US1248972A - Pulp-feed regulator. - Google Patents

Pulp-feed regulator. Download PDF

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US1248972A
US1248972A US18933417A US1248972A US 1248972 A US1248972 A US 1248972A US 18933417 A US18933417 A US 18933417A US 1248972 A US1248972 A US 1248972A
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Prior art keywords
pulp
air
container
pressure
feed
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Expired - Lifetime
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Isaac J Witham
George E Mayo
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21FPAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
    • D21F1/00Wet end of machines for making continuous webs of paper
    • D21F1/08Regulating consistency
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7736Consistency responsive
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/7722Line condition change responsive valves
    • Y10T137/7758Pilot or servo controlled
    • Y10T137/7762Fluid pressure type

Definitions

  • This invention relates to an improved device for regulating and controlling the flow of liquid and semi-liquid pulp, and is especially adaptable for regulatlng the flow chests onto a- Fourdrinier screen.
  • the object of the invention is to control the feed of the pulp according to its density, or consistency, whereby variations are compensated for by a greater or less amount of pulp fed, so that no matter what the roportion of solid and water in the pn p, the
  • a further object of the invention is to provide an improved means for measuring the density of the pulp.
  • Our invention as used, for instance, in the manufacture of paper, comprises an air container, open to the pulp on the lower side only, rigidly suspended in the stufi' box.
  • the air container is connected with a source -of compressed air from which it is kept conrttl b ll
  • a second air pipe communicating with the container and connected with an air-operated mechanism for opening and closing the valve controls the feed from the stuff box to the Fourdrinier screen.
  • FIG. 1 is a plan view of a stud box equipped with a practical embodiment of our device; and F1g. 2 is a side view partly in section and partly in elevation of the construction shown in Fig. 1.
  • 1 is a pulp supply pipe, connected, as usual, with a pump (not shown) through which the stufi' box 2 is kept constantly supplied.
  • the stufl' box 2 is provided with an overflow 3 from which excess pulp is led back to the source of supply through pipe 4, the level of the pulp in the box always remaining uniform, irrespective of the amount of pulp being used, in order to maintain a constant pressure within the box.
  • the stufi' box 2 is further rovided a valve gate 7 supported on arms 8 secured to shaft 9 journaled in bearings 10 onthe supports 11 carried by the stufi' feed box. In the present instance we have shown the gate adapted to be rocked downwardly to open the feed opening 6, and to be raised to close it.
  • the gate 7 is operated by a rod 12 the lower end of which is pivotally connected with a cross-bar 14 connected to the arms 8 which support the gate.
  • the rod 12 at its upper end is secured at 15 to the end of a lever 16 havin its opposite end fulcrumed on a support suitably connected to the frame of the pulp box.
  • the connection 15 if desired may be adjustable on the rod 12.
  • the means for controlling movement of the lever 16 to operate the valve-gate is a diaphragm 18, which may be of known construction, and to which is secured a connect ing rod 19 slidably supported by a frame 20 and pivotally connected to lever 16 as at 21.
  • Beneath the diaphragm 18 is an air chamber 23 with which communicates an air pipe 22 leadin from an air container 24 rigidly suspen ed in the stuff box 2 by means of suitable supports 25.
  • the air container 24 as of inverted cone form and open at the ,bottom, although p A pipe 26, provlded with a valve 27, and connected with a source of air supply, not shown, leads to the interior of the air container.
  • air under uniform pressure is constantly supplied to the container.
  • the air pressure in the container prevents it from eing filled by the pulp, while air is permitted to constantly escape through the open bottom of the container into the pulp.
  • pulp of various densities will offer more or less resistance to the escape of air, a varying pressure in the air container will result which will in turn. be communicated to the air chamber 23 and act on the diaphragm 18 to rock lever 16 to operate the ate.
  • pulp of normal consistency is introduced into the stufl? feed box.
  • Air is then supplied through pipe 26 t0 the air container 24 to create a proper pressure therein to operate diaphragm 18 sufiiciently to rock lever 16 to open gate 7, the latter moving downwardly, to feed a proper stream'of pulp of normal density to produce the desired thickness of paper.
  • the necessary pressure to keep the gate opened the desired distance having been determined this pressure is maintained, and introduction of air at this pressure is then continued.
  • a ny excess air in the container will escape therefrom through the pulp. If the pulp gets thinner the air will escape from the container more freely and the pressure in the container and beneath the diaphragm 18 will accordingly decrease the Weight of lever 16 causing it to rock slightly downward to open the gate 7 to a greater extent so that more pulp is fed. "If the density of the pulp increases, its resistance to the escape of the air also increases and a greater pressure results in the air containerj24 and beneath the diaphragm 18, with the result that the lever 16 is moved upwardly to close the valve. For varying the thickness ofthe paper the amount of air supplied to the air chest 2% can be varied, or the connection 15 adjusted on rod 12.
  • gage 30 By placing a gage 30, preferably a recording gage of any kind well known inthe art, in communication with the pressure in the air container, as by connecting it to pipe 22, the density of the pulp may be noted and recorded, the dial of the gage being appropriately marked to indicate in terms of density.
  • I 1 In a pulp feed receptacle, an air container within said receptacle connected with a source of supply, the pressure in said container being controlled by the density of the opening through which air may escape to the pulp in said receptacle, controlled by the pressure in said container for recording the density of the pulp.
  • a pulp receptacle having a feed opening, a valve for controlling said opening, an air container suspended in said pulp receptacle, and means operated by the air pressure in said container for efiecting the movement of said valve.
  • a pulp receptacle having a feed opening, a valve for controlling said opening, an air container connected with a source of air supply and suspendedin said receptacle, the latter having an outlet to permit escape of the air into the pulp in said receptacle, and means operated by the pressure in said container for effecting the movement of said valve.
  • a pulp feed receptacle having a feed opening, a valve for controlling said opening, an air container within said receptacle connected with a source of air supply and having an outlet for the escape of air into the pulp, a member adapted to be operated by variations of pressure in said .air container, and a lever connected with said member and said valve for efiecting the movement of the valve.
  • a pulp feed receptacle having a feed opening, a Valve for controlling said opening, an air container within said receptacle connected with a source of air supply and having an outlet for the escape of air into the pulp, an air chamber having communication with said air container, a diaphragm in said chamber adapted to be operated by variations of pressure in said air container, and a lever connected with said diaphragm and said valve for effecting the movement of the valve.

