EP0922204A1 - A dosage device - Google Patents

A dosage device

Info

Publication number
EP0922204A1
EP0922204A1 EP97934839A EP97934839A EP0922204A1 EP 0922204 A1 EP0922204 A1 EP 0922204A1 EP 97934839 A EP97934839 A EP 97934839A EP 97934839 A EP97934839 A EP 97934839A EP 0922204 A1 EP0922204 A1 EP 0922204A1
Authority
EP
European Patent Office
Prior art keywords
receptacle
arrangement
pump
connection
pump chamber
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP97934839A
Other languages
German (de)
English (en)
French (fr)
Inventor
Sören Joelsson
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP0922204A1 publication Critical patent/EP0922204A1/en
Withdrawn legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D11/00Control of flow ratio
    • G05D11/006Control of flow ratio involving a first fluid acting on the feeding of a second fluid

Definitions

  • a dosage device A dosage device
  • This invention relates to a device for dosage of a substance to a fluid present in a vessel, said device comprising a dosage arrangement having a receptacle for the substance and being provided to deliver the substance from the receptacle to the vessel.
  • the substance in question may be of any kind, even if the substance normally is a liquid. As examples may cleaning agent, disinfectant, etc. be mentioned.
  • the fluid present in the vessel is normally intended to consist of water but also other fluids are possible for the purpose.
  • the invention as mentioned above includes other areas of application, the invention is intended to be used primarily within the field of cleaning, the substance consisting of cleaning agents, disinfectants, etc.
  • the dosage is generally at present accomplished in a way that the staff engaged in the cleaning operation manually measure the volume of the substance that is required to a certain quantity of fluid.
  • the purpose of the present invention is to further develop prior art so as to make the dosage device able to have a proportionately simple and uncomplicated constitution with a maintained good accuracy concerning the dosage of the substance.
  • the defined embodiment, according to claim 1 of the dosage device involves that the substance that is to be dosed is sup- plied from the receptacle to the pump chamber via a connection arrangement.
  • This supply is interrupted when the pump chamber is filled up.
  • the pump member is arranged to be actuated for emptying the pump chamber via the communication arrangement by means of a floating body arranged to be lifted by the fluid in the vessel.
  • the refilling of fluid into the vessel itself will give rise to lifting of the floating body, which in turn means actuating of the pump member in a way that the same drains the pump chamber by forcing the present substance therein to flow out into the vessel via the communication arrangement.
  • the receptacle is dis- mountable from the pump arrangement and the connection arrangement includes a connection that comprises a valve ar- rangement on the receptacle, said valve arrangement being provided to open the connection when mounting the receptacle on to the pump arrangement and close the connection when dismounting the receptacle from the pump arrangement.
  • connection arrangement comprises a second connection arranged to admit air into the receptacle from the pump chamber when substance is discharged from the receptacle to the pump chamber.
  • the first and the second connections of the connection arrangement lead into the pump chamber in the upper part thereof.
  • the mouth of a second connection into the pump chamber is located at a level below a mouth of the communication arrangement out of the pump chamber.
  • the second connection presents an upper end located in the upper part of the receptacle, in addition to which the upper end of the second connection presents a valve provided to close the connection when the receptacle, dismounted from the pump arrangement, is turned over compared to when the receptacle is mounted onto the pump arrangement.
  • the valve will avoid that the substance may flow into the second connection and through the same when the receptacle is turned over. Such inflow would otherwise involve unintentional outflow of the substance and accordingly considerable waste when the receptacle is turned back to the position the receptacle has when it is mounted on the pump arrangement.
  • the receptacle has an opening for refilling located at the top thereof when the receptacle is turned over relative to when the same is mounted to the pump arrangement. This feature implies that the user with certainty will observe if a closing cover that belongs to the opening for refilling would not fit tight when the receptacle is turned back to its mounted position on the pump arrangement. Since tightness is necessary so as to achieve automatic closing of the inflow of substance into the pump chamber from the receptacle when the level of sub- stance in the pump chamber reaches the mouth of the second connection inside the pump chamber.
  • a laterally sealing elastic sleeve is provided in the chamber, which at one end connects circumferentially to the pump member and at a second end connects to the casing of the pump arrangement so as to enclose a volume connected to the connection arrangement and the communication arrangement.
