US555079A - Pneumatic dispatch-tube - Google Patents

Pneumatic dispatch-tube Download PDF

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US555079A
US555079A US555079DA US555079A US 555079 A US555079 A US 555079A US 555079D A US555079D A US 555079DA US 555079 A US555079 A US 555079A
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tube
carrier
switch
finger
branch
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G51/00Conveying articles through pipes or tubes by fluid flow or pressure; Conveying articles over a flat surface, e.g. the base of a trough, by jets located in the surface
    • B65G51/04Conveying the articles in carriers having a cross-section approximating that of the pipe or tube; Tube mail systems
    • B65G51/24Switches

Definitions

  • Patented Fe 25, 1896.
  • This invention relates to systems where pneumatic or like tubes are used for sending or carrying articles or objects by pneumatic pressure, suction, or other motive force, and
  • I 5 has for its object to improve the character and efficiency of and to simplify the means employed in such transmission, more especially in relation to the direction and switching of the carriers into their proper or appro- 2o priate branch tubes.
  • Figure 1 is a sectional plan view of part of the main tube and one branch tube, showing in dotted lines the switch set to direct the carrier into said branch and the actuating mechanism in its relative position, and in full lines as set for the main tube.
  • Fig. 2 is a perspective view of the switch and its connections.
  • Fig. 3 shows a cross-section of the tube and carrier.
  • Fig. 4c shows my preferred form of carrier and projection
  • Fig. 5 a perspective view of the projection on the carrier.
  • A represents the main tube, and H a branch tube extending therefrom into which the carrier B is to be directed, and G the switch controlling the junction of such main tube and branch tube, one branch tube and switch only being shown in the-above figures, as it is understood that a plurality of branch tubes, switches, operating devices, and carriers will be employed, according to the extent and p capacity of the dispatch system, and consequently the invention will be apparent from the single combination described.
  • the main tube as well as the branch tubes and the carriers, is made of such a shape in cross-section that the carrier cannot revolve on its axis as it passes through the tubes, but must always remain with its sides or surfaces in the same relative position to the corre- 8o sponding sides or surfaces of the surrounding tube.
  • the drawings represent both tubes and carrier as hexagonal in crosssection, but it is evident that they may be made with any number of sides, or even elliptical, if desired.
  • aprojection I On one side of the carrier is aprojection I), made preferably of a tapering form, as shown in Fig. 5.
  • This projection b is intended to strike the projecting finger c of the lever O, which latter is pivoted at or near its center and at its other end is fastened to the rod (1.
  • My preferred form, as shown in the drawings, is a finger capable, when struck by the carrier, of moving slightly in the same direction as that in which the carrier is moving, as the 9 5 force of the blow is thus greatly deadened. Any projection into the main tube will, how ever answer that is capable, when struck by the carrier, of imparting the pro permovement to the switch.
  • This rod (1 is fastened to the two arms 6 e of the switch G, the said arms a 6 being also secured to the rod f, and the latter to the bell-crank 7L. his pivoted at its other end to the red It, working in a plunger and having an enlarged rounded end capable of being projected slightly into the branch tube II.
  • G is the switch at the junction of the main tube A and branch tube II. It consists preferably of two parts, an upper G and a lower G, each of the parts being composed of pincherlike arms g g and g g, respectively, forming an opening in each part, which is'wider at the center and narrower at each end.
