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Publication numberUS3550771 A
Publication typeGrant
Publication dateDec 29, 1970
Filing dateMar 12, 1969
Priority dateMar 12, 1969
Publication numberUS 3550771 A, US 3550771A, US-A-3550771, US3550771 A, US3550771A
InventorsChris E Spyropoulos
Original AssigneeUs Army
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Fluidic weighing and sorting system
US 3550771 A
Abstract  available in
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Claims  available in
Description  (OCR text may contain errors)

United States Patent Inventor Chris E. Spyropoulos Washington, D.C.

Appl. No 806,482

Filed Mar. 12, 1969 Patented Dec. 29, 1970 Assignee The United States of America as represented by the Secretary of the Army FLUIDIC WElGHING AND SORTING SYSTEM 5 Claims, 3 Drawing Figs.

US. Cl. 209/121 Int. Cl B07c 5/16 209/74,

Field of Search 120, 121; l77/(Inquired) [56] References Cited UNITED STATES PATENTS 3,317,039 5/1967 Wadey 209/l2lX 3,369,661 2/l 968 Bradshaw 209/12 lX Primary Examiner-Richard A Schacher An0rneysHarry M. Saragovitz, Edward J. Kelly, Herbert Berl and J. D. Edgerton ABSTRACT: A fluidic system for weighing and sorting items transported along a main guide path into a plurality of groups. A predetermined velocity is imparted to the item, which is then acted upon by a retarding means to slow down the item at a rate proportional to the weight of the item. The item actuates a delay means which in turn operates a switching means causing items of a first weight to be diverted into a branch guide while all other items continue down the main guide.

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sum 2 OF 2 IN vE HToR This invention relates to systems for sorting items such as cards, letters and other like items into a plurality of weight groups. Such systems typically employ mechanical parts moving at high speeds to handle and transport the items. Whenever high speedmechanical action is involved, there is always the problem of breakdown of the moving parts or damage to the items caused by jamming or mishandling.

SUMMARY OF THE INVENTION The present invention avoids the problems of conventional systems by providing a flueric system which operates without moving mechanical parts in the sensing, logic and gating functions. The system comprises a main guide path along which items are carried by fluid flow. The items are launched in the path at a predetermined velocity by pinch rollers turning at a predetermined velocity. A branch guide path is located downstream of the pinch rollers a predetermined distance. As an item leaves the pinch rollers, slowdown jets are energized to exert a uniform fixed force over the same exposed length of each item, thereby retarding the item at a rate proportional to the weight of the item.

A switching fluid amplifier is located adjacent the branch guide path to switch items of a first weight into the branch guide path in accordance with signals received from a delay means and to allow all other items to pass along the main guide. The delay means in one embodiment of the invention includes a timer control and in a second embodiment includes a delay line. The delay means is energized by item sensing means located in the main guide path.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagrammatic view of one system embodiment of the invention;

FIG. 2 is a diagrammatic cross-sectional view taken along line 2-2 of FIG. 1; and

FIG. 3 is a diagrammatic view of a second system embodiment of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a diagrammatic view of one system constructed in accordance with the present invention; and FIG. 2 is a diagrammatic cross-sectional view taken along line 22 of FIG. I. A plurality of spaced items I and 3 are shown being transported down a main guide path 5 which has a branch guide path 7 joined thereto. Pairs of pinch rollers 9 and 11 are located in main guide 5 to engage the items being transported and impart a predetermined fixed velocity thereto. Spaced from pinch rollers 11 at a distance less than the length of any given item to be transported are sensing ports 13 and 15, and retarding jet nozzles 17 and 19. Sensing ports 13 and receive their inputs from fluid flow through control lines M and 23, respectively.

Biased fluid amplifiers 25 and 27 are conventional devices in which a main input at 29 normally produces an output on line 31 in the absence ofa bias input on line 33. When a bias input is present on line 33, main input 29 is diverted to output line 35 and remains there until bias input 33 is removed, whereupon the output will switch to line 31. Such elements are conventional in the art and their operation need not be discussed further.

Output line 35 of amplifier 25 is connected to the start input of delay control means 37. This delay control means 37 is a timer having output lines 39 and 41 which form the control inputs to the bistable memory amplifier 43. Amplifier 43 is located at the junction of main guide 5 and branch guide 7.

When output line 45 of amplifier 43 is' energized, diverting nozzle 49 will cause any item passing along main guide 5 to be diverted into branch guide 7. Diverting nozzle 49 is turned on by an input from line 39 and remains on until an input is obtained from line 41 to cause bistable amplifier 43 to switch to output 47 and be exhausted to the atmosphere or otherwise disposed of.

