COOKIE CUTTER FOR CONCURRENTLY CUTTING A PLURALITY OF COOKIES

Abstract

A device for simultaneous cutting of dough into shapes including an upper and lower platform members as well as interior and exterior cutting members. The upper platform member may be actuated to cause the interior cutting members to be telescopically inserted into the exterior cutting members thereby enabling cutting of prepared cookie dough.

Description

TECHNICAL FIELD

The present disclosure relates generally to dough cutters for cookies and more specifically to dough cutters for concurrently cutting a plurality of uniformly shaped cookies. In particular it relates to a cookie cutter having a plurality of actuable cutting members with external and internal cutting members for forming specific shapes in dough. At least three separate cookies can thereby be formed by the outer and inner cutting members.

BACKGROUND

Cookies are well known and well regarded for their enjoyment and taste throughout the world. For preparation of cookies, a dough material is generally first prepared. The dough material can either be pre-made and sold in stores or “homemade” from original component ingredients. The dough is then taken by a user and placed in a pan to be cooked or baked until ready to eat. There is an enormous number of types of cookies which are made, each depending on the ingredients used, limited only by people's creativity. Some examples of cookies include chocolate chip, sugar, oatmeal, peanut butter, just to name a few. Further, these can made in various shapes. However, when generating large a number of cookies from dough material, the preparation can become laborious, especially for those making them at home. What is needed therefore is a device and/or process for aiding the formation of cookies from dough.

SUMMARY

In one embodiment of the present disclosure, a cookie cutting apparatus for concurrently cutting a plurality of cookies in dough is provided. The component parts of the apparatus include an upper platform member having an interior array of cutting members having a first diameter with a cutting surface on an end thereof, a lower platform member having a exterior array of cutting members having a second diameter and a cutting surface on an end thereof, the first diameter being smaller than the second diameter, the upper platform member arranged above the lower platform and aligning the interior array of cutting members with an axis of the second cutting members, wherein the upper platform member is actuable from a first configuration where the interior array of cutting members is in a raised position, to a second configuration where the interior array of cutting members are telescopically inserted into the exterior array of cutting members to a lowered position such that the cutting surface of said interior array is in substantially the same plane as the cutting surface of said exterior array.

In other embodiments, the biasing element is interposed between said upper platform and said lower platform thereby biasing said upper platform in a raised position. Further, the interior array cutting members are cylindrical having a hollowed interior to cut a circular shape. Additionally, the exterior array of cutting members are cylindrical having a hollowed interior to cut a circular shape.

Moreover, in some embodiments, the first and second diameters allow for a space between said interior array of cutting members and exterior array of cutting members when inserted therein. The exterior array of cutting members each may have an aperture to allow air to escape.

In further embodiments, the interior array and exterior array cutting surface have different shapes. In other embodiments, the upper and lower platform members have a proximate rectangular shape with one length extending longer in one longitudinal direction. Additionally, the lower platform member may have a lateral extension member which extends beyond the length of said upper platform for gripping by a User.

BRIEF DESCRIPTION OF THE DRAWINGS

The following drawings form part of the present specification and are included to further demonstrate certain aspects of the present disclosure. The disclosure may be better understood by reference to one or more of these drawings in combination with the detailed description of specific embodiments presented herein.

FIG. 1A is a perspective view of one embodiment of a cookie cutting apparatus for concurrently cutting a plurality of cookies;

FIG. 1B is a perspective view of the underside of the embodiment illustrated in FIG. 1A;

FIG. 2 illustrates a user operated view of the embodiment illustrated in FIG. 1A;

FIG. 3 illustrates a donut shaped cookie;

FIG. 4A is a perspective view of a cookie cutting apparatus for concurrently cutting a plurality of cookies separated from upper and lower platform members;

FIG. 4B is a user operated view of the embodiment illustrated in FIG. 4A;

FIG. 5A is a perspective view of a plunging element;

FIG. 5B illustrates a plunging element inserted in the cookie cutting apparatus of FIG. 4A; and

FIG. 5C is a user operated view of the embodiment illustrated in FIG. 5B.

DETAILED DESCRIPTION

As required, detailed description of embodiments of the present invention are disclosed herein, however, it is to be understood that the disclosed embodiments are merely exemplary of the invention that may be embodied in various and alternative forms. The figures are not necessarily to scale. Some features may be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention.