  • the two parts G G are rigidly fastened to the arms 6 6, so that the entire switch, with the arms 6 e, is practically one piece and may be so cast.
  • a carrier I3 designed to pass into the tube H, is inserted into the main tube so that the projection b will be on the side of the carrier corresponding with the side of the main tube from which the finger 0 depends or projects.
  • This projection b will accordingly strike the finger a, move the levers e, (Z, and f and arms 6 e in the direction of the arrow, move the switch over in a line with the branch tube II, and will'also throw the rounded end of the arm 7; slightly out into the tube I-I.
  • the carrier now reaches the switch G, its upper and lower edges (shown in Fig.
  • the carrier strikes the rounded end of the arm 7;, through the bell-crank 7a, rods f and (Z, and lever '1 it releases the catch as, turns the switch to coincide with the main tube, and restores the finger c to its original position, thus preparing the tubes for the passage of the next carrier.
  • the finger 0 projects into the tube A only far enough to be struck by the projection Z) and not by the main body of the carrier. It is therefore evident that only those carriers will operate the switch and pass down the branch tube II that have the projection I) on the side corresponding with that of the finger 0. At the next branch tube and switch the finger 0 will beplaced on another side of the tube, and so on with all the other branch tubes. Thus each carrier will automatically select its appropriate branch tube and operate the switch of that branch and of no other.
  • switches and branch tubes need not be limited to the number of sides of the carrier, as the projections Z) can be made narrower and can be placed at different points on the same side, and the corresponding fingers c be placed in corresponding places on the same side of the tube, and an indefinite number of switches can thus be automatically operated.
  • Fig. 3 I show the carrier as six-sided and with a rib I at each point or corner,'said ribs Z having rollers r at their ends to reduce friction. These ribs and rollers can, of course, be dispensed with without departing from my invention.
  • switch as shown in the drawings, is represented as pivoted to the tube at the end nearer to the source from which the carriers proceed, It could, however, with such necessary mechanical changes as will be self-evident, be pivoted at its other end. Any other suitable form of switch could be employed in place of the one shown in the drawings.
  • Case E The present application is designated by me as Case E to distinguish it from the four applications of mine above referred to, which I have designated as cases A, B, O, and D, respectively.
  • a switch composed of two parts, each part having an opening or concave surface wider at the center than at the ends, a projection on the carrier and a finger on the tube projecting into the tube, said projection and finger being so arranged on the surface of the carrier and the interior surface of the tube respectively as to contact with each other as the carrier passes said finger, and connections between said finger and switch whereby the latter is opened when the finger is struck by the projection on the carrier, substantially as set forth.
  • a switch composed of two parts, each part having an opening or concave surface wider at the center than at the ends, a proj ection on the carrier and a finger on the tube projecting into the tube, said projection and finger being so arranged on the surface of the carrier and the interior surface of the tube respectively, as to contact with each other as the carrier passes said finger, connections between said finger and switch whereby the latter is opened when the finger is struck by the projection on the carrier, a rod projecting into the branch tube adapted to be struck by the carrier, and connections between said rod and the switch whereby the switch is restored to its normal position when said rod is struck by the carrier, substantially as set forth.

