US1000979A - Pneumatic-despatch-tube apparatus. - Google Patents

Pneumatic-despatch-tube apparatus. Download PDF

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US1000979A
US1000979A US38497807A US1907384978A US1000979A US 1000979 A US1000979 A US 1000979A US 38497807 A US38497807 A US 38497807A US 1907384978 A US1907384978 A US 1907384978A US 1000979 A US1000979 A US 1000979A
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valve
air
chamber
controlling
tubing
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US38497807A
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Louis G Bartlett
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LAMSON CONSOLIDATED STORE SERVICE Co
LAMSON CONS STORE SERVICE CO
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LAMSON CONS STORE SERVICE CO
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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
    • B65G51/08Controlling or conditioning the operating medium
    • B65G51/16Controlling or conditioning the operating medium varying, e.g. starting or stopping, gas pressure or flow

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  • My invention relates to improvements in pneumatic despatch tube apparatus and its object is to automatically control the flow of air through the apparatus for driving carriers and to limit the same to the interval necessary for the proper transmission and delivery of said carriers.
  • This object is accomplished by providing an air valve controlling communication between the vacuum drum and the transmission tube, which valve is electro-magnetically operated, upon the despatching of carriers, to be immediately opened causing a flow ofair through the tube for driving the carriers. Means are provided for timing the closure of the valve to insure the delivery of carriers.
  • the air valve is preferably balanced to permit of easy operation and is not affected by and is operated independent of the vacuum whether the system is open or closed.
  • Figure l is a'diagram of a pneumatic tube system'showing electric controlling mechanism and circuits.
  • Fig. 2 is an enlarged elevation partly in section showing the controlling mechanism or air valve in open or operating position with the direction of the air current indicated by the arrows.
  • Fig. 3 is a similar view to Fig. 2 showing the mechanism and air valve in closed or non-operating position.
  • Fig. 4; is a sectional View on line 4-4 Fig. 3.
  • A represents a cashiers or central station and B a sub or sales station
  • O is a tube for the transmission of carriers connecting the central station A with the terminal E controlled by the usual delivery valve E at the substation B.
  • D is a transmission tube for the return of carriers and connects the terminal E with the terminal F at the central station A.
  • the terminal F is controlled by the delivery valve F.
  • G is an air supply pipe connecting the terminal F with the controlling mechanism K and J is a vacuum tube connect-ing the controlling mechanism K with the vacuum drum H.
  • A is the bell mouth for the insertion of carriers into the tube G and B is an ordinary despatching inlet for the insertion of carriers into the tube B.
  • a normally open switch A having a trip or switch arm A projecting into the tube into the path of the carriers.
  • a normally open switch B connected with and adapted to be closed upon the opening of the despatching inlet B.
  • the controlling mechanism K consists of the casing K having a dividing partition forming a chamber Gr above said partition connecting with the air supply pipe G, the chamber J below said partition K connecting with the vacuum tube J.
  • K is a cylinder in casing K having the balanced valve K reciprocally mounted therein.
  • the ports J in cylinder K are adapted to place the chamber J in communication with chamber K between the upper and lower pistons of the balanced valve.
  • the ports G normally connect the chamber G with chamber K in the upper part of the cylinder K but upon the balanced valve K being raised, the ports G and J are placed in communication through chamber K.
  • K is a soft iron stem connected with the balanced valve K and forms an armature for the magnet or solenoid K mounted above the cylinder K and held in place by frame K secured to said cylinder.
  • K are the binding posts of the magnet, one of which is connected with battery X by wire X and the other of which is connected with switch A by wire X the switch A being in turn connected with battery X by wire X.
