US742513A - Pneumatic-despatch apparatus. - Google Patents

Pneumatic-despatch apparatus. Download PDF

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Publication number
US742513A
US742513A US14655503A US1903146555A US742513A US 742513 A US742513 A US 742513A US 14655503 A US14655503 A US 14655503A US 1903146555 A US1903146555 A US 1903146555A US 742513 A US742513 A US 742513A
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Prior art keywords
sender
tube
transmission
carrier
pressure
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US14655503A
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Charles F Stoddard
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AMERICAN PNEUMATIC SERVICE CO
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AMERICAN PNEUMATIC SERVICE CO
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Priority to US14655503A priority Critical patent/US742513A/en
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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
    • B65G51/26Stations
    • B65G51/28Stations for despatch

Definitions

  • My invention relates to improvementsin pneumaticdespatch apparatus, and especially to a sending-terminal through which carriers are inserted into the transmissiontube.
  • the object of my invention is to,simplify the operation and parts.
  • My invention consists of a transmissiontube in connection with a sender having two swinging gates which are balanced in such a way as to be normally closed and provided with aby-pass between the transmission-tube and the space between the two gates and the port connecting the space between the two gates with the atmosphere, controlled by a valve which is operated by the carrier, the
  • this port being of such a size as to spill the pressure between the two gates when it is open, so that the first gate may open to allow a carrier to pass into the chamber b e tween the two gates.
  • Figure l is asectional view through the sending-terminal, transmission-tube, and air-supply tube, with the eXhaust-port valve in its normal position.
  • Fig. 2 is a sectional view through the upper part of the sending-terminal, showing the exhaust-port valve open.
  • the transmission-tube A is in communication with the supply-pipe A through the casing A provided with slots A Secured to this slotted casing is a cylinder B, composed of three chambers B 15 B connected together. Secured to theupp'er chamber B is a chute C, and below said tube in the upper part of the chamber B is located a valve C, pivotedat C in the chamber B and provided with a counterweight C which balances the valve C.
  • valve C is a weight which holds the valve C normally closed.
  • valve B pivoted at D in the chamber 13' and provided with a counterweight D and the weight D which holds the valve D normally closed.
  • the by-pass G communicates with the sender at G2 and with the line-pressure in the chamber 13 of the sender at G for the purpose of giving the same pressure in the chamber between the two gates as in the line in order to normally keep the valve C closed tightly.
  • the portE is provided with a valve E, to which isrigidly attached the arm E and the counterweight E
  • the arm E when in its normal position extends through slot F of the chute C.
  • the purpose of this port is to spill the pressure in the chamber between the two gates, thereby allowing the carrier to open the gate C by its own weight and enter the chamber B J represents the carrier, and a a isthe floor-line.
  • a carrier is placed upon the chute C and slides down to the gate C.
  • the carrier engages the arm E and moves it into the position shown in Fig. 2, thereby opening the valve E, which opens the port E and allows the pressure in the chamber B to spill into the atmosphere, thereby taking the pressure 0% of the under side of the gate C and allowing the carrier J to open the gate C by its own weight and pass into the chamber B sliding down to the gate D.
  • the counterweight E brings the valve E back into the position shown in Fig. 1,thereby shutting off the port E.
  • the gate C closes after the carrier passes under it, the'pressure in the chamber B is equalized through the bypass G, thereby removing the pressure from the under side of the gate D and allowing the carrier to open it by its own weight and pass through the slotted casing A into the line A, after which the gate D is closed by the weight D and the machine is ready to send another carrier.
  • Inapneumatic-despatch-tubeapparatus a transmission-tube, a sender connected to said transmission-tube, inner and outer gates normally closing said sender, means for normally producing equalization of pressure in the transmission-tube and the sender, an exhaust-port from said sender to the atmosphere normally closed, an exhaust-valve controlling said port and operated by the carrier to allow the pressure to exhaust from the sender for releasing the transmission-tube pressure on the outer gate to permit the entrance of a carrier into the sender, and means for closing said exhaust-valve after the entrance of the carrier to permit the pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of the carrier will open said inner gate and enter the transmissiontube.
  • a transmission-tube a sender connected to said transmission-tube, inner and outer gates normallyclosing said sender, means for normally producing equalization of pressure in the transmission-tube and the sender, an exhaustport from said sender to the atmosphere normally closed, an exhaust-valve controlling said port operated by the carrier to allow the pressure to exhaust from the sender for releasing the transmission-tube pressure on the outer gate to permit the entrance of a carrier into the sender, and means for closing said exhaust-valve after the entrance of the carrier to permit the pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of the carrier will open said inner gate and enter the transmission-tube and to hold said outer gate closed so that the pressure in the transmission-tube will not escape into the atmosphere while the inner gate is open.
  • a transmission-tube In a pneumatic-despatch apparatus, a transmission-tube, a sender connected to said transmission-tube, inner and outer gates normally closing said sender, means for normally producing equalization of pressure in the transmission-tube and the sender, an exhaustport from said sender to the atmosphere normally closed, an exhaust-valve controlling said port operated by the carrier to allow the pressure to exhaust from the sender after releasing the transmission-tube pressure in the outer gate to permit the entrance of a carrier into the sender, and a counterweighton said exhaust-valve for closing the same after the entrance of the carrier to permit the pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of thecarrier will open said inner gate and enter the transmission tube and to hold the said outer gate closed so that the pressure in the transmission-tube Will not escape into the atmosphere while the inner gate is open.
  • a transmission-tube In a pneumatic-despatch apparatus, a transmission-tube, a sender connected to said transmission-tube, inner and outer gates normally closing said sender, a by-pass for normally producing equalization of pressure in the transmission-tube and the sender, an exhaust-port from said sender to the atmosphere normally closed, an exhaust-valve controlling said port operated by the carrier to allow the pressure to exhaust from the sender for releasing the transmission-tube pressure on the outer gate to permit the entrance of a carrier into the sender, and a counterweight on said exhaust-valve for closing the same after the entrance of the carrier to permitthe pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of the carrier will open said inner gate and enterthe transmission-tube and to hold the said outer gate closed so that the pressure in the transmission-tube will not escape while the inner gate is open.