Referring to the Figures, one exemplary embodiment of the cookie cutter device 1 is illustrated in FIG. 1A. As shown therein the cookie cutter device 1 has a moveable upper platform member 2 above a lower platform member 4. The upper platform 2 is generally of an essentially rectangular planar shape and is arranged parallel to lower platform member 4. As it is rectangular, there is one length extending longer in a longitudinal direction as compared to its other side. Other shapes may successfully be employed for example, oval, elliptical, circular, or multiple sided shapes. Generally, the shape should enable a user to place downward pressure on the platform.

The upper platform member 2 will have a plurality of interior cutting members 3 on its underside which face a downward direction. In the example shown there are two rows of six interior cutting members 3, however it will be understood that a wide variety of cutting members may be used. Furthermore, there may one row or alternatively several rows employed, or may also be arranged in any number of ways, circular rows, elliptical rows, etc. Preferably there are anywhere from 6 to 20 cutting members employed. It will be understood by those in the art that the more cutting members may cause the device 1 to become too bulky, whereas too few cutting members may reduce the efficiency.

The interior cutting members 3 are generally cylindrical shape with a hollowed center. Furthermore, the upper platform member 2 has an aperture 2a at each cutting member, such that a hollow is formed through the upper platform member down to the cutting surface of the interior cutting members 3. The cutting members 3 may be attached to the upper platform member 2 either by welding or threaded elements. Accordingly, it can be permanently attached or removably attached.

The upper platform member 2 has a first configuration where it is raised above the lower platform member 4. In the embodiment shown the upper platform member 2 is raised several inches. In other embodiments, the upper platform member 2 may be raised at a different raised height, however, it should preferably be raised such that the bottom cutting surfaces are raised above the height of any cookie dough at the bottom thereof.

Further, set between the upper platform member 2 and the lower platform member 4 is a biasing element. In the embodiment shown there is a circular spring member 6 fixed around four of the interior cutting members 3. Fewer spring members may be employed, or up to one for every cutting member 3. However, it will be understood the biasing element should be sufficiently strong to maintain upper platform member 2 in the raised configuration, but also allow for a user to push the upper platform member to a lower second configuration.

As further illustrated in FIG. 1A, the lower platform member 4 has a planar top surface, and is essentially rectangular. Furthermore, there are handles 7 at each longitudinal end of lower platform member 4 for gripping by a user. In the embodiment shown in FIG. 1A, the handles are planar extensions, however, in other embodiments, it will be understood that the handles could have handle grips to aid in grasping. The lower platform member 4 contains apertures which the interior cutting members 3 pass through. Additionally, on the underside of lower platform member 4, there are exterior cutting members 5. In the embodiment shown, there are an equal number of exterior cutting members 5 as interior cutting members 3, however, in other embodiments there may be a greater number of exterior cutting members. The exterior cutting members 5 are cylindrical in shape.

The interior cutting members 3 are arranged such that they are aligned with the axis of the exterior cutting members 5. Further, the interior cutting members 3 are configured such that their diameters or cross section is smaller than the exterior cutting members 5, so that they may be wholly contained within the cutting members 5 and without touching the sides. When the upper platform 2 is actuated by pushing downward, the interior cutting members 3 are telescopically inserted into the exterior array of cutting members.

The bottom portion of cutting device 1 is depicted in FIG. 1B. As shown therein, the bottom of the interior and exterior cutting members each have cutting surfaces capable of cutting through cookie dough. Upon actuation of the upper platform member 2, the interior cutting members 3 are telescopically moved downward until the interior cutting surface 8 of the interior cutting members 3 are in the substantially the same plane as the exterior cutting member surfaces 9 of the exterior cutting members 5. In some embodiments, for example, that shown in FIG. 2, the cutting surfaces 8 of the interior cutting members 3 will be urged past the cutting members 9.

Therefore, when a user is cutting shapes in a piece of dough, the user will first place the dough on a table or surface for cutting. A user can then take the cutting device 1 and press it into the dough. The exterior cutting surfaces 9 will have the effect of cutting the dough in the same shape as the exterior cutting surfaces 9. Furthermore, if the upper platform member 2 is not actuated, then only the exterior cutting members will serve to cut the dough. This will have the effect of cutting an array of cookies in the dough which are in one solid piece.