  • the switch B is connected with wire X by wire X and also with wire X by wire X
  • the upper part of cylinder K is'normally open to the atmosphere through port K and the lower part of the cylinder or chamber K is connected with the atmosphere by port K controlled by an inwardly opening check valve K which permits the unrestricted upward movement of the bal- 1 anced valve K
  • the chamber K is also connected with the atmosphere through a port K restricted by a timing screw K to time the descent of the balanced valve K
  • the operation is as follows: In despatching a carrier from central station A to the substation B, the cashier inserts the carrier Car into bell mouth A whereupon the carrier closes the switch A through engagement with trip A energizing the solenoid or magnet K and through armature K lift' ing the balanced valve K to the upper part of the cylinder K placing the chamber G into communication with chamber J through ports G chamber K and ports J
  • the unrestricted opening of the valve K is permitted by the check valve K which allows the air to freely
  • a tube for the transmission of carriers an exhaust tube in which a constantvacuum is maintained and through which air may be exhausted from said transmisslon tube, a normally closed valve adapted to control the flow of air through said transhaving, in combination, transit tubing through which carriersare transmitted, "a
  • valve for controlling the passage of air through the tubing, mechanism fo-r opening the valve upon the despatching of a carrier
  • a timing mechanism separate and distinct from the valvev opening mechanism for controlling the closing of the valve comprising a chamber provided witha movable wall connected with the valve, means for admitting air freely to the chamber during the opening of the valve, and means for regulating the escape of air during the closing of the valve.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, a valve for controlling the passage of .air through the tubing, a solenoid connected to open the valve, means for making and breaking the circuit for the solenoid when despatching a carrier, and timing mechanism for timing the closing of the valve.
  • a pneumatic despatch tube system having, in combination, transit tubing, a plurality of despatch stations therein, an air valve for controlling the passage of air through the tubing, valve opening mechanism, means for controlling said mechanism from each station, and a single timing mechanism separate and distinct from the valve opening mechanism for automatically timing the closing of the valve.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, means for exhausting air therefrom, an air valve between the transit tubing and said means, mechanism for opening the valve upon despatching a carrier, and a single timing mechanism separate and distinct.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism for opening the valve upon the despatching of a carrier,
  • a timing mechanism for controlling the' closing of the valve comprising, an air chamber having a movable wall connected with the valve, a check valve arranged to, freely open upon a reduction of pressure in the chamber to allow ingress of air to said chamber, and to close toprevent the free escape of air upon an increase of pressure in the chamber, and means controlling the egress of air from said chamber.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, a
  • an air valve for controlling the passage of airthrough the tub ng, an electrically controlled mechr amsm for opening the valve, dev1ces for making and breaking the circuitfor said mechanism at each station when despatching a carrier, and means separate and distinct from the valve opening mechanism for timing the closing of the valve after the circuit has been made and broken.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, means for exhausting air from said tubing, an air valve between the transit tubing and said means, electrically controlled mechanism for opening said valve, means for making and breaking the circuit for said mechanism when despatching a carrier, and means separate and distinct from valve opening mechanism for timing the closing of the valve after the circuit has been made and broken.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism operating independently of variations in pneumatic pressure to open the valve upon the despatching of a carrier, and a timing mechanism separate and distinct from the valve opening mecha nism acting to control the closing of the valve.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism operating independently of variations in pneumatic pressure to open the valve upon the despatching of a carrier, and pneumatic timing mecha nism acting to control the closing of the valve.
  • a pneumatic despatch tube system having in combination, transit tubing, a
  • an air valve for controlling the passage of air through the tubing, an exhaust device, mechanism operating independently of the exhaust device for opening said valve, means for controlling the operation of said mechanism from each station, and a timing mechanism for automatically controlling the closing of the valve.
  • a pneumatic despatch tube system having in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, an exhaust device, means operating independently of the exhaust device for opening the valve upon the despatch of a carrier, and a timing mechanism for aultomatically controlling the closing of the valve.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, a plurality of stations therein, an air valve, for controlling the passage of air through the tubing, electrically operated mechanism connected to open the valve, devices for making and breaking a circuit for said mechanism at each station when despatching a carrier, and timing mechanism for automatically controlling the closing of the valve.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, means for exhausting air from said tubing, an air valve between the transit tubing and said means, electrically operated mechanism connected to open the valve, means for making and breaking the circuit for said mechanism when despatching the carrier, and a timing mechanism for automatically timing the closing of the valve.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism for opening the valve, a timing mechanism for controlling the closing ofthe valve comprising an air chamber normally open to the atmosphere, and having a movable wall connected with the valve, an automatic check valve arranged to readily open upon the decrease of pressure in the chamber to admit air to said chamber, and to close to prevent free escape of air on the increase of pressure in the chamber, and means controlling the egress of air from said chamber.
