1. Field
Embodiments of the present invention generally relate to sachets filled with content and, more particularly, to a method and apparatus for making a filled sachet.
2. Description of the Related Art
Sachets are small permeable bags having enclosed contents, and are used for a variety of applications. For example, porous sachets filled with scented material, such as potpourri, are used for scenting rooms, drawers or closets. In other examples, sachets filled with beverage materials are steeped in hot liquids to prepare the beverage, such as tea bags used for dipping in hot water to prepare tea for drinking. Currently, consumers choose from a variety of pre-packaged sachets with different content, but the consumers have no direct control over the contents of the sachet, the size of the sachet.
For example, a wide variety of pre-packaged tea bags are available for purchase, but some consumers may prefer a particular blend of tea not readily available in prepackaged bags. Conventional equipment for making such sachets includes industrial tea-bag manufacturing machines that are large and expensive. Such machines typically process a large volume of content at a given time, and are therefore ill-suited for the direct use by most consumers of such pre-packaged tea bags, or for the purpose of making a small number of custom filled sachets. Currently, in order to create their own desired blend of drinking tea, consumers use an infuser such as a tea ball or a tea filter. Such infusers, require loose tea leaves to be loaded into the diffuser, and used wet tea leaves need to be removed from the diffuser. The process frequently results in particles of tea leaves remaining in the cup of tea. Further, such diffusers must be filled and emptied for each desired cup or pot of tea, and therefore need to be cleaned frequently, which is often messy and inconvenient. Some conventional techniques for making sachets require individual sachets to be filled manually, which is a difficult and cumbersome process for a user. According to such techniques, the user is further required to fold the sachet to close the top of the sachet. Sachets produced using such techniques may be inconvenient to use, because any error in the folding process may release of loose tea leaves into the beverage.
The convenience of being able to use sachet bags with custom content, of desired size or in desired quantity, especially for a domestic user is missing in the art. Therefore, there exists a need for a method and apparatus for making a filled sachet.
An apparatus for making a filled sachet is provided, as set forth more completely in the claims.
These and other features and advantages of the present disclosure may be appreciated from a review of the following detailed description of the present disclosure, along with the accompanying figures in which like reference numerals refer to like parts throughout.
While the method and apparatus is described herein by way of example for several embodiments and illustrative drawings, those skilled in the art will recognize that the method and apparatus for making a filled sachet is not limited to the embodiments or drawings described. It should be understood, that the drawings and detailed description thereto are not intended to limit embodiments to the particular form disclosed. Rather, the intention is to cover all modifications, equivalents and alternatives falling within the spirit and scope of the method and apparatus for making a filled sachet defined by the appended claims. Any headings used herein are for organizational purposes only and are not meant to limit the scope of the description or the claims. As used herein, the word “may” is used in a permissive sense (i.e., meaning having the potential to), rather than the mandatory sense (i.e., meaning must). Similarly, the words “include”, “including”, and “includes” mean including, but not limited to.
Embodiments of the present invention provide a method and apparatus for making a filled sachet. The sachet is made of heat sealable, ultrasonically weld-able or other sealable material, and includes content therein. The sachet is customizable for a variety of uses. For example, sachets made with a porous, mesh-structured, or similar material and including tea leaves are useful as tea bags. Sachets made with a porous mesh-structured, or similar materials and including scented material such as a potpourri are useful as infusers in a closet, drawers or rooms. Sachets made with porous mesh-structured, or similar material and including spices are useful in cooking. Sachets made with non-porous material and including condiments or spices are useful in preserving the freshness of such condiments and spices.
The sachet is made, for example, for personal use by a user of the apparatus, and the contents, quantity, size of sachet, material that sachet is made of can be customized by the user. Embodiments include a generally tubular shaped heat sealable material, also referred to as a sock, sealed at one end, and open at another. The content to be included in the sachet is added to the sock such that the added content accumulates near the sealed end of the sock, generally referred to as an end portion of the sock. The content is measured, for example, by using a spoon, or by using a dosing mechanism provided herein, and the content is delivered into the end portion of the sock, for example, using a downtube. The sealed end of the sock is then sealed at a first position such that the content is included between the sealed end of the sock and the first position. The first position is sealed by pinching and heating or ultrasonically welding the sock material across the cross section of the first position, for example, using a heat sealer or an ultrasonic welder to form a thermal bond across the sock. The sealed end of the sock, along with the first seal position and the content included therein, forms the sachet. The sachet is separated from the rest of the sock, for example, using a separator, which separates the sachet by heating or cutting the sock material at a separation position. In some embodiments, the sock is also sealed at a second position extraneous to the sachet, such that the separation position lies in between the first position and the second position. The second position becomes the new sealed end of the sock and the technique as described above may be iterated to yield another sachet.
