US1060964A - Vacuum-cleaner. - Google Patents

Vacuum-cleaner. Download PDF

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US1060964A
US1060964A US71790312A US1912717903A US1060964A US 1060964 A US1060964 A US 1060964A US 71790312 A US71790312 A US 71790312A US 1912717903 A US1912717903 A US 1912717903A US 1060964 A US1060964 A US 1060964A
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pump
suction
piston
vacuum
valve
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US71790312A
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James T Atwood
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H33/00Bathing devices for special therapeutic or hygienic purposes
    • A61H33/0087Therapeutic baths with agitated or circulated water
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B49/00Control, e.g. of pump delivery, or pump pressure of, or safety measures for, machines, pumps, or pumping installations, not otherwise provided for, or of interest apart from, groups F04B1/00 - F04B47/00
    • F04B49/02Stopping, starting, unloading or idling control
    • F04B49/022Stopping, starting, unloading or idling control by means of pressure

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  • This invention relates to a vacuum cleaning outfit in which my improved valve is used to automatically control the maintenance ,of a vacuum by the suction pump.
  • a suction pump maintains a vacuum in a dust separating tank and distributing pipes are run from this tank to places of use, there being suitable stops at the end of each pipe.
  • the cleaning head is attached to one of these distributing pipes and the pump produces a vacuum necessary for its operation.
  • the pump is still maintaining a partial vacuum in the tank.
  • the object of this invention is to provide a ,valve to be located in the connection be tween the pump and tank that will automatically shut off the connection between said pump and tank, when a maximum vacuum has been reached in the tank, and allow the pump to work idly, that is, draw in simply free air. Also when the vacuum in the tank falls to a certain point below the maximum, that is, when the vacuum is being used again, said connection will be shut off.
  • Figure 1 is a side elevation of a vacuum cleaning outfit,- the valve being located on the connection between the pump andtank.
  • Fig. 2 is a central vertical sectional view through the valve, showing the n0rmalposition of the piston, with a clear passage from the pump to the tank.
  • Fig. 3 is a similar section, the
  • Fig. 4 is a section on the line H of Fig. 3, the piston being shown in elevation.
  • Fig. 5 is a horizontal section on the line 55 of Fig. 2.
  • the valve may be applied to any vacuum cleaning outfit, and I have shown such an outfit comprising, a suction pump 32 having suitable driving means, said pump discharging into the receptacle 33, a connection 34. leading from the pump to a dust separating tank 35, having a distributing pipe 36 to which may be attached a plurality of branch pipes with which connection may be made to a cleaning head, and the valve mounted on the "connection 34 as shown.
  • the valvev is formed of a vertical cylindric'al body 1 inclosing the piston chamber 2, having a bot-tom with an opening 3, and a flanged upper portion 1% on which is placed a gasket, and a top plate 6 adapted to be bolted to said flange portion.
  • Two laterally extending and oppositely located coupling extensions 7 and 8 are formed with the body 1, and have internally threaded portions 9 forming compartments 10 and 11 res ectively.
  • ppositely located rectangular ports 12 and 13 connect compartments 10 and 11 with the piston chamber 2.
  • the vertical passage 14 extends from the compartment 10 and communicates with the upper portion of the chamber 2.
  • lateral extension 37 Located below and at right angles to extensions 7 and 8, is the lateral extension 37 having an internally threaded portion and an opening 15 into the chamber 2.
  • the piston 16 is adapted to'fit in the piston chamber, has an upper compartment 17 having ports registering with ports 12 and 13; a lower compartment 18 having an open bottom and a port to register with port 13, and has extending from the dividing wall 20, a piston rod 21 which passes through opening 3, and has attached at its lower end, a weight 22.
  • a boss 23 is formed on the side of the body 1 .and carries an adjusting screw 24.
  • Notches 25 and 26 are cut-in the sides of the piston opposite the upper and lower chambers 17 .and 18', and a ball 25 is adapted to be held in engagement therein by the spring 28 resting against Formed in one side of the piston 16, is the longitudinal key-way 30, which is adapted to engage a key 31 screwed through the body 1, said key preventing the piston from turning.
  • the vacuum in the tank may fall a few do rees accordin to the adjusted pressure 0 the ball 27 In the notch 25, but when for any reason, the vacuum falls below this point, the weight causes the piston to drop, thereby allowing the pump to produce its normal vacuum in the tank.
  • the action of the ball 27 when the piston is raised serves to hold the piston until the vacuum in the tank dcoreases a few points below the maximum, or about its normal vacuum, before the piston will fall. It will be seen that if it were not for this holding means, the piston would fall at the least decrease in the maximum vacuum, also in rising, without any such holding means, the piston would work very irregularly and often remain in a neutral position.