Description

If. I. WITHAM & G. E. MAYO.
PULP FEED REGULATOR. APPLICATION man SEPT. 1. 1911.
Patented Dec 4, 1917/.
ow .flmac Jflfizm mm eorye Z: Jim
lltl
of paper pulp from stuff boxes or t n tins ranrrr T$MC J WITHAIVI AND GEORGE E. MAYO, 0F CI-IEBOYGAN, MICHIGAN.
PULP-FEED REGULATOR.
raaaara.
Specification of Letters Patent.
Patented Dec. 4, T911 t.
Application filed September 1, 1917. Serial No. 189,334.
To all whom it may concern:
Be it known that we, TsAAo J. WITHAM and GEORGE E. MAYO, both citizens of the United States, and both residing at Gheboygan, in the county of Cheboygan and State of Michigan, have invented certain new and useful Improvements in Pulp-Feed Regulators, of which the following is a specificatlon.
This invention relates to an improved device for regulating and controlling the flow of liquid and semi-liquid pulp, and is especially adaptable for regulatlng the flow chests onto a- Fourdrinier screen.
The object of the invention is to control the feed of the pulp according to its density, or consistency, whereby variations are compensated for by a greater or less amount of pulp fed, so that no matter what the roportion of solid and water in the pn p, the
amount of solid material being fed is the same. This result is especially useful in the manufacture of paper where the stream of pulp delivered to the Fourdrinier screen must contain the same amount of fibrous material irrespective of the density of the pulp in order to insure proper thickness of the finished product.
A further object of the invention is to provide an improved means for measuring the density of the pulp.
Our invention as used, for instance, in the manufacture of paper, comprises an air container, open to the pulp on the lower side only, rigidly suspended in the stufi' box.
The air container is connected with a source -of compressed air from which it is kept conrttl b ll
stantly supplied. The pulpv is prevented from entering the contalner by reason of the airpress'ure therein, while air is allowed to continually escape from the bottom of the container into the pulp. A second air pipe communicating with the container and connected with an air-operated mechanism for opening and closing the valve controls the feed from the stuff box to the Fourdrinier screen. As pulp of varying density ofi'er's greater or less resistance to the escape of air.
from the container, pressure in the container will be less or great and this pressure will be communicated'to the air-controlled valveoperating device to close or open the valve.
In the accompanying drawings, which show our invention in use in connection with paper stufi feeding mechanism, Figure it may be of other shape.
1 is a plan view of a stud box equipped with a practical embodiment of our device; and F1g. 2 is a side view partly in section and partly in elevation of the construction shown in Fig. 1.
In the drawings, 1 is a pulp supply pipe, connected, as usual, with a pump (not shown) through which the stufi' box 2 is kept constantly supplied. The stufl' box 2 is provided with an overflow 3 from which excess pulp is led back to the source of supply through pipe 4, the level of the pulp in the box always remaining uniform, irrespective of the amount of pulp being used, in order to maintain a constant pressure within the box. The stufi' box 2 is further rovided a valve gate 7 supported on arms 8 secured to shaft 9 journaled in bearings 10 onthe supports 11 carried by the stufi' feed box. In the present instance we have shown the gate adapted to be rocked downwardly to open the feed opening 6, and to be raised to close it.
The gate 7 is operated by a rod 12 the lower end of which is pivotally connected with a cross-bar 14 connected to the arms 8 which support the gate. The rod 12 at its upper end is secured at 15 to the end of a lever 16 havin its opposite end fulcrumed on a support suitably connected to the frame of the pulp box. The connection 15 if desired may be adjustable on the rod 12.
The means for controlling movement of the lever 16 to operate the valve-gate is a diaphragm 18, which may be of known construction, and to which is secured a connect ing rod 19 slidably supported by a frame 20 and pivotally connected to lever 16 as at 21. Beneath the diaphragm 18 is an air chamber 23 with which communicates an air pipe 22 leadin from an air container 24 rigidly suspen ed in the stuff box 2 by means of suitable supports 25. We have shown the air container 24 as of inverted cone form and open at the ,bottom, although p A pipe 26, provlded with a valve 27, and connected with a source of air supply, not shown, leads to the interior of the air container. By this means air under uniform pressure is constantly supplied to the container. The air pressure in the container prevents it from eing filled by the pulp, while air is permitted to constantly escape through the open bottom of the container into the pulp. As