According to some embodiments, the content is supplied to the dosing mechanism using a hopper, and the dosing mechanism releases a predetermined measure of the content into a downtube. The sock is worn (or mounted) on the downtube such that the sealed end of the sock overhangs from the downtube. The length of the overhang portion is pre-configured or can be adjusted manually to create a desired sachet size. According to some embodiments, the sachet includes additional sachet material for forming a tether on the sachet. The tether is formed using the sachet material, and the tether is cut into the additional sachet material by heat or shear mechanisms. According to some embodiments, the apparatus is modular, that is, the apparatus is configured as multiple modules. For example, the modules include a module for delivering the content for the sachet, a module for making the sachet, and a module for dispensing the sachet. Several other modular configurations will occur readily to those skilled in the art without departing from the scope and spirit of the present invention. The module for delivering content includes, for example, a hopper and a lid. The module for making a sachet includes a downtube to deliver content into a mounted sock of sachet material, and a sealer and separator for sealing and separating a sachet from the sock. In some embodiments, the module for making the sachet also includes a dosing mechanism to measure and dispense a predetermined quantity of the content, for delivery into the sock. The module for dispensing the sachet includes, for example, a slide to receive the sachet separated from the sock and present the sachet to a user of the apparatus, such that the sachet is easy for the user to access. In some embodiments, the module for dispensing the sachet includes a cavity for holding a container, such as a jar, a jug or a mug and the like, to release the sachet(s) directly in to such container(s).
The content input module (CIM) 110 includes a CIM frame 112, a lid 114, a hopper 116, a CIM base 118, and hopper mounts 130. The lid 114 rests on the CIM frame 112, and the hopper 116 rests on the CIM base 118. In such embodiments, the hopper mounts 130 are optional. In some embodiments, the hopper 116 rests on the one or more hopper mounts 130 projecting inwards from the CIM frame 112 to restrict the downward movement of the hopper 116. In such embodiments, the CIM base 118 is optional. Further, such mounts may be included throughout the apparatus 100 as desired. Even though such mounts may not be explicitly discussed herein or described in the drawings, inclusion of such mounts will occur readily to those of ordinary skill in the art as and where required or advantageous according to the various embodiments described herein. The hopper 116 is usable for convenient receiving of the content to be contained in a sachet, for example, for receiving content poured from a packaged carton (not shown) into the hopper 116.
The sachet maker module (SMM) 140 includes a SMM frame 142, a mount 144, a dosing mechanism 150, a neck plate 160, a downtube 162, a sealing and separating unit 170 and a base 174. The dosing mechanism 150 includes a receiver 152, a portion creator 154, a receiving plate 156 rigidly coupled to a knob 158. The dosing mechanism 150 is connected to the downtube 162, and the portion creator 154 opens into the downtube 162. The mount 144 is a rigidly extending surface from the SMM frame 142, having an opening 146. The cross section of the downtube 162 is smaller than the opening 146, to allow the downtube 162 to go through the opening 146. The neck plate 160 has a larger cross section than the opening 146. The neckplate 160 is rigidly coupled with the dosing mechanism 150, and rests on the mount 144, and thereby restrains a downward movement of the dosing mechanism 150. The sealing and separating unit 170 is mounted (mounts not shown) on the SMM frame 142, positioned proximate to, and downward from a distal end 163 of the downtube 162. The sealing and separating unit 170 comprises a heating module 172, a backplate 168 mounted on the SMM frame 142 and thermodynamically coupled with the heating module 172, and a frontplate 166 (shown partially) mounted on the SMM frame 142 and rigidly connected (connections not shown) to a lever 164 external to the SMM frame 142, such that a downward motion of the lever 164 causes the frontplate 166 to press against the backplate 168.
The sealing and separating unit 170 comprise a sealer and a separator, not shown separately in
The sachet dispense module (SDM) 180 comprises a SDM frame 182, a dispense slide 184 and a SDM front edge 186. The dispense slide 184 is curved downward to allow an object (sachet) to slide down the surface of the dispense slide 184 towards the front edge 186.
In one embodiment, the various modules 110, 140 and 180 are removable and replaceable, that is, each module can be removed or replaced individually. The modules employ any one or more of known removable assembling mechanisms for removable assembly within the apparatus 100. The removable assembling mechanisms include, without limitation, fasteners such as screws, clips, snap-fit structures, fabric hook and loop fasteners (e.g. VELCRO®), and similar mechanical means. Modules may be removed for replacing parts within a module, for cleaning, for replacing entire modules, and the like. Parts are replaced to change configuration of the apparatus, e.g. changing to a larger sized downtube or a larger sock, for making a larger sachet. The apparatus 100 is generally made from molded thermoplastics, although some other materials as generally known in the art may also be used. According to several embodiments, the apparatus 100 is suited for use in domestic environments, for example, a home or an office kitchen. In some embodiments, the apparatus 100 has dimensions equal to or less than about 36 centimeters (about 14 inches) high, about 25 centimeters (about 10 inches) deep and about 20 centimeters (about 8 inches) wide.