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  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Fluid Mechanics (AREA)
  • Mechanical Engineering (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)

Description

(No Model.)
W. G. COLLINS. PNEUMATIC DISPATCH TUBE.
Patented Fe. 25, 1896.
. ;iwlfllllll ilillrirri511142551955 a II'Ifl!!! IIIIIIIIII ATTm WW m w NITEn STATES PATENT OEEIcE.
\VIIIIIIAM GUY COLLINS, OF NEVY YORK, N. Y., ASSIGNOR TO THE COLLINS AUTOMATIC PNEUMATIC SIVITCHING TUBES COMPANY, OF NEIV JERSEY.
PNEUMATIC DISPATCH-TUBE.
SPECIFICATION forming part of Letters Patent No. 555,079, dated February 25, 1896.
Application filed September 14, 1892x Serial No. 445,837. (No model.)
T all whont it may concern.-
Be it known that 1, WILLIAM GUY COLLINS, a citizen of the United States, residing at New York city, in the county and State of New York, have invented certain new and useful Improvements in Pneumatic-Tube and Similar Systems, (Case 15,) of which the following is a specification, reference being had to the accompanying drawings, which form a part hereof.
This invention relates to systems where pneumatic or like tubes are used for sending or carrying articles or objects by pneumatic pressure, suction, or other motive force, and
I 5 has for its object to improve the character and efficiency of and to simplify the means employed in such transmission, more especially in relation to the direction and switching of the carriers into their proper or appro- 2o priate branch tubes.
In certain previous inventions made by me and described in United States Letters Patent No. T60,0S1, issued September 22, 1891, and four applications previously filed by me 2 5 and known by the serial numbers 4:18AM and 8,195, filed on the th day of January, 1892, and numbers 1,501 and $21,505, filed on the 15th day of February, 1802, it has been necessary for the carrier to make contact simultaneously at two adjacent points in the main tube with either electrical or mechanical devices for the purpose of operating the switch at the junction of the main tube and a branch tube.
3 5 B y my present invention I am enabled to efiiciently operate a switch by the use of only one point of contact for the carrier in the main tube; and to this end my improvements consist in the improved construction of tubes, carriers, switch and allied mechanism hereinafter fully described and pointed out in the claims.
For more complete comprehension of the several devices and combinations reference must be had to the accompanying drawings,
forming part of this specification, and to the letters of reference herein used and marked upon the several figures thereof.
In said drawings, Figure 1 is a sectional plan view of part of the main tube and one branch tube, showing in dotted lines the switch set to direct the carrier into said branch and the actuating mechanism in its relative position, and in full lines as set for the main tube. Fig. 2 is a perspective view of the switch and its connections. Fig. 3 shows a cross-section of the tube and carrier.
Fig. 4c shows my preferred form of carrier and projection, and Fig. 5 a perspective view of the projection on the carrier.
Similar letters of reference indicate corresponding parts.
A represents the main tube, and H a branch tube extending therefrom into which the carrier B is to be directed, and G the switch controlling the junction of such main tube and branch tube, one branch tube and switch only being shown in the-above figures, as it is understood that a plurality of branch tubes, switches, operating devices, and carriers will be employed, according to the extent and p capacity of the dispatch system, and consequently the invention will be apparent from the single combination described.
The main tube, as well as the branch tubes and the carriers, is made of such a shape in cross-section that the carrier cannot revolve on its axis as it passes through the tubes, but must always remain with its sides or surfaces in the same relative position to the corre- 8o sponding sides or surfaces of the surrounding tube. The drawings represent both tubes and carrier as hexagonal in crosssection, but it is evident that they may be made with any number of sides, or even elliptical, if desired.
On one side of the carrier is aprojection I), made preferably of a tapering form, as shown in Fig. 5. This projection b is intended to strike the projecting finger c of the lever O, which latter is pivoted at or near its center and at its other end is fastened to the rod (1. My preferred form, as shown in the drawings, is a finger capable, when struck by the carrier, of moving slightly in the same direction as that in which the carrier is moving, as the 9 5 force of the blow is thus greatly deadened. Any projection into the main tube will, how ever answer that is capable, when struck by the carrier, of imparting the pro permovement to the switch. This rod (1 is fastened to the two arms 6 e of the switch G, the said arms a 6 being also secured to the rod f, and the latter to the bell-crank 7L. his pivoted at its other end to the red It, working in a plunger and having an enlarged rounded end capable of being projected slightly into the branch tube II.
G is the switch at the junction of the main tube A and branch tube II. It consists preferably of two parts, an upper G and a lower G, each of the parts being composed of pincherlike arms g g and g g, respectively, forming an opening in each part, which is'wider at the center and narrower at each end. The two parts G G are rigidly fastened to the arms 6 6, so that the entire switch, with the arms 6 e, is practically one piece and may be so cast.