Description

No; 742,513. 'PATENTED OCT. 27, 1903.
c. F. STODDARD.
PNEUMATIC DESPATGH APPARATUS. APPLICATION FILED MAR. 6, 1903.
N0 MODEL.
WITNESSES.-
m: uanms PETERS co. momumo" wAsNme om n. c,
No, reams.
PATENT Patented October 27, 1933.
0 FFICE.
CHARLES F. STODDARD, BOSTON, MASSACHUSETTS, ASSIGNOR TO AMERICAN PNEUMATIC SERVICE COMPANY, OF DOVER, DELAWARE, .A CORPORATION OF DELAWARE.
PN EU MATlQ-DESPATCH APPARATUS.
SPECIFICATION forming part of Letters Patent No. 742,513, dated October 27, E503. Application filed March 6,1903. SerislNo.146,555. (No model.)
To all whom it may concern:
Be it known that I, CHARLES F. STODDARD, of Boston, in the county of Sufiolk and State of Massachusetts, have invented certain new and useful Improvements in Pneumatic-Despatch Apparatus, of which the following is a specification.
My invention relates to improvementsin pneumaticdespatch apparatus, and especially to a sending-terminal through which carriers are inserted into the transmissiontube. The object of my invention is to,simplify the operation and parts.
My invention consists of a transmissiontube in connection with a sender having two swinging gates which are balanced in such a way as to be normally closed and provided with aby-pass between the transmission-tube and the space between the two gates and the port connecting the space between the two gates with the atmosphere, controlled by a valve which is operated by the carrier, the
area of this port being of such a size as to spill the pressure between the two gates when it is open, so that the first gate may open to allow a carrier to pass into the chamber b e tween the two gates.
My invention consists of certain novel features, hereinafter described, and particularly pointed out in the claims.
In the accompanying drawings, which illustrate a construction embodying my invention, Figure l is asectional view through the sending-terminal, transmission-tube, and air-supply tube, with the eXhaust-port valve in its normal position. Fig. 2 is a sectional view through the upper part of the sending-terminal, showing the exhaust-port valve open.
Like letters of reference refer to like parts throughout both views.
The transmission-tube A is in communication with the supply-pipe A through the casing A provided with slots A Secured to this slotted casing is a cylinder B, composed of three chambers B 15 B connected together. Secured to theupp'er chamber B is a chute C, and below said tube in the upper part of the chamber B is located a valve C, pivotedat C in the chamber B and provided with a counterweight C which balances the valve C.
C is a weight which holds the valve C normally closed. In the top of the chamber B is the valve B, pivoted at D in the chamber 13' and provided with a counterweight D and the weight D which holds the valve D normally closed. These two valves C and D act as an air-lock for the cylinder, and in the operation' only one is open at a time and normally both are closed. The by-pass G communicates with the sender at G2 and with the line-pressure in the chamber 13 of the sender at G for the purpose of giving the same pressure in the chamber between the two gates as in the line in order to normally keep the valve C closed tightly. The portE is provided with a valve E, to which isrigidly attached the arm E and the counterweight E The arm E when in its normal position extends through slot F of the chute C. The purpose of this port is to spill the pressure in the chamber between the two gates, thereby allowing the carrier to open the gate C by its own weight and enter the chamber B J represents the carrier, and a a isthe floor-line.
The operation is as follows: A carrier is placed upon the chute C and slides down to the gate C. In sliding down the carrier engages the arm E and moves it into the position shown in Fig. 2, thereby opening the valve E, which opens the port E and allows the pressure in the chamber B to spill into the atmosphere, thereby taking the pressure 0% of the under side of the gate C and allowing the carrier J to open the gate C by its own weight and pass into the chamber B sliding down to the gate D. After the carrier J has passed over the'arm E the counterweight E brings the valve E back into the position shown in Fig. 1,thereby shutting off the port E. When the gate C closes after the carrier passes under it, the'pressure in the chamber B is equalized through the bypass G, thereby removing the pressure from the under side of the gate D and allowing the carrier to open it by its own weight and pass through the slotted casing A into the line A, after which the gate D is closed by the weight D and the machine is ready to send another carrier.