The retarding jet nozzles 17 and 19 are energized by bistable amplifier 51 which is switched by inputs on control lines 53 and 55. Retarding jets 17 and 19 are turned on by an output on line 55 from amplifier 27. This output occurs whenever sensing port 15 is blocked by an item proceeding down main guide 5. Retarding jets 17 and 19 are turned off by an input on line 53, which is energized by amplifier 27 through output 57 when there is a bias input from sensing port 15 caused by no item being present in that particular portion of main guide 5. Output 57 of amplifier 27 also sets to zero the delay control timer 37, thereby preventing any output on lines 39 or 41.

As the system begins operation, sensing ports 13 and 15 are unobstructed, thereby causing outputs on lines 35 and 57 of amplifiers 25 and 27, respectively. This means that the start input to delay control timer 37 is enabled, but since zero input line 57 is also enabled, there is no usable output from the timer. When item 1 moves to the right down guide 5 and blocks both sensing ports 13 and 15, amplifiers 25 and 27 are switched so that timer 37 has no input either to the start or zero input lines. When amplifier 27 is switched to output line 55, bistable amplifier 51 is switched to turn-on retarding jets l7 and 19 which act against the motion of card I being imparted by pinch rollers ll. As the trailing edge of card 1 uncovers sensing port 13, amplifier 25 will be switched back to an output on line 35, thereby starting timer 37. At this time zero input line 57 is not enabled so an output is obtained on line 39 of timer 37 to switch bistable amplifier 43 to output line 45 and energize diverting nozzle 49. There is a predetermined time interval in timer 37 between the occurrence of an output on line 39 before an output will appear on line 41. This time interval must be less than the time required for the trailing edge of any given item to travel from pinch rollers 11 to sensing port 15. Any items passing nozzle 49 during the interval after output line 39 is energized, but before line 41 is energized, will be diverted down branch guide 7. It is the action of retarding jets l7 and 19 that determines which items will be the transported item, the rate of decrease being a function of the weight of the item. The flow rate and the velocity of the retarding jets are fixed, and all items travel at a constant velocity as they are released from the pinch rollers. Since the length of the item acted upon by the retarding jets is fixed at the distance between the pinch rollers 11 and the retarding jets l7 and 19, the rate of decrease of velocity of the items is primarily a function of the items weights. By choosing the interval of time between outputs occurring on line 39 and 41 the cutoff weight can be determined for items that are to be allowed to proceed down main guide 5. Since items having greater weight will be less affected by the action of retarding jets l7 and 19 and therefore arrive at branch guide 7 in a shorter time than the lighter items, the continuation of main guide 5 will carry the lighter items, with the heavier items being diverted into branch guide 7.

When the first item I has cleared both of the sensing ports 13 and 15 there will again be inputs to the start and zero terminals of timer 37 resulting in no output from timer 37. Diverting nozzle 49 may be off or on depending upon whether or not item I was lighter than the required weight to be diverted into branch guide 7 or whether item 1 was diverted into branch guide 7. The condition of diverting nozzle is immaterial, since the next succeeding item will produce a start input to timer 37 when the trailing edge of the item clears sensing port 13, thereby energizing line 39 to divert the output of bistable amplifier 43 to diverting nozzle 49, if the output was not already present there. The sequence of logical operations on succeeding items proceeds in the same manner as that described in connection with item 1, until all of the items have been sorted.

A second embodiment of the invention is shown in FIG. 3

- where like components have been shown with like numbers. "The sensing and gating functions'are the same as those described in connection with the system of H6. 1 and will not be repeated here. The logic for controlling the operation is different, however, and the description will be devoted to the operation of the logic.

Prior to item 1 entering the main guide path 5, sensing ports 1 13 and 15 are unobstructed and there is flow in lines 61 and 63 to AND gate 65. AND gate 65 is constructed such that an '71 which is also an input line to AND gate 73; An input on line 71 to AND gate 73 causes an output on line 75 which is exhausted and not utilized. When item 1 interrupts the flow through sensing port 13, AND gate65 switches to output line 69, thereby switching bistable memorya'mplifier 43 to its exhaust output if it were not already insuch state. As item 1 blocks sensing port 15 both inputs toAND gate 65 are shut 1 off, but this produces no change in the control logic.