  • a pneumatic despatch tube system having, in combination, transit tubing through which carriers are transmitted, a
  • a valve for controlling the passage of air through the tubing, asolenoid connected, to open the valve, means for making and breaking the circuit for the solenoid when despatching a carrier, and timing mechanism for controlling the closing of the valve comprising a chamber having a movable wall connected with the valve, means for admitting air freely to the chamber during the opening of the valve, and means for regulating the escape of air from said chamber during the closing of the valve.

Description

L. G. BARTLETT.
PNEUMATIC DESPATGH TUBE APPARATUS.
APPLICATION FILED JULY 22,1907.
1,000,979, Patented Aug. 22, 1911.
Jam/amid)":
72 lyu'tmesse l z P. I
COLUMBIA PLANOGRAPH 120.. WASHINGTON. n. c.
n r s'rn'rns PATN LOUIS G. BARTLETT, OF EAST SOMERVILLE, MASSACHUSETTS, ASSIGNOR TO LAMSON CONSOLIDATED STORE SERVICE COMPANY, OF NEWARK, NEW JERSEY, A CORPORA- TION OF NEW JERSEY.
Specification of Letters Patent.
Patented Au 22, 1911.
Application filed July 22, 1907. Serial No. 384,978.
To all whom it may concern:
Be it known that I, LOUIS G. BARTLETT, of East Somerville, in the county of Middlesex and State of Massachusetts, have invented certain new and useful Improvements in Pneumatic-Despatch-Tube Apparatus, of which the following is a specification.
My invention relates to improvements in pneumatic despatch tube apparatus and its object is to automatically control the flow of air through the apparatus for driving carriers and to limit the same to the interval necessary for the proper transmission and delivery of said carriers. This object is accomplished by providing an air valve controlling communication between the vacuum drum and the transmission tube, which valve is electro-magnetically operated, upon the despatching of carriers, to be immediately opened causing a flow ofair through the tube for driving the carriers. Means are provided for timing the closure of the valve to insure the delivery of carriers. The air valve is preferably balanced to permit of easy operation and is not affected by and is operated independent of the vacuum whether the system is open or closed.
In the accompanying drawings which illustrate a construction embodying my invention, Figure l is a'diagram of a pneumatic tube system'showing electric controlling mechanism and circuits. Fig. 2 is an enlarged elevation partly in section showing the controlling mechanism or air valve in open or operating position with the direction of the air current indicated by the arrows. Fig. 3 is a similar view to Fig. 2 showing the mechanism and air valve in closed or non-operating position. Fig. 4; is a sectional View on line 4-4 Fig. 3.
Like letters of reference refer to like parts throughout the several views.
