has a spherical or otherwise curved upper surface 802. The entire surface 802 falls away from a high point represented by an imaginary diameter 803 surrounding an inlet 804. In this example, contact bumper 800 has parallel side walls 805 that allow the contact bumper to reliably reciprocate through flat side slots 806 formed in the cover. The side wall 805 also hides the second spring 609 from view.

The inlet 804 is comprised of a radius or smoothly curved funnel 807. The funnel 807 drops away from the diameter 803 and merges into a centrally located straight vertical channel 808 that leads to the interior of the jug. The spherical or curved configuration of the upper surface 802 allows the jug to be inserted into engagement with the actuator 400 at any angular orientation of the jug handle 112 relative to the main body 101.

Fig. 9 and 10 illustrate an alternative embodiment of the engagement between the platform 104 and the filter basket 901. In the example shown in fig. 2 and 3, there is no mechanical engagement or interference between the filter basket and the platform other than the cover, which would prevent unwanted movement of the filter basket once it is in place. In the example of fig. 9 and 10, the bottom side 900 of the filter basket 901 has a lip or overhang 902 that creates a partial circumferential slot 903. The slot 903 created by the overhang 902 receives the circular head 1000. As shown in fig. 10, the head 1000 is raised above the upper surface of the platform by a cylindrical neck 1001 and may be removable. The outer rim 1002 is radially inward of the circumferential groove 1003. Head 1000 has a central opening 1004 through which an anti-drip valve actuator 1005 can engage and disengage a contact surface of anti-drip valve 205.

The ramp 904 opens into a flat pilot portion 905 that is flush with the edge 906 of the hole 907. This guiding region may comprise a laterally narrowing guiding surface 908 for guiding the outer edge 1002 into the slot 903. When coupled, the peripheral wall of the slot 903 receives the rim 1002 and may be in contact with the rim 1002. As with the embodiment of fig. 2 and 3, the ramp surface 904 mates with a tapered or chamfered edge 1006 of the platform, while the flat guide portion 905 mates with an upwardly facing surface of the head 1000.

As shown in fig. 11, the lip 1002 of the male coupling structure is seen to be carried by the slot 903 formed by the depending lip 902 shown in fig. 9 and 10.

Fig. 12 illustrates an alternative arrangement to fig. 2 and 3, wherein an upstanding cylindrical coupling 303 nests within a hole 203 on the underside of the filter basket 201 as suggested in fig. 2 and 3.

Fig. 13 illustrates an anti-drip valve 1300 for use with the filter basket 1301. In this embodiment, the bottom side 1302 of the filter basket has a central opening 1304 surrounded by a raised sealing rim 1303. The reciprocating sealing element 1305 has a small central shaft 1306 that supports (in this example) a set of four spaced fins 1307. The fins 1307 guide the movement of the element 1305 within the rim 1303. The fins also increase the surface area in the central flow region to promote wicking near the shaft 1306. The lower edge of the fins 1313 may be tapered. The lower ends of the fins 1307 secure the circular contact surface 1308 of the valve to the shaft 1306. The upper head of the shaft 1306 has a circumferential groove 1309 that carries a polymeric seal 1308. The lowermost tip 1311 of the shaft 1306 protrudes from the bottom side of the valve element 1312 to form a wick and define a central wicking axis. The sealing element 1305 is biased downward (toward the actuator) by a compression spring 1310 carried between the contact surface 1308 and the bottom side of the filter compartment 1302. Unless acted upon by an actuator or vessel, spring 1310 drives seal 1308 into engagement with sealing rim 1303. As the reciprocating valve element 132 is lifted, the liquid flows over the edge 1303, creating separate flow areas that recombine into a single flow once the liquid flows over the fins 1307.

Although the invention has been described with reference to specific examples, it will be appreciated by those skilled in the art that the invention may be embodied in many other forms.

As used herein, unless otherwise specified the use of the ordinal adjectives "first", "second", "third", etc., to describe a common object, merely indicate that different instances of like objects are being referred to, and are not intended to imply that the objects so described must be in a given sequence, either temporally, spatially, in ranking, or in any other manner.

Reference throughout this specification to "one embodiment," "an embodiment," or "an example" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an example" in various places throughout this specification are not necessarily all referring to the same embodiment or example, but may. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments, as would be apparent to one of ordinary skill in the art from this disclosure.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. This method of disclosure, however, is not to be interpreted as reflecting an intention that the claimed invention requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Any claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Moreover, although some embodiments described herein include some but not other features included in other embodiments, combinations of features of different embodiments are intended to be within the scope of the invention and form different embodiments, as will be understood by those skilled in the art. For example, in the following claims, any of the claimed embodiments may be used in any combination.

Thus, while there has been described what are believed to be the preferred embodiments of the invention, those skilled in the art will recognize that other and further modifications may be made thereto without departing from the scope of the invention, and it is intended to claim all such changes and modifications as fall within the scope of the invention.

Although the present invention has been disclosed with reference to particular details of construction, these should be understood as having been provided by way of example and not as limitations to the scope of the invention.