-When the trailing edge of item 1 clears sensing port 13, input line 61 is energized and produces an output on line 67 of AND gate 65. This action causes an input to bistable amplifier 51 on line 81 and turns on the retarding jets l7 and 19 which .had previously been shut off when output line 71 of AND gate "65 was energized. The output on line 67 also-passes through delay line 83 toAND gate 73 where it produces an output on line. Fluid fiow in line 77 causes memory amplifier 43 to switch and energize diverting nozzle 49 if there is no input on line 71.

Let it be assumed that item 1 is light enough in weight so -.that retarding jets 17 and 19 slow down its forward progress and cause item 1 to exceed a predetermined interval between the trailing edge leaving pinch rollers 11 and clearing sensing port 15. In this case the input on line 63 caused by item 1 clearing sensing port 15 will cause AND gate 65 to switch to an output on line 71. AND gate 73 will therefore be switched away from output 77, but this action. will have occurred too late to prevent output 77 from having switched memory amplifier 43 to energize diverting nozzle 49. Since diverting nozzle 49 has been energized, then the light item will be diverted into branch guide 7.

- Next, let it be assumed that item 1 is sufficiently heavy so that retarding jets 17 and 19 do not slow the item down and {cause the item to exceed the predetermined interval between I trailing edge of item 1 leaving pinch rollers 11 and arriving at sensing port 15. The input to AND gate 65 on line 63 produced by the trailing edge of item 1 clearing sensing port 15.will energize AND gate 73 through output line 71. The .predetermined interval referred to is controlled by the delay caused by delay line 83. if line 71 is energized prior to a pressure wave or fluid in line 67 passing through the required delay interval of delay line 83 and arriving at AND gate 73, therl AND gate 73 will produce an output on line 75. Upon arrival of fluid through delay line 83, AND gate 73'will be switched to an output on line 76', but in no case will an output be produced on line 77 to switch memory amplifier 43 and energized diverting nozzle 49. This action allows'it em 1 to pass straight down guide path 5 and not be diverted into branch guide 7. 1 1

It will be appreciated that the amount of'del ay'in delay line 83 will be the controlling factor as to the'cutoff point in item weight between those items diverted into branch guide 7 and those allowed to pass along guide path means 5. By designing the delay line to have the desired delay, the weight factor in the sorting processmay be determined.

lclaim: 1. A fiuenc weighing and sorting devicefor sorting items into a plurality of weight groups comprising:

a main guide path;

means for launchingitems in said main guide path with a predetermined velocity;

a branch guide path located downstream a predetermined distance from said launching means;

means for retarding the velocity of an item at a rate proportional to the weight of the item;

switching means for diverting items from said main guide path into said branch guide path;

.delay means for actuating said switching means; and

sensing means in said main guide path adjacent said launching means for controlling said retarding means and said delay means; whereby items of a first weight will be diverted into said branch guide while all other items will continue down said main guide path. l 2. The combination according to claim 1 wherein said means for launching comprises a plurality of pinch rollers turning at a constant predetermined velocity.

3. The combination according to claim 1 wherein said means for retarding comprises fluid jet means directed against opposite sides of an item with a predetermined force and over a predetermined length of said item.

4. The combination according to claim 1 wherein said delay means comprises:

a timer energized by said sensing means to produce a delayed output which turns off said switching means;

whereby any' item arriving at said branch guide path thereafter will continue along saidmain guide path and not be diverted.

5. The combination according to claim 1 wherein said delay means comprises:

a delay line energized by said sensing means to produce a' delayed output which turns on said switching means,

whereby an item arriving at saidbranch guide path

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3648839 *Nov 6, 1970Mar 14, 1972Burroughs CorpMethod and apparatus for detecting and separating out overweight letters
US3805904 *Nov 17, 1972Apr 23, 1974Scientech IncMethod and apparatus adapted for high-speed weighing
US3834474 *Oct 15, 1971Sep 10, 1974Knol WMethod and apparatus for determining the quantity of a bulk material deposited on a conveyor
US4756427 *Oct 14, 1987Jul 12, 1988Partec AgMethod and apparatus for sorting particles
US5180065 *Oct 11, 1990Jan 19, 1993Canon Kabushiki KaishaApparatus for and method of fractionating particle in particle-suspended liquid in conformity with the properties thereof
Classifications
U.S. Classification209/559, 209/644, 177/210.00R, 209/592, 177/1, 209/906, 209/591
International ClassificationB07B13/08, F15C1/00, G01G19/41, B07C5/16
Cooperative ClassificationF15C1/005, B07C5/165, B07B13/08, Y10S209/906, G01G19/41
European ClassificationB07B13/08, B07C5/16A, F15C1/00E, G01G19/41