US814359A

US814359A - Gas-meter.

Info

Publication number: US814359A
Application number: US27469005A
Authority: US
Inventors: Samuel E Crawford
Original assignee: Individual
Current assignee: Individual
Priority date: 1905-08-18
Filing date: 1905-08-18
Publication date: 1906-03-06
Anticipated expiration: 1923-03-06

Description

PATENTED MAR. 6, 1906. S. E. URAWFORD.

GAS METER. umarmen rum: 115.18.1905.

PATBNTED MAR. 6, 1906.

S. E. ORAWFORD.

GAS METER.

Prmoucm FILED Amma. 1905.

2 SHEETS-SHEET 2.

l l NVENTO R ATTORNEY UNITED STATES PATENT OFFICE.

Specification of Letters Patent.

Patented March 6, 1906.

Application filed August 18, 1905. Serial No. 274,690.

To all whom t may concern:

Be it known that I, SAMUEL E. CRAWFORD, a citizen of the United States, residin at .Avalon, in the county of Allegheny and tate of Pennsylvania, have invented new and useful Improvements in Gas-Meters, of which the followin f is a specification.

The object of my invention is to provide a new and improved gas-meter; and to this end my invention consists in a gas-meter, in the novel features of construction, and in the combination of parts, all as hereinafter described and claimed.

In the accompanying drawings, which illustrate applications of my invention, Figure 1 is a central vertical sectional view of a meter constructed in accordance with my inven-A tion Fig. 2, a art top lan and a part seetional view; Fig. 3, a retail sectional view showing a modified form ofdia hragm and manner of mounting the same; Fig. 4, a detail horizontal sectional view taken on line IV IV of Fig. 1 Fig. 5, an elevational view of valve; Fig. 6, abottom plan view ofvalve F ig. 7, a plan of valve-seat Fig. 8, a central vertical sectional view of valve-seat, taken on line VIII VIII of Fig. 7 3 and Fig. 9 is a sectional detail view of a modified construction.

Referring to the drawings, as illustrated and as preferred, the body portion 1 of the meter is formed with a central chamber 2 and with side chambers or spaces 3 and 4. It is further provided with an inlet-nozzle 5, an outlet 6, and with

passages

7, 8, 9, and 10. Located in chamber 2 is a valve mechanism comprising a rotary valve 11, which is mounted on a four-ported valve-seat 12, a valvecage 13, having a sleeve 13, and a valvestem 14. As shown,valvestem 14 is attached at its lower end t0 rotar valve 11 by a small driving-pin 14, but, i desired, the valvestem may be formed integral with the valve. The valve mechanism, as clearly shown by Fig. 1, is supported by its seat 12, which latter fits over the inlet-nozzle 5. Fluid-

passages

7, 8, 9, and 10 communicate with the rotary valve 11 and with measuring-

chambers

15 and 16.

Measuring-

chambers

15 and 16 are formed between the outer surfaces of the Walls of the body portion and side covers 17 and i8, and located within each chamber is a diaphragm 19. Flexible diaphragme 19 in the form of Fig. 1 are each secured to a ring 20, formed on the body portion, and to a diaphragm plate 21. In the modified construction shown by Fi 3 I employ a slightly dill'erent form of iaphragm-leather, and in this instance the diaphragms are held in position between the body portion and the sido covers.

Measuring-chamber 15 is divided by the diaphragm within said chamber into an outer compartment a and an inner compartment b, and chamber 16 is divided by its diaphragm into corresponding compartments c and d. These several compartments a, b, c, and d are respectively connected up withv the valve mechanism by the passages 7, S, 9, and 10. This construction provides for a displacement of a predetermined volume of fluid from both sides of esch diaphragmplate with every revolution of the rotary valve.