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  • Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Rehabilitation Therapy (AREA)
  • Pain & Pain Management (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Veterinary Medicine (AREA)
  • Epidemiology (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Compressors, Vaccum Pumps And Other Relevant Systems (AREA)

Description

J. T. ATWOOD. VACUUM CLEANER.
APPLIOATION FILED AUG.30, 1912.
1,060,964. Patented May 6, 1913.
2 SHEETS-SHEET I.
JAMES 'I. ATWOOD, OF ROCKFORD, ILLINOIS.
VACUUM-CLEANER.
Specification of Letters Patent.
Patented May 6, 1913.
Applicationflled August 80, 1912. Serial No. 717,903.
To all whom it may concern:
Be it known that I, JAMES T. A'rwooo, a citizen of the United States, residing at Rockford, in the county of Winnebago and the State of Illinois, have invented certain new and useful Improvements in Vacuum- Cleaners, of which the following is a specification.
This invention relates to a vacuum cleaning outfit in which my improved valve is used to automatically control the maintenance ,of a vacuum by the suction pump.
In a vacuum cleaning outfit, a suction pump maintains a vacuum in a dust separating tank and distributing pipes are run from this tank to places of use, there being suitable stops at the end of each pipe. When in operation, the cleaning head is attached to one of these distributing pipes and the pump produces a vacuum necessary for its operation. When the cleaning head is disengaged and is being transferred to another distributing pipe, or the operator wishes to discontinue his .work for a short time, the pump is still maintaining a partial vacuum in the tank. In devices now in use, a common spring safety-valve is placed in the tank, so that after the vacuum has reached a maximum degree, the safety-valve will open, allowing air to be taken in, thus the pump never produces more vacuum than the maximum, to which the safetyvalve is set. It will be seen that with this construct-ion, the pump'is producing a partial vacuum at all times while running, either at the normal operating suction or at the maximum suction.
The object of this invention is to provide a ,valve to be located in the connection be tween the pump and tank that will automatically shut off the connection between said pump and tank, when a maximum vacuum has been reached in the tank, and allow the pump to work idly, that is, draw in simply free air. Also when the vacuum in the tank falls to a certain point below the maximum, that is, when the vacuum is being used again, said connection will be shut off.
In the accompanying drawings: Figure 1 is a side elevation of a vacuum cleaning outfit,- the valve being located on the connection between the pump andtank. Fig. 2 is a central vertical sectional view through the valve, showing the n0rmalposition of the piston, with a clear passage from the pump to the tank. Fig. 3 is a similar section, the
piston being shown'raised. Fig. 4 is a section on the line H of Fig. 3, the piston being shown in elevation. Fig. 5 is a horizontal section on the line 55 of Fig. 2.
The valve may be applied to any vacuum cleaning outfit, and I have shown such an outfit comprising, a suction pump 32 having suitable driving means, said pump discharging into the receptacle 33, a connection 34. leading from the pump to a dust separating tank 35, having a distributing pipe 36 to which may be attached a plurality of branch pipes with which connection may be made to a cleaning head, and the valve mounted on the "connection 34 as shown.
The valvev is formed of a vertical cylindric'al body 1 inclosing the piston chamber 2, having a bot-tom with an opening 3, and a flanged upper portion 1% on which is placed a gasket, and a top plate 6 adapted to be bolted to said flange portion. Two laterally extending and oppositely located coupling extensions 7 and 8 are formed with the body 1, and have internally threaded portions 9 forming compartments 10 and 11 res ectively.
ppositely located rectangular ports 12 and 13 connect compartments 10 and 11 with the piston chamber 2. The vertical passage 14 extends from the compartment 10 and communicates with the upper portion of the chamber 2. v
Located below and at right angles to extensions 7 and 8, is the lateral extension 37 having an internally threaded portion and an opening 15 into the chamber 2.