The operation of my improved device is as follows A carrier I3, designed to pass into the tube H, is inserted into the main tube so that the projection b will be on the side of the carrier corresponding with the side of the main tube from which the finger 0 depends or projects. This projection b will accordingly strike the finger a, move the levers e, (Z, and f and arms 6 e in the direction of the arrow, move the switch over in a line with the branch tube II, and will'also throw the rounded end of the arm 7; slightly out into the tube I-I. hen the carrier now reaches the switch G, its upper and lower edges (shown in Fig. 3) will run into the openings or rounded grooves in the upper and lower parts of G, and by these means the carrier will be rounded into the branch tube. The openings or grooves in the upper and lower parts of the switch G are made wider at the center and narrower at each end to allow sufficient play to the carrier as it turns into the branch tube to prevent jamming. To hold the switch in position and prevent the impact of the carrier from swinging it back to coincide with the main tube, I place a finger or knob x on the switch, which engages with the catch y pivoted in the tube II when the switch is thrown over. lVhen the carrier strikes the rounded end of the arm 7;, through the bell-crank 7a, rods f and (Z, and lever '1 it releases the catch as, turns the switch to coincide with the main tube, and restores the finger c to its original position, thus preparing the tubes for the passage of the next carrier.
The finger 0 projects into the tube A only far enough to be struck by the projection Z) and not by the main body of the carrier. It is therefore evident that only those carriers will operate the switch and pass down the branch tube II that have the projection I) on the side corresponding with that of the finger 0. At the next branch tube and switch the finger 0 will beplaced on another side of the tube, and so on with all the other branch tubes. Thus each carrier will automatically select its appropriate branch tube and operate the switch of that branch and of no other.
Of course the number of switches and branch tubes need not be limited to the number of sides of the carrier, as the projections Z) can be made narrower and can be placed at different points on the same side, and the corresponding fingers c be placed in corresponding places on the same side of the tube, and an indefinite number of switches can thus be automatically operated.
, In Fig. 3 I show the carrier as six-sided and with a rib I at each point or corner,'said ribs Z having rollers r at their ends to reduce friction. These ribs and rollers can, of course, be dispensed with without departing from my invention.
I also prefer in practice to make one side of my carrier and tube smaller than the other sides, as shown in Fig. 3, as this prevents any mistake on the part of the operator in putting the carrier into the tube.
My preferred form of switch, as shown in the drawings, is represented as pivoted to the tube at the end nearer to the source from which the carriers proceed, It could, however, with such necessary mechanical changes as will be self-evident, be pivoted at its other end. Any other suitable form of switch could be employed in place of the one shown in the drawings.
'1 do not limit myself to my preferred arrangement of rod-and-lever connections between the finger O and the rod and the switch G shown in the drawings. Any other connections can be employed that will accomplish the same result of closing the switch when 0' is struck and of opening it when the rod 7.; is struck.
The present application is designated by me as Case E to distinguish it from the four applications of mine above referred to, which I have designated as cases A, B, O, and D, respectively.
hat I claim as new, and desire to secure by Letters Patent, is
1. In a system for transmitting articles by pneumatic pressure, suction or other suitable means, the combination with a tube and one or more branch tubes and a carrier, all of such cross-section that the carrier cannot revolve on its axis while passing through said tubes, of a switch composed of two parts, each part having an opening or concave surface wider at the center than at the ends, substantially as shown.
2. In a system for-transmitting articles by pneumatic pressure, suction or other suitable means, the combination with a tube and one or more branch tubes and a carrier, all of such cross-section that the carrier cannot revolve on its axis while passing through said tubes, a switch composed of two parts, each part having an opening or concave surface wider at the center than at the ends, a projection on the carrier and a finger on the tube projecting into the tube, said projection and finger being so arranged on the surface of the carrier and the interior surface of the tube respectively as to contact with each other as the carrier passes said finger, and connections between said finger and switch whereby the latter is opened when the finger is struck by the projection on the carrier, substantially as set forth.
3. In a system for transmitting articles by pneumatic pressure, suction or other suitable means, the combination with a tube and one or more branch tubes and a carrier, all of such cross-section that the carrier cannot revolve on its axis while passing through said tubes, a switch composed of two parts, each part having an opening or concave surface wider at the center than at the ends, a proj ection on the carrier and a finger on the tube projecting into the tube, said projection and finger being so arranged on the surface of the carrier and the interior surface of the tube respectively, as to contact with each other as the carrier passes said finger, connections between said finger and switch whereby the latter is opened when the finger is struck by the projection on the carrier, a rod projecting into the branch tube adapted to be struck by the carrier, and connections between said rod and the switch whereby the switch is restored to its normal position when said rod is struck by the carrier, substantially as set forth.
XV. GUY COLLINS. itnesses:
HUGO J. WEBER, SIDNEY MANN.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5660202A (en) * 1993-12-15 1997-08-26 Institute Of Gas Technology Process and apparatus for insertion of robots in gas distribution systems

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5660202A (en) * 1993-12-15 1997-08-26 Institute Of Gas Technology Process and apparatus for insertion of robots in gas distribution systems

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