The present invention generally relates to article handling and/or packing operations, namely, to one or more of systems, apparatuses, assemblies, subassemblies, and/or methods for/of article manipulation in furtherance of executing further processing steps on the article or an article group formed via article manipulation. More particularly, the instant disclosure is directed to an improved robotic article handling assembly and system so characterized for, by way of non-limiting example, article collection and top load robotic case packing, advantageously but not exclusively, the trackless top loading of selectively aggregated/grouped articles.
Various mechanisms are known to effectuate, among other article handling operations, the grouping/packaging of articles from a source of flowing articles in a top load fashion. Having generally evolved from Ferris wheel type apparatus and/or track mounted rotating “buckets” (see e.g., U.S. Pat. No. 3,766,706 (Graham)) top load case packers are presently and commonly characterized by industrial robots.
Industrial robots are automatically controlled, reprogrammable, multipurpose manipulators programmable in three or more axes (International Organization for Standards, ISO 8373). Commonly, such “manipulators” are categorized by the number of independent parameters that define its configuration, i.e., its degree of freedom. Two degrees of freedom, or axes, are required to reach any point in a plane (i.e., area), with three axes required to reach any point in space (i.e., volume). Once positioned at a designated point, orientation control requires three further axes, i.e., yaw, pitch and roll.
The region of space within which a robot operates, more particularly, the region it can reach, is referred to as the robot's working envelope. The arrangement of the rigid member(s) and joints of the robot determine its range of motion (i.e., kinematics), common types being articulated, cartesian, parallel, and SCARA (Selective Compliance Assembly Robot Arm). As to attributes, form fits function in connection to the further defining robotic parameters of carrying capacity (i.e., payload), speed, acceleration, accuracy, and repeatability.
Parallel delta type robots, i.e., those having their origins in the teaching of Clavel (U.S. Pat. No. 4,976,582) and generally characterized by three arms connected to a universal joint, or other functionally equivalent pick-and-place mechanisms, e.g., multi-axis servo pickers/loaders, have been widely utilized for individual article operations and/or manipulations. Moreover, SCARAs, characterized by an arm rigid in the z-axis and pliable in the x, y-axes, have likewise been utilized for individual article operations and/or manipulations. With regard to the collection or grouping of articles and subsequent top loading of the article group to/into a case, articulated kinematics are commonly utilized.
Illustrative of article handling operations characterized by the accumulation, aggregation and/or grouping of articles such as bags, pouches, cartons, etc. and their subsequent top case loading, are the teachings of Black et al. (U.S. Pat. No. 7,856,797) and Cote (US Pub. No. 2012/0006651). Essentially, a floor mounted articulated arm is positioned proximal to an inflow of individual articles and one or more cases from a supply of cases such that its working envelope includes an article ingress local and a grouped article egress local. The former teaching is characterized by, among other things, a single articulated arm operable between ingress and egress locals which are adjacent one another, the arm essentially pivoting left and right while executing desired operations. The later teaching is characterized by, among other things, a pair of spaced apart articulated arms intermediate ingress and egress locals, the arms thusly rotating between upstream and downstream points during transfer operations.
In-as-much as these representative teachings disclose advantageous features, such articulated arm solutions are not without their shortcomings and/or drawbacks. For instance, and without limitation, articulated arms are expensive; articulated arms require appreciable, robust support/anchoring; articulated arms are not readily configurable, reconfigurable, and/or located/relocated; and, articulated arms occupy appreciable floor plan owing to the nature of their working envelope (i.e., accommodation of the articulation). Thus, there remains a need for improved robotic handling operations, e.g., improved article handling operations characterized by the accumulation, aggregation and/or grouping of articles such as bags, pouches, cartons, etc. and their subsequent top case loading. More particularly, it is believed advantageous to provide a turnkey, modular system of minimal footprint characterized by, among other things, one or more of a lower robot axes count, increased capacity or payload, greater handling speed/throughput, greater versatility via change parts and ease of change part conversion, an improved article ingress approach angle for an end effector, advantageously, one part and parcel of a supremely efficient travel path, and, improved system controls for maintaining the efficient travel path relative to article infeed operations and/or loaded case egress operations.
A top loading assembly is provided. The assembly includes a robotic arm and an article collector assembly supported thereby. The robotic arm is characterized by first and second arm segments and three pivotable arm joints, a first arm joint J1 being a terminal/anchorable arm joint, a second arm joint J2 being an intermediate arm joint, and a third arm joint J3 being a distal arm joint for operatively supporting the collector assembly. The collector assembly, directable from an article collection locus to a collected article loading locus, includes a collector adapted to effectuate select two dimensional clamping in relation to articles collected by the collector during direction of the collector assembly from the article collection locus to the collected article loading locus.
Advantageously, the collected article loading locus is neither upstream nor to a side of the article collection locus. Moreover, robotic arm joint J1 is preferably, but not necessarily, a downstream most robotic arm joint. Further still, it is believed advantageous, but hardly necessary to locate J1 in substantial elevational alignment with the article collection locus. Yet further still, the robotic arm is advantageously, but hardly necessarily, actuatable to effectuate either of a convex or concave upper upstream travel segment for the collector of the collector assembly during an approach to the article collection locus.