The sock 300 is mounted over the downtube 162 such that a sealed end 320 of the sock 300 overhangs the downtube 162, while an open end 322 of the sock 300 rests along the length of the downtube 162. In some embodiments, the open end 322 is pinched in between the portion creator 154 and the neckplate 160 near the opening 146. In some embodiments, the friction between the sock 300 and the downtube 162 surface prevents the sock 300 from sliding off the downtube 162. In some embodiments, the surface of the downtube 162 has one or more of a rough or a contoured surface, to prevent the sock 300 from sliding off the downtube 162 due to gravity. In such embodiments, the downtube 162 surface texture and contours creates a bias for the sock 300 to be retained on the downtube 162, unless moved down by a user of the apparatus. An overhang portion 306 of the sock 300 overhangs a distal edge 163 of the downtube 162. The overhang portion 306 includes a sachet portion 304, and the sock 300 is sealed at the sealed end or a distal edge 320 of the sock 300. The overhang portion 306 is generally within an end portion of the sock 300. The receiving plate 156 defines a predetermined volume within the portion creator 154. The receiving plate 156 is rigidly coupled to the knob 158. In the first configuration, the dosing mechanism 150 creates a measured portion of content 310 for delivery to the sock 300, for example, through the downtube 162. The content 310 is received in the portion creator 154 from the hopper 116 of
In operation, the frontplate 166 is pressed against the backplate 168 as indicated by the arrow in
Once the sock 300 is cut to separate the sachet from the remaining sock 300, the frontplate 166 is pulled back or released from being pressed against the backplate 168, for example, by pulling the lever 164 of
In some embodiments, the sealer comprises a stapling mechanism (not shown) deploying thermoplastic or metallic staples to seal the sock at sealing positions 602 and 604. In some embodiments, the sealer comprises an ultrasonic welding mechanism (not shown) focused to weld an ultrasonic weld-able sock material at the positions 602 and 604. Ultrasonic welding utilizes high-frequency sound waves and pressure to bond the ultrasonic weld-able sock material at positions 602 and 604. In such embodiments that use the alternative sealing mechanisms, such as a stapling mechanism, an ultrasonic welding mechanism or other sealing mechanisms well known in the art, wires 620 and 624 are not included. Further, where required, such embodiments include sock material corresponding to the sealing mechanism used. In some embodiments, the separator is a shearing or a cutting mechanism (not shown) incorporated to cut the sock 300 at the separation position 610. In such embodiments, for example, the wire 622 is not included.
As described with reference to
According to some embodiments, the sealing and separating unit 170 comprises additional heating wires (not shown) behind the backplate 168. The additional heating wires create a heating profile on the backplate 168 corresponding to the required tether marks. The additional heating wires are connected to the heating module 172 for being heated, for examples to temperatures of about 250 Fahrenheit to about 300 Fahrenheit. The heated profiles create heat cut tether patterns on the sachet. The tether patterns are created by heat cutting at least a portion of the sachet extraneous to one or more seals of the sachet. In some embodiments, the tether pattern may be created in a sachet simultaneous to sealing of the first position and the second position. In some other embodiments, the tether pattern may be created after the first position and the second position are sealed. The additional heating wires may be heated in a desired sequence with respect to the sealing and cutting wires 620, 622, and 624, and for suitable time duration, for example, from about 4 to about 8 seconds.
According to several embodiments, the downtube is the downtube 162 of
The apparatus illustrated includes replaceable individual parts that are mounted suitably within the apparatus 100 to perform as described. While each and every structural detail is not described, such details will occur readily to those skilled in the art without departing from the scope and spirit of the present invention. In several embodiments, parts of the apparatus removably fastened to each other, for example by fasteners, screws, and several other known means, and such parts are therefore individually removable. However, in some embodiments, two or more parts may be configured to be non-removably fixed within the apparatus 100. Further, shapes referred to as tubular are not limited to structures with circular cross sections, rather, the term “tubular” additionally includes generally longitudinal hollow structures. Reference to positions or movements, such as up or down, are not meant in a restrictive sense, and obvious variations will occur to those skilled in the art without departing from the scope and spirit of the present invention. Various embodiments of the method and apparatus discussed herein are capable of making sachets for a variety of applications, the sachets including different content, varying dimensions and desired quantities.
All examples described herein are presented in a non-limiting manner. Various modifications and changes may be made as would be obvious to a person skilled in the art having benefit of this disclosure. Realizations in accordance with embodiments have been described in the context of particular embodiments. These embodiments are meant to be illustrative and not limiting. Many variations, modifications, additions, and improvements are possible. Accordingly, plural instances may be provided for components described herein as a single instance. Boundaries between various components, operations and data stores are somewhat arbitrary, and particular operations are illustrated in the context of specific illustrative configurations. Other allocations of functionality are envisioned and may fall within the scope of claims that follow. Finally, structures and functionality presented as discrete components in the example configurations may be implemented as a combined structure or component. These and other variations, modifications, additions, and improvements may fall within the scope of embodiments as defined in the claims that follow.
While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.
This application claims priority to the U.S. Provisional Application No. 61/790,091 titled “METHOD AND APPARATUS FOR MAKING FILLED SACHETS” filed on Mar. 15, 2013, and the U.S. Provisional Application No. 61/876,570 titled “METHOD AND APPARATUS FOR MAKING FILLED SACHETS” filed on Sep. 11, 2013, and the entire contents of all of the aforementioned applications are hereby incorporated by reference in their entireties.
Number | Date | Country | |
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61790091 | Mar 2013 | US | |
61876570 | Sep 2013 | US |