  • Fig 1 is a perspective view of the device according to the invention with the receptacle of the dosage arrangement alienated from the pump arrangement,
  • Fig 2 is a perspective view illustrating the receptacle obliquely from below
  • Fig 3 is a partly cut lateral view of the device in a larger scale
  • Fig 4 is a partly cut view of the device seen from one of the sides in Fig 3.
  • the device illustrated in Fig 1 and 2 for dosage of a substance comprises a frame generally denoted 1.
  • This frame 1 presents means 2 for applying the frame to a not shown vessel.
  • the ves- sel in question may for example be a bucket or the like.
  • the means 2 is more precisely formed to enable applying the frame 1 so that the frame will be located at least substantially inside the vessel.
  • the applying means 2 may be constituted of one or more hooks or crooks, by means of which the frame 1 may be hooked up on an edge portion of the vessel.
  • the frame 1 may be formed by other means for fixing of the same to a vessel.
  • a dosage device is applied on the frame 1 , said device compris- ing a receptacle 3 for a substance which is to be dosed, said device being arranged to deliver this substance from the receptacle to the vessel.
  • the dosage arrangement comprises further a pump arrangement, generally denoted 4, said pump arrangement having a pump chamber 5 and a pump member 6 for varying the volume therein.
  • the pump chamber 5 and the interior of the receptacle 3 are in connection to each other via a connection arrangement, generally denoted 7, provided to supply the substance from the receptacle 3 to the pump chamber 5, but, when the pump chamber is filled up, interrupt the supply- ing.
  • the pump chamber 5 and the volume of the enclosing vessel communicate with each other through a communication arrangement, generally denoted 8.
  • said arrangement presents at least one and, in the example, two openings 9 that communicate between the pump chamber 5 and the surroundings.
  • the pump member 6 is adapted to be actuated, by means of a floating body 10 arranged to be lifted by the fluid in the vessel, to drain the pump chamber 5 via the communication arrangement 8.
  • the pump member 6 and the floating body 10 are integrated to one and the same part forming a hollow float.
  • the pump member 6 might be formed as a separate part while the floating body 10 is formed as another separate part and arranged to act force effecting on the pump member via some suitable transmission, lever or the like.
  • the pump member 6 is movably received in a casing, denoted 11 , of the pump arrangement 4.
  • This casing has in the upper part a tight closing lateral wall 12 so that the top part of the casing 11 forms a cylinder, inside which the pump member 6, formed as a piston, is movable forwards and backwards.
  • the casing 1 1 has one or more openings 13 which for the fluid present in the vessel give entrance to the interior of the casing 11 , said fluid thereby being able to exert a lifting effect on the floating body 10.
  • the receptacle 3 is provided at a level above the pump cham- ber 5 so as to supply fluid to the same by way of the gravitation.
  • connection arrangement 7 presents a first connection 14, which includes a valve arrange- ment 15 onto the receptacle 3.
  • This valve arrangement is adapted to open the connection 14 when mounting the receptacle 3 onto the pump arrangement 4 and close the connection when dismounting the receptacle from the pump arrangement.
  • the casing 1 1 of the pump arrangement 4 is closed in the upper part by means of a cover, denoted 16.
  • This cover 16 is fixed advisably at the wall 12 of the casing 1 1 with means of screws or other suitable fixing means 17.
  • connection arrangement 7 comprises a second connection 18 provided to admit air from the pump chamber 5 into the receptacle 3 when substance is discharged from the receptacle 3 to the pump chamber 5.
  • the first and the second connections 14, 18 of the connection arrangement 7 lead into the pump chamber 5 in the upper part thereof. More precisely, the connections 14, 18 extend through the cover 16.
  • the receptacle 3 and the casing 1 1 to be precise its cover 16, of the pump arrangement present with each other engaging portions 19, 20.
  • These portions are, in the example, adapted to engage each other in a female/male manner. Even if the male portion could be formed on the cover 16 and the female portion formed on the receptacle 3, in the example, the arrangement is the inverted, i.e. that a male-like portion 20 on the receptacle is projecting into a female-like seating 19 formed in the cover 16.
  • one or more sealing members 21 may be provided to seal between the portions 19, 20.
  • the sealing member 21 may, for example, consist of an O-ring placed into a groove, along the perimeter, in one of or in both of the portions 19, 20.
  • connections 14, 18 are formed extending through the cover 16 and the male-like end portion 20 of the receptacle 3.