A user can also cut the dough in a manner to create two cookies. This is conducted by the user pushing the cutter device 1 into cookie dough that is prepared on a surface. The exterior surfaces 9 will have the effect of cutting the dough in the same shape as that of the exterior surfaces 9. Additionally, a user may then actuate the upper platform member 2 by pushing downwards on it. This will cause the interior cutting members 3 to telescope downwards through the exterior cutting surfaces 9. These interior cutting members 3 will additionally cut the dough in the same shape as the interior cutting members 3.

As a result of actuating the upper platform member 2, two different cookies are made, one by the interior cutting members 3 and another by the exterior cutting member 5. When both the interior cutting members 3 and the exterior cutting members 5 are circular, an outer donut shaped cookie is made by the exterior cutting members 5 and a solid round cookie is formed by the interior cutting members 3. The shape of such donut cookies 10 are shown in FIG. 3.

In other embodiments, the interior and exterior cutting members can have different shapes than circular. For example, the shapes may be heart, star, square, rectangular, round, shapes with serrated edges, elliptical, and many other shapes. Furthermore, the interior and exterior cutting members can have a different shapes than one another. For example, the inner cutting member could be heart shaped while the outer cutting members are circular shaped. Another example, would be for the exterior cutting members to have a star shape, while the interior members have a circular shape. This way two different cookies could be produced (one by the exterior cutting member, and the other by the interior cutting member) merely pushing the cutter device on prepared dough and actuating the upper platform member.

As previously discussed, the interior cutting members 3 are hollowed and have an aperture at each end, one at the upper platform member 2, and the other at the interior cutting surface 8, thereby forming a hollowed cylinder. During cutting of the dough by the interior cutting members 3, the dough may stay within the cutting member 2 after cutting. If dough is caught within the cutting member's 3 hollowed cylinder it can have the effect of causing a vacuum when the interior cutting members are used to cut following pieces of dough. By this method, the dough cut by the interior cutting member may be contained inside. Accordingly, these pieces could be separated from the dough cut by the exterior cutting member 5.

Furthermore, as illustrated in FIG. 1, a side aperture 5a may be arranged on the exterior cutting members 5. The side aperture 5a permits air to pass therethough during operation of the cutting device. Accordingly, when dough is cut by the exterior members 5, this will prevent the dough from being caught up in the exterior members 5. Therefore, the dough can be cut into shapes and still remain on the table or surface used for cutting.

For illustrative purposes, an interior cutting member 11 connected with exterior cutting member 11a is shown in FIG. 4A broken out from the above described platform members. As illustrated, the interior cutting member 11 is insertible into exterior cutting member 11a. A bottom cutting portion 12 is shown in the lower portion of exterior cutting member, which in the illustrated embodiment is circular. The cutting portion 12 has cutting surfaces on its lower end. Furthermore, there is a side aperture 17 on the side of the bottom cutting portion 12, which permits air to pass therethrough. This acts as an aid for preventing the dough cut by the exterior cutting member 11a from being caught up in the member.

The interior cutting portion 11 has a cylindrical body 13 which is encircled by biasing spring 14. When inserted into a platform member, upper flange 15 will provide a surface for a user to push down on the interior cutting member and has aperture 15a arranged in the center thereof. A lower flange 16 is arranged at the top portion of the exterior cutting member 11a. The biasing spring 14 is positioned between the upper flange 15 and lower flange 16. As illustrated in FIG. 4B, when actuated, the upper flange 15 will slidably move toward lower flange 16 thereby compressing the biasing spring 14. Additionally, by this actuation, the interior cutting member 11 will be inserted through the exterior cutting member 11a. Further, the cutting surface 18 of the interior cutting member 11 can extend out from the exterior cutting member 11a.

Accordingly, when installed in an upper and lower platform member, upon actuation of the upper platform member as shown in FIG. 2, the biasing spring 14 will be compressed and cutting surfaces 18 of the interior cutting member 11 will extend through the exterior cutting member 11a. Upon release of the upper platform member, the biasing spring will urge the upper platform to its raised configuration. By such actuation, the interior cutting members 11 can be urged through the exterior cutting member 11a to cut cookie dough.

Additionally, as shown in FIG. 5A, a plunging element 19 is disclosed. The plunging element has a longitudinal extension 20 projecting from a flanged head 21. As shown in FIG. 5B, the plunging element 19 can be inserted into the interior and exterior cutting members. Moreover, upon actuation and compression of spring 14, the end 22 of the plunging element can be urged through and extend out from the exterior cutting member 11a as shown in FIG. 5C. The plunging element is preferably longer than the length of the interior cutting member 11 so that when inserted therein, it may expel any dough contained within the interior cutting member 11. Further, upon compression of spring 14, the plunging element may also drive out any dough contained within the exterior cutting member 11a.