Referring to Fig. l: A represents a cashiers or central station and B a sub or sales station; O is a tube for the transmission of carriers connecting the central station A with the terminal E controlled by the usual delivery valve E at the substation B. D is a transmission tube for the return of carriers and connects the terminal E with the terminal F at the central station A. The terminal F is controlled by the delivery valve F. G is an air supply pipe connecting the terminal F with the controlling mechanism K and J is a vacuum tube connect-ing the controlling mechanism K with the vacuum drum H. A is the bell mouth for the insertion of carriers into the tube G and B is an ordinary despatching inlet for the insertion of carriers into the tube B. Located at the bell mouth A is a normally open switch A having a trip or switch arm A projecting into the tube into the path of the carriers. At the substation B there is a normally open switch B connected with and adapted to be closed upon the opening of the despatching inlet B. The controlling mechanism K consists of the casing K having a dividing partition forming a chamber Gr above said partition connecting with the air supply pipe G, the chamber J below said partition K connecting with the vacuum tube J. K is a cylinder in casing K having the balanced valve K reciprocally mounted therein. The ports J in cylinder K are adapted to place the chamber J in communication with chamber K between the upper and lower pistons of the balanced valve. The ports G normally connect the chamber G with chamber K in the upper part of the cylinder K but upon the balanced valve K being raised, the ports G and J are placed in communication through chamber K. K is a soft iron stem connected with the balanced valve K and forms an armature for the magnet or solenoid K mounted above the cylinder K and held in place by frame K secured to said cylinder. K are the binding posts of the magnet, one of which is connected with battery X by wire X and the other of which is connected with switch A by wire X the switch A being in turn connected with battery X by wire X. The switch B is connected with wire X by wire X and also with wire X by wire X The upper part of cylinder K is'normally open to the atmosphere through port K and the lower part of the cylinder or chamber K is connected with the atmosphere by port K controlled by an inwardly opening check valve K which permits the unrestricted upward movement of the bal- 1 anced valve K The chamber K is also connected with the atmosphere through a port K restricted by a timing screw K to time the descent of the balanced valve K The operation is as follows: In despatching a carrier from central station A to the substation B, the cashier inserts the carrier Car into bell mouth A whereupon the carrier closes the switch A through engagement with trip A energizing the solenoid or magnet K and through armature K lift' ing the balanced valve K to the upper part of the cylinder K placing the chamber G into communication with chamber J through ports G chamber K and ports J The unrestricted opening of the valve K is permitted by the check valve K which allows the air to freely enter the lower chamber K as the valve K moves upward. This causes a flow of air from the bell mouth A through the tube C and tube D to drum H and the carrier is driven through the tube C toward the substation B. In the meantime, the carrier having passed over the trip A the switch A is opened and the solenoid or magnet K is deenergized; the balanced valve K now begins to drop by gravity, its movement being restricted and timed by the gradual escape of air from chamber K through port K regulated by the timing screw K, the check valve K in the meantime having closed preventing any escape of air from the chamber K except through the port K By the time the carrier has discharged through the delivery valve E at the substation B, the balanced valve K has reached the bottom of the cylinder K and closed communication between ports G and J shutting off the flow of air.
In returning a carrier from the substation 'B to the central station A, the operation is almost identical with the exception that the solenoid or magnet K is energized by the opening of the despatching inlet B, but it is not necessary that said switch B be operated by the despatching inlet B as it might be operated by a trip in tube B similar to the trip A shown at the bell mouth A.
Having thus described the nature of my invention and set forth a construction embodying the same, what I claim as new and desire to secure by Letters Patent of the United States is:
1. In a pneumatic despatch tube apparatus, a tube for the transmission of carriers, an exhaust tube in which a constantvacuum is maintained and through which air may be exhausted from said transmisslon tube, a normally closed valve adapted to control the flow of air through said transhaving, in combination, transit tubing through which carriersare transmitted, "a
valve for controlling the passage of air through the tubing, mechanism fo-r opening the valve upon the despatching of a carrier,
means for closing the same, a timing mechanism separate and distinct from the valvev opening mechanism for controlling the closing of the valve comprising a chamber provided witha movable wall connected with the valve, means for admitting air freely to the chamber during the opening of the valve, and means for regulating the escape of air during the closing of the valve.
3. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, a valve for controlling the passage of .air through the tubing, a solenoid connected to open the valve, means for making and breaking the circuit for the solenoid when despatching a carrier, and timing mechanism for timing the closing of the valve.
4. A pneumatic despatch tube system, having, in combination, transit tubing, a plurality of despatch stations therein, an air valve for controlling the passage of air through the tubing, valve opening mechanism, means for controlling said mechanism from each station, and a single timing mechanism separate and distinct from the valve opening mechanism for automatically timing the closing of the valve.
5. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, means for exhausting air therefrom, an air valve between the transit tubing and said means, mechanism for opening the valve upon despatching a carrier, and a single timing mechanism separate and distinct.
from the'valve opening mechanism for timing the closing of the valve.
6. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism for opening the valve upon the despatching of a carrier,
a timing mechanism for controlling the' closing of the valve comprising, an air chamber having a movable wall connected with the valve, a check valve arranged to, freely open upon a reduction of pressure in the chamber to allow ingress of air to said chamber, and to close toprevent the free escape of air upon an increase of pressure in the chamber, and means controlling the egress of air from said chamber. 7. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, a
plurality of stations therein, an air valve for controlling the passage of airthrough the tub ng, an electrically controlled mechr amsm for opening the valve, dev1ces for making and breaking the circuitfor said mechanism at each station when despatching a carrier, and means separate and distinct from the valve opening mechanism for timing the closing of the valve after the circuit has been made and broken.
8. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, means for exhausting air from said tubing, an air valve between the transit tubing and said means, electrically controlled mechanism for opening said valve, means for making and breaking the circuit for said mechanism when despatching a carrier, and means separate and distinct from valve opening mechanism for timing the closing of the valve after the circuit has been made and broken.
9. A pneumatic despatch tube system,having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism operating independently of variations in pneumatic pressure to open the valve upon the despatching of a carrier, and a timing mechanism separate and distinct from the valve opening mecha nism acting to control the closing of the valve.
10. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism operating independently of variations in pneumatic pressure to open the valve upon the despatching of a carrier, and pneumatic timing mecha nism acting to control the closing of the valve.
11. A pneumatic despatch tube system, having in combination, transit tubing, a
plurality of despatch stations therein, an air valve for controlling the passage of air through the tubing, an exhaust device, mechanism operating independently of the exhaust device for opening said valve, means for controlling the operation of said mechanism from each station, and a timing mechanism for automatically controlling the closing of the valve.
12. A pneumatic despatch tube system, having in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, an exhaust device, means operating independently of the exhaust device for opening the valve upon the despatch of a carrier, and a timing mechanism for aultomatically controlling the closing of the valve.
13. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, a plurality of stations therein, an air valve, for controlling the passage of air through the tubing, electrically operated mechanism connected to open the valve, devices for making and breaking a circuit for said mechanism at each station when despatching a carrier, and timing mechanism for automatically controlling the closing of the valve.
14-. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, means for exhausting air from said tubing, an air valve between the transit tubing and said means, electrically operated mechanism connected to open the valve, means for making and breaking the circuit for said mechanism when despatching the carrier, and a timing mechanism for automatically timing the closing of the valve.
15. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, an air valve for controlling the passage of air through the tubing, mechanism for opening the valve, a timing mechanism for controlling the closing ofthe valve comprising an air chamber normally open to the atmosphere, and having a movable wall connected with the valve, an automatic check valve arranged to readily open upon the decrease of pressure in the chamber to admit air to said chamber, and to close to prevent free escape of air on the increase of pressure in the chamber, and means controlling the egress of air from said chamber.
16. A pneumatic despatch tube system, having, in combination, transit tubing through which carriers are transmitted, a
lurality of stations therein, a valve for controlling the passage of air through the tubing, asolenoid connected, to open the valve, means for making and breaking the circuit for the solenoid when despatching a carrier, and timing mechanism for controlling the closing of the valve comprising a chamber having a movable wall connected with the valve, means for admitting air freely to the chamber during the opening of the valve, and means for regulating the escape of air from said chamber during the closing of the valve.
In testimony whereof, I have signed my name to this specification in the presence of two subscribing witnesses, this eighteenth day of July A. D. 1907.
LOUIS G. BARTLETT.
Witnesses ARTHUR F. RANDALL, H. C. Bowsnn.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents.
Washington, D. C.
US38497807A 1907-07-22 1907-07-22 Pneumatic-despatch-tube apparatus. Expired - Lifetime US1000979A (en)

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