The piston 16 is adapted to'fit in the piston chamber, has an upper compartment 17 having ports registering with ports 12 and 13; a lower compartment 18 having an open bottom and a port to register with port 13, and has extending from the dividing wall 20, a piston rod 21 which passes through opening 3, and has attached at its lower end, a weight 22. A boss 23 is formed on the side of the body 1 .and carries an adjusting screw 24. Notches 25 and 26 are cut-in the sides of the piston opposite the upper and lower chambers 17 .and 18', and a ball 25 is adapted to be held in engagement therein by the spring 28 resting against Formed in one side of the piston 16, is the longitudinal key-way 30, which is adapted to engage a key 31 screwed through the body 1, said key preventing the piston from turning.
The operation of the valve will be seen from the following: When the use of the vacuum from the tank is discontinued for any reason, the vacuum in said tank will increase above the normal until a maximum vacuum is reached, which will, through passage 14, lift the piston against the action of the weight 22 and the ball located in the notch 26, until the ball 27 engages in notch 25 as in Fig. 3. Communication between the ports 12 and 13, (the pump and tank) is now cut oil and a passage openedthrough port 13, lower compartment 18 and port 15 leading to the outer air, (the pump and the outer air) thus allowing the pump to work idly, drawing in unobstructed air. The vacuum in the tank may fall a few do rees accordin to the adjusted pressure 0 the ball 27 In the notch 25, but when for any reason, the vacuum falls below this point, the weight causes the piston to drop, thereby allowing the pump to produce its normal vacuum in the tank. The action of the ball 27 when the piston is raised, serves to hold the piston until the vacuum in the tank dcoreases a few points below the maximum, or about its normal vacuum, before the piston will fall. It will be seen that if it were not for this holding means, the piston would fall at the least decrease in the maximum vacuum, also in rising, without any such holding means, the piston would work very irregularly and often remain in a neutral position.
I claim as my invention:
1. The combination of an airsuction pump, a separating tank, a distributing pipe leading therefrom, a connection between the pump and tank, a valve located in said con nection, an air-opening leading from the valve, said valve adapted to close the con.- nection between the pump and tank when a maximum vacuum has been reached in said tank, and simultaneously open said air-open ing, thereby allowing the pump to draw in free air. I
2. The combination of an airsuction pump, a separating tank, a distributing pipe leading therefrom, a connection between the pump and tank, a valve located insaid connection, said pump adapted to maintain a normal vacuum in said tank, said valve adapted to automatically close the connection between the tank and, pump when a maximum vacuum is produced in the tank.
3. The combination of an airsuction pump, a separating tank, a distributing pipe leading therefrom, a connection between the pump and tank, a valve located in said connect1on,- said pump adapted to maintain a normal vacuum in said tank, said valve adapted to automatically close the connection between the tank and pum when a maximum is produced in the tan an airopening leading from the valve adapted to be simultaneously connected with the pum when said connection is closed, thereby a lowing the pump to run idly, drawing in un obstructed air.
4:. The combination of an air-suction pump, a separating tank, a distributing pi e leading therefrom, a connection between t e pump and tank, the pump adapted to create a partial vacuum in said tank, a valve suitably located so that should the vacuum in said tank reach a predetermined point, said valve would automatically close the connection between the pump and tank, and simultaneously cause the pump to draw in free air, thus running with little exertion.
5. The combination of an air-suction pump, a valve having a suitable exhaust passage communicating therewith, suction and air intakes, said valve adapted to automatically close said suction exhaust passage and connect said air-intake with the pump, thereby allowing the pump to take in free air.
6. The combination of an air-suction pump, a separating tank, a valve having a port communicating with the suction pump, a port communicating with the tank, and an air-intakeport, means for opening and closing a passage between the ports communicating with the pump and tank, and means for opening and closing a passage between the ports communicating with the pump and the air-intake.
-- 7. The combination of an air-suction pump, suction means leading thereto, the pump adapted to maintain a partial vacuum in said suction means, a valve located on said suction means, an air-opening leading from the valve, said valve adaptedto automatically close the passage between the pump and suction means when the vacuum in the suction means has reached a predetermined point, and simultaneously open a passage between said air-opening and pump.