The device and methods disclosed and claimed herein can be made and executed without undue experimentation in light of the present disclosure. While the device and methods of this disclosure have been described in terms of preferred embodiments, it will be apparent to those of skill in the art that variations may be applied to the device and methods and in the steps or in the sequence of steps of the methods described herein without departing from the concept, spirit and scope of the invention. All such similar substitutes and modifications apparent to those skilled in the art are deemed to be within the spirit, scope and concept of the invention as defined by the appended claims.

Claims

1. A cookie cutting apparatus for concurrently cutting a plurality of cookies in dough, said apparatus comprising: an upper platform member having an interior array of cutting members having a first diameter with a cutting surface on an end thereof,a lower platform member having a exterior array of cutting members having a second diameter and a cutting surface on an end thereof, said first diameter being smaller than said second diameter,said upper platform member arranged above said lower platform and aligning said interior array of cutting members with an axis of said second cutting memberswherein said upper platform member is actuable from a first configuration where said interior array of cutting members is in a raised position, to a second configuration where said interior array of cutting members are telescopically inserted into said exterior array of cutting members to a lowered position such that the cutting surface of said interior array is in substantially the same plane as the cutting surface of said exterior array.

2. The cookie cutting apparatus of claim 1, wherein a biasing element is interposed between said upper platform and aid lower platform thereby biasing said upper platform in a raised position.

3. The cookie cutting apparatus of claim 1, wherein said interior array cutting members are cylindrical having a hollowed interior to cut a circular shape.

4. The cookie cutting apparatus of claim 3, further comprising at least one plunging element insertable into at least one of said interior element cutting members.

5. The cookie cutting apparatus of claim 3, wherein said exterior array of cutting members are cylindrical having a hollowed interior to cut a circular shape.

6. The cookie cutting apparatus of claim 4, wherein the first and second diameters allow for a space between said interior array of cutting members and exterior array of cutting members when inserted therein.

7. The cookie cutting apparatus of claim 1, wherein said exterior array of cutting members each have an aperture to allow air to escape.

8. The cookie cutting apparatus of claim 6, wherein said interior array of cutting members are configured to form a vacuum upon insertion into cookie dough.

9. The cookie cutting apparatus of claim 7, wherein the interior array and exterior array cutting surface have different shapes.

10. The cookie cutting apparatus of claim 1, wherein said upper and lower platform members have a proximate rectangular shape with one length extending longer in one longitudinal direction.

11. The cookie cutting apparatus of claim 1, wherein said lower platform member has lateral extension member which extends beyond the length of said upper platform for gripping by a User.

12. The cookie cutter apparatus of claim 11, wherein the lateral extension member comprises at least one handle.

13. The cookie cutter apparatus of claim 1, wherein the interior array of cutting members is arranged in a two by six matrix and the exterior array of cutting members is arranged in a two by six matrix.

14. The cookie cutter apparatus of claim 1, wherein interior array of cutting members consists of twelve cutting members.

15. The cookie cutter apparatus of claim 1, wherein the exterior array of cutting members consists of twelve cutting members.

16. The cookie cutting apparatus of claim 4, wherein the number of plunging elements corresponds to the number of interior cutting members.

17. The cookie cutter apparatus of claim 4, wherein at least one plunger biasing element is interposed between a flanged head at the top of the at least one plunging element and a lower flange at a top portion of an exterior cutting member.

18. The cookie cutter apparatus of claim 17, wherein the at least one plunger biasing element is a spring.

19. A process for simultaneous cutting of a plurality of cookies in dough, said process comprising: pressing a lower platform member having a exterior array of cutting members having a second diameter and a cutting surface on an end thereof into cookie dough thus forming cookie shapes,pressing an upper platform member having an interior array of cutting members having a first diameter with a cutting surface on an end thereof from a first raised configuration to a second lowered configuration, wherein in said lowered configuration said interior array of cutting members are telescopically inserted into said exterior array of cutting members such that the cutting surface of said interior array is inserted into said cookie dough.

20. The process of claim 19, further comprising: pressing a plunging element within at least one cutting member.