  • the valve arrangement 15 comprises in the example a tubular valve element 22, said valve element being movably received in a cage 23 formed in the part, generally denoted 24, of the receptacle 3 for connection to the pump arrangement 4.
  • This valve element 22 is effected by at least one spring 25 in the di- rection against its position, illustrated in Fig 2, in which position the valve element 22 closes against discharge of substance from the receptacle. More precisely, in the closing position of the valve element 22, one in the valve element 22 formed, laterally directed opening 26 is in overlapping within a cylindrical section of the cage 23 so as to, accordingly, substance from the interior of the receptacle 3 is not able to flow into the tubular interior of the valve element 22 via the opening 26.
  • the spring 25 is in the example a helical press spring located in a room outside of the valve element 22 but inside the cage 23.
  • the spring acts between a support 27 relative to the cage 23 and a support 28 relative to the valve element 22 so that the spring thus will project out the valve element 22 so that the end of the valve element extends outside the end surface 29 of the projection 20 of the receptacle 3.
  • a flange 30 or another stop member at the rear end of the valve element 22 is stopping the outward movement of the valve element by supporting against the end of the cage 23 which end is directed towards the interior of the receptacle.
  • valve element 22 When the valve element 22 is pressed in against the action of the spring 25 the opening 26 of the valve element will establish communication between the interior of the receptacle 3 and the tubular interior of the valve element 22 so that the substance may flow through the valve element 22 and further in direction towards the pump chamber.
  • one or more openings 31 are formed constituting part in the connection 14 in a way that the interior of the valve element 22 via said openings 31 communicates with the interior of the pump chamber.
  • the second connection 18 comprises a part 32 in the form of an opening in a tube piece 33 fixed to the connection part 24 of the receptacle 3.
  • the outer end of this tube piece 33 is formed to project through a hole 34 in the cover and into the underlying pump chamber 5. More precisely, the outer end of the tube piece 33 will form a mouth of the connection 18 and this mouth is located at a level below the upper mouth portions of the communication openings 9.
  • the second connection 18 comprises in addition a tube 35 connected to the tube piece 33, the upper end of said tube is lo- cated inside the receptacle in the upper part thereof.
  • a valve 36 is provided at the upper end of the tube 35, said valve 36 being arranged to close the connection through 18 when the receptacle 3, dismounted from the pump arrangement 4, have been turned upside down relative to the position of the receptacle when it is mounted on the pump arrangement.
  • Fig 3 illustrates how the valve 36 comprises a valve element 37, which in the example has the nature of a ball.
  • the ball 37 In the normal position for use of the receptacle 3, according to Fig 3, the ball 37 being effected by gravitation in a lower position, in which position the ball opens for communication through the tube 35 and thus the connection 18.
  • the ball 37 will move towards a valve seat 38 effected by the gravitation so that the ball and the seat thereby close against communication through the tube 35.
  • the receptacle has an opening 39 for refilling, which is normally closed by means of a cover 40.
  • This opening 39 for refilling is located at the foot when the receptacle is mounted on the pump arrangement 4 and at the top when the receptacle is turned over.
  • the receptacle thus is placed upside down and thereby the valve element 37 closes against communication through the tube 35. This results in that the substance inside the receptacle 3 is not able to penetrate into the tube 35, which otherwise would result in that the following turning of the receptacle might lead to spilling out through the tube piece 33 before the receptacle has been mounted onto the pump arrangement 4.
  • the inte- rior of the receptacle 3 must be sealed against the surroundings regarding the opening 39 with aid of the cover 40.
  • the location of the opening 39 and the cover 40 at the foot imply that the user of the device will immediately notice if leakage would occur. A long period of leakage which would give rise to uncalled consumption of the substance in the receptacle is thereby avoided.
  • the pump member 6 presented a perimetrical sealing in order to seal against the internal wall 12 of the casing 11. Such a sealing would in that case slide along the wall 12 as the pump member moves in the pump chamber 5. Such a sliding motion may however give rise to not desired jammings.
  • such type of slide sealings are omitted and instead, in the chamber a laterally sealing elastic sleeve 41 is provided, which at a first end 42 connects in a ring shaped manner to the pump member 6 and at a second end, denoted 43, connects in a ring shaped manner to the casing 1 1 of the pump arrangement 4 so as to enclose a volume 44 connected to the connection arrangement 7 and the communication arrangement 8.