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. Inapneumatic-despatch-tubeapparatus, a transmission-tube, a sender connected to said transmission-tube, inner and outer gates normally closing said sender, means for normally producing equalization of pressure in the transmission-tube and the sender, an exhaust-port from said sender to the atmosphere normally closed, an exhaust-valve controlling said port and operated by the carrier to allow the pressure to exhaust from the sender for releasing the transmission-tube pressure on the outer gate to permit the entrance of a carrier into the sender, and means for closing said exhaust-valve after the entrance of the carrier to permit the pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of the carrier will open said inner gate and enter the transmissiontube.
2. In a pneumatic-despatch apparatus, a transmission-tube, a sender connected to said transmission-tube, inner and outer gates normallyclosing said sender, means for normally producing equalization of pressure in the transmission-tube and the sender, an exhaustport from said sender to the atmosphere normally closed, an exhaust-valve controlling said port operated by the carrier to allow the pressure to exhaust from the sender for releasing the transmission-tube pressure on the outer gate to permit the entrance of a carrier into the sender, and means for closing said exhaust-valve after the entrance of the carrier to permit the pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of the carrier will open said inner gate and enter the transmission-tube and to hold said outer gate closed so that the pressure in the transmission-tube will not escape into the atmosphere while the inner gate is open.
3. In a pneumatic-despatch apparatus, a transmission-tube, a sender connected to said transmission-tube, inner and outer gates normally closing said sender, means for normally producing equalization of pressure in the transmission-tube and the sender, an exhaustport from said sender to the atmosphere normally closed, an exhaust-valve controlling said port operated by the carrier to allow the pressure to exhaust from the sender after releasing the transmission-tube pressure in the outer gate to permit the entrance of a carrier into the sender, and a counterweighton said exhaust-valve for closing the same after the entrance of the carrier to permit the pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of thecarrier will open said inner gate and enter the transmission tube and to hold the said outer gate closed so that the pressure in the transmission-tube Will not escape into the atmosphere while the inner gate is open.
4. In a pneumatic-despatch apparatus, a transmission-tube, a sender connected to said transmission-tube, inner and outer gates normally closing said sender, a by-pass for normally producing equalization of pressure in the transmission-tube and the sender, an exhaust-port from said sender to the atmosphere normally closed, an exhaust-valve controlling said port operated by the carrier to allow the pressure to exhaust from the sender for releasing the transmission-tube pressure on the outer gate to permit the entrance of a carrier into the sender, and a counterweight on said exhaust-valve for closing the same after the entrance of the carrier to permitthe pressure in the sender and the transmission-tube to substantially equalize on the inner gate whereby the weight of the carrier will open said inner gate and enterthe transmission-tube and to hold the said outer gate closed so that the pressure in the transmission-tube will not escape while the inner gate is open.
In testimony whereof I have signed my name to this specification, in the presence of two subscribing witnesses, this 27th day of February, A. D. 1903.
CHARLES F. STODDARD.
Witnesses:
E. L. HARLOW, A. L. MESSER.
US14655503A 1903-03-06 1903-03-06 Pneumatic-despatch apparatus. Expired - Lifetime US742513A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2723093A (en) * 1953-06-25 1955-11-08 Northrop Aircraft Inc Ram-air powered, tandem rear launching system
US2818592A (en) * 1955-04-25 1958-01-07 Scaramucci Domer Soluble plug injector

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2723093A (en) * 1953-06-25 1955-11-08 Northrop Aircraft Inc Ram-air powered, tandem rear launching system
US2818592A (en) * 1955-04-25 1958-01-07 Scaramucci Domer Soluble plug injector

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