pulp of various densities will offer more or less resistance to the escape of air, a varying pressure in the air container will result which will in turn. be communicated to the air chamber 23 and act on the diaphragm 18 to rock lever 16 to operate the ate. g In operation, pulp of normal consistency is introduced into the stufl? feed box. Air is then supplied through pipe 26 t0 the air container 24 to create a proper pressure therein to operate diaphragm 18 sufiiciently to rock lever 16 to open gate 7, the latter moving downwardly, to feed a proper stream'of pulp of normal density to produce the desired thickness of paper. The necessary pressure to keep the gate opened the desired distance having been determined this pressure is maintained, and introduction of air at this pressure is then continued. A ny excess air in the container will escape therefrom through the pulp. If the pulp gets thinner the air will escape from the container more freely and the pressure in the container and beneath the diaphragm 18 will accordingly decrease the Weight of lever 16 causing it to rock slightly downward to open the gate 7 to a greater extent so that more pulp is fed. "If the density of the pulp increases, its resistance to the escape of the air also increases and a greater pressure results in the air containerj24 and beneath the diaphragm 18, with the result that the lever 16 is moved upwardly to close the valve. For varying the thickness ofthe paper the amount of air supplied to the air chest 2% can be varied, or the connection 15 adjusted on rod 12.
By placing a gage 30, preferably a recording gage of any kind well known inthe art, in communication with the pressure in the air container, as by connecting it to pipe 22, the density of the pulp may be noted and recorded, the dial of the gage being appropriately marked to indicate in terms of density.
From what has been stated it is obvious that our device may be used in connection with the feeding of substances other than paper pulp with equal success.
We claim as our invention:
I 1. In a pulp feed receptacle, an air container within said receptacle connected with a source of supply, the pressure in said container being controlled by the density of the opening through which air may escape to the pulp in said receptacle, controlled by the pressure in said container for recording the density of the pulp.
3. In a pulp feed regulator, a pulp receptacle having a feed opening, a valve for controlling said opening, an air container suspended in said pulp receptacle, and means operated by the air pressure in said container for efiecting the movement of said valve.
4. In a pulp feed regulator, a pulp receptacle having a feed opening, a valve for controlling said opening, an air container connected with a source of air supply and suspendedin said receptacle, the latter having an outlet to permit escape of the air into the pulp in said receptacle, and means operated by the pressure in said container for effecting the movement of said valve.
5. In a pulp feed regulator, a pulp feed receptacle having a feed opening, a valve for controlling said opening, an air container within said receptacle connected with a source of air supply and having an outlet for the escape of air into the pulp, a member adapted to be operated by variations of pressure in said .air container, and a lever connected with said member and said valve for efiecting the movement of the valve.
6. In a pulp feed regulator, a pulp feed receptacle having a feed opening, a Valve for controlling said opening, an air container within said receptacle connected with a source of air supply and having an outlet for the escape of air into the pulp, an air chamber having communication with said air container, a diaphragm in said chamber adapted to be operated by variations of pressure in said air container, and a lever connected with said diaphragm and said valve for effecting the movement of the valve.
In testimony whereof we have hereunto subscribed our names.
ISAAC J. WITHAM. GEORGE E. MAYO.
US18933417 1917-09-01 1917-09-01 Pulp-feed regulator. Expired - Lifetime US1248972A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2934141A (en) * 1955-11-02 1960-04-26 Valmet Oy Apparatus for feeding paper pulp at a continuous rate into a paper making machine
US2934142A (en) * 1955-06-14 1960-04-26 Valmet Oy Method and apparatus for feeding substantially gas-free paper pulp into a paper making machine

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2934142A (en) * 1955-06-14 1960-04-26 Valmet Oy Method and apparatus for feeding substantially gas-free paper pulp into a paper making machine
US2934141A (en) * 1955-11-02 1960-04-26 Valmet Oy Apparatus for feeding paper pulp at a continuous rate into a paper making machine

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