8.. The combination of an air-suction pump, a suction connection leading thereto, the pump adapted to maintain a partial vacuum therein, and a valve located on said suction connectioncomprising, a body portion having ports communicating with the pump and suction connection, and an air-intake port, apiston located in the valve and adapted to form a passage connecting the suction and pump ports, and means for automatically operating said piston, thereby closing said suction and pump passage and simultaneously forming a passage between the airintake port and pump.
9. The combination of an air-suction pump, a suction connection, a valve located 30 thereon, comprised of a casing having ports communicating with the pump and suction connection, an air-intake port, a piston located in the casing. and having an upper and lower compartment, the upper compartment having ports opening into said pump and suction connection ports, and the lower compartment having a port adapted to open to be raised by the suction through said by.-
pass, whereby said suction-intake and exhaust ports are closed and a passage formed by the piston connecting the suction-exhaust andair-intake ports, and a connection between the pump and valve. 1
11. The combination of an air-suction pump, a suction connectionvleading thereto, a valve located therein, comprising, a body portion having ports communicating with the pump and suction connection, and an air-intake port, a piston located in the valve and adapted to form a passage connecting the suction and pump ports, yieldable means engaging the piston, and means for autoinatically raising the piston whereby the yieldable means are disengaged from the piston and said passage closed.
12. The combination of an air-suction pump, a suction connection leading thereto, a valve located therein, comprising, a body portion havin ports communicating with the pump an suction connection, and an air-intake port, a piston located in the valveand adapted to form'a passage connecting the suction and pump ports, means for automatically raising the piston, and yieldable means adapted to engage the piston whenin its raised positio'n, the piston when in this position forming a passage between the pump and air-intake ports.
13. The combination of an air-suction pump, a suction connection leading thereto, a valve located therein, comprising, a body portion having ports communicating with the pump and suction connection, and an air-intake port, a piston located in the valve and adapted to form a passage connecting the pump and suction ports, a weight secured to the,piston, yieldable means engaging the piston, and means for automatically raising the piston against the action ofthe weight and engaging means.
1 4. The combination of an air-suction pump, a suction connection leading thereto, a valve located therein, comprising, a body portion having ports communicating with the pump and suction connection, and an air-intake port, a piston located in the valve and adapted to form 'a passage connecting the pump and suction ports, a weight secured to the piston, means for automatically raising the piston, and yieldable means adapted toengage the piston when in its raised position.
15. The combination of an air-suction pump, a suction connection leading thereto, a valve located therein, comprising, a body portion having ports communicating with the pump and suction connection, and .an air-intake port, a piston located in the valve and adapted to forma passage connecting the pump and suction ports, a weight secured to the piston, means for automatically raising the piston, and yieldable means adapted to engage the piston when in its raised position, thepiston adapted to fall when the power of said raisin means has decreased sufiiciently to allow t e weight to "overcome saidyielding means engaging the piston. Y
. In testimony whereof I have hereunto set myhand presence of two subscribing witnesses.
, w JAMES T. ATWOOD. Witnesses:
' A. 0. Emma,
I JSE'rH B. Arwoon.
US71790312A 1912-08-30 1912-08-30 Vacuum-cleaner. Expired - Lifetime US1060964A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2556623A (en) * 1946-03-26 1951-06-12 Lipkau Maximiliano Alvarez Means for automatically opening and closing a compressor intake

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2556623A (en) * 1946-03-26 1951-06-12 Lipkau Maximiliano Alvarez Means for automatically opening and closing a compressor intake

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