Advantageously, the article collector assembly includes dual clamps and a clamp base characterized by clamp actuators for actuating the dual clamps, the dual clamps delimiting the collector. Preferably, but not necessarily, the dual clamps are change parts, amenable to swift tool-less change out. Moreover, and alternately, the collector may include at least a single side clamp to effectuate side-to-side article group clamping, the at least a single side clamp may be further adapted for pivoting to enhance article ingress to the collector, and a top clamp to effectuate top-to-bottom article group clamping, the top clamp, as the at least a single side clamp, may be further adapted for pivoting to enhance article ingress to the collector.
In an alternate embodiment, the collector includes opposingly paired lateral members and a top member, the members delimiting an adjustable article receiving volume. Moreover, the assembly further includes a collector actuator subassembly operatively linked to at least one lateral member of the opposingly paired lateral members to effectuate translation thereof. Further still, the collector actuator subassembly may be operatively linked to the lateral side members and the top member to effectuate select translations of same in furtherance of two dimensional clamping of a collected article group, either or both of the collector actuator subassembly and top member readily adapted to enable pivoting of the top member to enhance article ingress to the collector.
Finally, a method of case loading articles is provided. Articles of an article infeed supply are directed to an article collection locus, with provisions made for a case loading assembly proximal to the article collection locus. The case loading assembly includes a robotic arm and an article collector assembly supported thereby, the robotic arm characterized by first and second arm segments and three pivotable arm joints. The article collector assembly is directable from the article collection locus to a collected article loading locus, the collected article loading locus being neither upstream nor to a side of the article collection locus. The collector assembly includes a collector adapted to effectuate select clamping in relation to articles collected by the collector. Articles are collected via the collector of the article collector assembly at the article collection locus, a portion of the collector having been actuated to enhance article ingress into the collector. A collected article group is retained within the collector of the article collector assembly, portions of the collector having been actuated to effectuate clamping of the collected article group during travel of the article collector assembly from the article collection locus to the collected article loading locus. More specific features and advantages obtained in view of those features will become apparent with reference to the drawing figures and
All figures have been prepared to facilitate and/or enhance an understanding of the basic teachings of the present invention, and/or the concepts underlying same. Extensions of the figures with respect to number, position, relationship, and dimensions of the parts to form one or more preferred embodiments or variants thereof may be explained or is understood to be within the skill of the art after the following description has been read and understood.
Preferred, non-limiting assemblies, structures and/or mechanisms relating to and for improved article collating and/or collating and loading are generally disclosed and presented throughout the figures of the subject disclosure. An advantageous, representative, non-limiting top loading assembly is generally depicted in
Prior to subject matter particulars, some initial observations and/or comments are warranted. The assemblies, structures and/or mechanisms (or configurations of any of same as the case may be) hereinafter described prove especially advantageous in connection to top load case packing, more particularly still, in connection to top load standup configuration packing, however, they should not be viewed as so limited. Moreover, case loading of doy, pillow, and flat bottom bags and pouches are contemplated, though case loading is not so limited. While article collating operations are set forth in connection to a “top-seal-leading” collector ingress, such article presentation/infeed need not be so limited.
Article or product receiving, pack collation (i.e., article grouping), and case loading functions are effectuated via a robust article collector assembly of the top loading assembly. Characteristic of the collector assembly is a collector adapted to effectuate select 2D grasping or clamping of collected articles, and thus pattern (i.e., article group) containment. Single and multiple product facing options are contemplated and readily achievable via quick assembly change parts, for example, clamp elements which delimit the collector.
The article collector assembly is operatively supported by a robotic arm, advantageously, a SCARA. In-as-much as single or multiple arm assemblies are contemplated, dual arm assemblies are generally shown herein. Moreover, while a collector is essentially adjacent or proximal to an article collection locus (e.g., an article infeed egress), a fixed end for the SCARA may be suitably anchored up or downstream of the article collector locus, and/or at an elevation above, at, or below the article collector locus. Via the contemplated SCARA arrangement and/or configuration, increased simplicity and efficiencies are attained, e.g., a compact footprint commensurate with a tight SCARA working envelope, precise article handling archived, fewer and easier adjustments had, high payloads and speed obtained, unparalleled machine accessibility gained, and gantry type belts, bearings, pulleys or vacuum eliminated without loss of functionality.
Referring initially to
As is generally well established and known, articles (not shown) travel in spaced apart condition upon infeed conveyor 20 toward a free end thereof which, for the sake of discussion, generally delimits an article collection locus 22. Articles may be suitably manipulated via a product placement conveyor (PPC), i.e., a divider conveyor 24, or the like in furtherance of discharging transversely displaced articles (see e.g., Applicant's U.S. Pub. No. US 2013/008762), i.e., articles of the infeed conveyor may be gapped or gapped and divided as circumstances warrant, a side-by-side article packing thereby effectuated as to the latter process. Cases 32 are generally conveyed to pass below the top loading case packer assembly, intermittently or otherwise, for loading at a collected article loading locus 34 and subsequent take-away for further processing (e.g., closure).