Valve-stem 14 at its u per end has formed therewith or connected thereto an adjustable crank 22, having an arm 23. Arm is arranged when rotated to engage a crank 24 of the registering mechanism. The crank 22 is ad'ustable by means of screws 25.

or the direct horizontal transmission of operative motion from the diaphragme to the valve mechanism I have shown two forms of construction. In the form of Fig. 1 I employ two partially-revolving shafts 26, which are supported near their ends in suitable bearings on projections 27, extending outwardly from the body portion. These shafts extend through the walls of side chambers or spaces 3 and 4 and through stuffing-boxes 28, located within said spaces 3 and 4. In this construction four stufiin boxes 28 are shown, two in each side cham er. Each shaft 26 is connected outside of the central chamber or the side chambers to the respective diaphragmplates 21 by means of brackets 29 and rockarrns 30, the latter being rigidly secured to the said shafts. Within the central chamber the shafts are connected up with crank-arm 23 by means of connecting links 31 and rocker-arms 32. In the form of Fig. 9 the shafts 26 are not extended through two walls of the side chambers. Consequently it is only necessary to employ one smiling-box in each side chamber. This form of Fig. 9 also differs somewhat from the form of Fig. I, in that each diaphragmlate is connected with each shaft by means o one bracket 29 and one rocker-arm 30. The stuffing-boxes in each ferm, however, are disposed within the side chambers or wings of the central chamber.

For the purpose of ermitting access to the interior of the centralpand side chambers and to the valve mechanism, operative parts, and

IOO

IIO

stuffing-boxes located in said. chambers I provide a door 33, attached to the body portion, as shown by Figs. 2 and 4.

Gas entering the inlet-passage 5 will ass to the respective compartments a an I) of measuring-chamber 15 and c and d of the measuring-chamber 16 through their

respective passages

7 and 8 and 9 and 10, and from said compartments through the said

assages

7, 8, 9, and 10 to the central cham er, and thence to outlet 6. The passage of the gas to and from the compartments of the measurin -chambers is controlled by the rotary va ve' 11, o erated .upon the ported valveseat 12. Tliie position of the arts, as shown by Fig. 1, is such that gas w1 l ass through passage 8 to compartment b and) escape from compartment d through passage 10 to the central chamber 2. The movements of the diaphragms caused by the pressure of gas thereon rock the shafts 26, and a rotary motion is imparted to the valve 11 through said rocker-shafts 26 and the intermediatemechanism. As stated above, the valve mechanism and other parts are so arranged as to provide for a displacement of a volume of gas from both sides of each diaphragm-plate with every revolution of the rotary valve.

What I claim is- 1. In a gas-meter, a body portion formed with a central chamber, side measuringchambers, a diaphra m in each measuringchamber, a rotary va ve mechanism located in the central chamber and between the diaphragme, a link connection located in the central chamber, and means comprising a rockin shaft connecting each diaphragm and the lin connection arranged to effect a horizontal transmission of operative ower from the diaphragms to the valve mec anism.

2. In a gas-meter, a body portion formed with a central chamber and two side chambers or wings, side measuring-chambers a diaphragm in each measurin -chamber, a rotary valve mechanism locate between the diaphragms,and means connecting the diaphragms and valve mechanism comprising, a rocking shaft extending into each side chamber or wing, and a stuH-in -box for each shaft located in each side cham er or Wing.

3. In a gas-meter, a body portion formed with a central chamber and side chambers or wings in communication with the central chamber, a rocking shaft in each side chamber side measuring-chambers, a diaphragm in each measuring-chamber, and a rotary valve mechanism located in the central chamber between the diaphragms and connected up with the rocking shafts.

4. In a gas-meter, a body portion having a central chamber, measuring-chambers, a diaphragm dividing each measuring-chamber mto an inner an an outer compartment, side chambers extending from the central chamber into the inner compartments of the measuring-chambers a rotary valve mechanism in the central chamber, and means comprising a rocking shaft connecting each diaphragm with the rotary valve mechanism.

5. In a as-Ineter, a central chamber, measuring-c iambers each divided by a diaphragm into two compartments, side chamers between the measuring-chambers and the central chamber, a rotar valve mechanism located in the central c amber between the diaphragms, and means connecting each diaphragm and valve mechanism com rising a rocking shaft extending into eac 'side chamber, and provided with a rock-arm within each side chamber, and a rock-arm within each inner compartment of the measuringchambers.

6. In a gas-meter, a body portion formed with a central chamber, side measuringchambers outside of the body portion,a diaphragm in each measuring-chamber, a rotary valve mechanism located 1n the central chamber and between the diaphragms, and means for ellecting a horizontal transmission of power from each diaphragm to the rotar valve mechanism comprising a rocking sha t and means connecting the rocking shaft and the valve mechanism.

In testimony whereof I affix my signature in presence of two subscribing witnesses.

SAMUEL E. CRAWFORD.

Witnesses:

W. G. DooLI'rTLE, MARGARET HUGHES.