Notionally, article collection assembly 60 is directable, via its robotic arm 50, to and from the article collection locus 22 to collected article loading locus 34. The collected article loading locus is advantageously, but not necessarily, neither upstream nor to a side of the article collection locus. Article collection assembly 60 includes a collector 64 adapted to effectuate select two dimensional clamping in relation to articles collected by the collector during direction of the collection assembly from the article collection locus to the collected article loading locus.
With particular reference now to
As best appreciated with reference to
First arm segment 52 (i.e., an upper arm or “humerus” segment) extends between J1 (“shoulder”) & J2 (“elbow”). Second arm segment (i.e., a lower arm or “forearm” segment) extends between J2 (elbow) & J3 (i.e., wrist). As should be readily appreciated, each robotic arm 50, 50′ is operatively supported within a structural assembly or frame 46 by or at J1, i.e., J1 is supported upon/by a frame member 48 for rotation, so as to depend therefrom (
With continued reference to
With continued reference to
With continued general reference now to
Functionally, the collector is intended to sequentially receive articles at the article collection locus in furtherance of establishing at least a single article stack, to retain the established article stack while the collector is directed toward the collected article loading locus, and to off-load the retained article stack at the collected article loading locus in furtherance of top load case packing. In relation to the stated functionality, preferred non-limiting operative configurations or states for the collector are enabled by structures of each of the collector and the collector actuator assembly and relationships for, between, and/or among such structures, such configurations appreciated after a discussion of collector assembly structures, and with later reference to
With continued reference to
Each of lateral members 66, 66′ of collector 64 advantageously but not necessarily includes a side panel 72 and a base forming panel 74 extending from a lowermost margin 76 thereof (
Lateral members 66, 66′ are advantageously change parts, and thus advantageously, but not necessarily, further include a wall segment (i.e., a rear upstanding wall segment) or spine 78 which is adapted (
The collector actuator subassembly of the collector assembly operatively supports the members of the collector. As will be subsequently detailed with reference to
With particular reference to
Primary components of the
Each lateral collection member 66, 66′ is advantageously, but not necessarily, reversibly affixable to its corresponding lateral member carriage 84, 84′ via cam lock fitting 83 (
Top collection member 68 generally extends from top member carriage 82 to which it is affixed (
Top member carriage 82 is slidingly received upon top member carriage guides 86 for translation with respect thereto, the carriage adapted to receive same (
Top collection member is advantageously, but not necessarily, pivotable, in addition to being translatable, so as to enhance article ingress at the article collection locus. While not shown, one or both of the lateral collector members may be readily adapted to pivot to similarly enhance article ingress.
Pivot motion for the top collection member is effectuated via a pivot linkage 95 which unites top collection member 68 to/with the translatable top member carriage 82. Pivot linkage 95 is generally and fairly characterized by pivot bracket 96, supported by top member carriage 82, and a portion of a sidewall of subassembly body 94, namely, a portion characterized by a grooved/channeled plate 102 (
With reference now to
In advance of or by the time of article collecting locus approach (i.e., at time interval before that depicted in
Upon receipt of the “last” article making up the article group by the collector, all linear actuators are at a relative minimum extension for the article subject of processing (
Finally, upon travel from article collection locus 22 to collected article loading locus 34, registration of collector 64 with the opening of case 32, and entry of case 32 by collector 64, all linear actuators are at an intermediate extension (
Turning now to the sequence of
As per
Referring now, and finally, to
While advantageous, non-limiting systems, apparatus, devices, mechanisms, methods, etc. relating to article collection, secured location of a collected article group and top loading of same, are depicted, described and/or readily ascertained with reference to the instant disclosure, alternate not insubstantial functional equivalents are likewise contemplated to effectuate a sought after quick, secure, reliable top loading for conveyed articles. Presently known and future developed means for effectuating the noted functionalities are understood to be within the scope of the instant disclosure.
Thus, since the structures of the assemblies/mechanisms disclosed herein may be embodied in other specific forms without departing from the spirit or general characteristics thereof, some of which forms have been indicated, the embodiments described and depicted herein/with are to be considered in all respects illustrative and not restrictive. Accordingly, the scope of the subject invention is as defined in the language of the appended claims, and includes not insubstantial equivalents thereto.
This utility patent application is a U.S. National Stage filing under 35 USC § 371 of application Serial No. PCT/US2016/050222, filed Sep. 2, 2016, which is an international patent application filed under 35 USC § 363 claiming of priority under 35 USC § 120 of/to U.S. Pat. Appl. Ser. No. 62/214,635, filed Sep. 4, 2015, incorporated by reference in its entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/US2016/050222 | 9/2/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2017/041007 | 3/9/2017 | WO | A |
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3766706 | Graham | Oct 1973 | A |
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Entry |
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Number | Date | Country | |
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20180244410 A1 | Aug 2018 | US |
Number | Date | Country | |
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62214635 | Sep 2015 | US |