  • the sleeve 41 may be of the nature of an elastic hose.
  • the end of the elastic hose, denoted 42 may be fixed in a ring shaped manner relative to the pump member 6 in an arbitrary way but in the example it is illustrated that the intention is that the end 42 in a ring shaped manner will be squeezed firm in a slot between two parts of the pump member 6, i.e. a cover part 45 and a wall part 46 inside receiving the former. These may be connected to each other by means of press fit while the end 42 of the sleeve is intermediate, but permanent fixing by means of gluing or other connection means are also possible.
  • the upper ring shaped end 43 of the sleeve 41 is clamped between the upper ring shaped edge of the wall 12 of the casing 11 and the cover 16.
  • the volume 44 in the interior of the sleeve 41 will be the volume that receives the substance from the receptacle 3.
  • the casing 1 1 of the pump arrangement 4 is fixed relative to the frame 1 , for example by attachment members such as screws.
  • the receptacle 3 and the frame 1 constitute control members 41 , 49 engaging each other, said control members connecting the frame 1 and the receptacle 3 so that the latter is displaceable towards and away from the pump arrangement 4.
  • the control members 48, 49 are introduced to engage each other, whereon the receptacle 3 is displaced along the frame 1 so that its projection 20 reaches into the recess 19 of the pump arrangement 4 and the connections 14, 18 are established.
  • the control mem- bers 48, 49 may have the feature of cross-sectional dovetail shaped control members.
  • the device comprises means 50 to make possible varying of the lowest position of the pump member 6.
  • these means include one support member 51 arranged to, from be- low, support the floating body 10 and in that way the pump member 6 in a variable position.
  • this support member 51 is adjustable at different levels in the casing 1 1 of the pump arrangement 4.
  • Fig 3 illustrates how the support member 51 may be located in one of many positions with aid of locating members 52.
  • said locating members 52 has the character of seats, in which seats portions of the support member 51 are receivable.
  • such locating members 52 are arranged on opposite short sides of the casing 1 1 and the support member 51 has an elongated shape and extends along the larger extension of the cross-section of the casing 11 so that the support member 51 at opposite short sides of the casing engage the locating members 52.
  • said support member presents suitable fork formations, said fork formations being resilient squeezable in, and for releasing of, the locating engagement of the support member 51 in the locating member 52 so that the position of the support member 51 in the vertical direction of the casing 11 thus may be adjusted by movement of the support member between the different locating members 52.
  • the user thus may adapt the dosage volume of substance depending on the substance in question and also the character/volume of the fluid in the vessel.
  • more heavy cleaning tasks may necessitate a higher concentration of cleaning agents in the water in the ves- sel.
  • the motion path of the pump member 6/floating body 10 inside the casing 11 of the pump arrangement 4 could be defined with aid of special control members, for example from the bottom of the casing 1 1 projecting guiding pins, said guiding pins being received in guiding holes in the pump member 6/floating body 10.
  • the frame 1 is placed so that its applying means 2 will hook up around the edge on a vessel, for example a bucket and so that the pump arrangement 4 and the receptacle are located inside the bucket. If the receptacle 3 should be empty the user may now pull the receptacle upwardly so that it will be displaced along the extension of the control members 48, 49. Then the receptacle may be turned upside down so that the opening 39 will be directed upwards. After removal of the cover 40 filling may take place with a suitable substance, for example a cleaning agent. During the filling the valve element 37 is closing by cooperation with the seat 38 against inflowing of substance into the interior of the tube 35.
  • a suitable substance for example a cleaning agent
  • the cover 40 is applied, and then the receptacle 3 is turned back to the position illustrated in the figures and is brought to engage the frame 1 via the control members 48, 49. Then the receptacle 3 is displaced along the guiding members so that the connection part 24 of the receptacle will be brought in contact with the cover 16 of the pump arrangement 4. Thereby the projecting end of the valve element 22 enters in contact with the cover 16 and is thereby displaced from the position of closing the connection 14 to the position of opening this connection, against the action of the spring 25.
  • the substance inside the receptacle 3 may in this way flow via the opening 26 and the interior of the valve element 22 into the pump chamber 5, i.e. into the volume 44 inside the sleeve 41.
  • the pump chamber 5 is now filled with substance from the receptacle 3. No outflowing of substance via the openings 9 in the surrounding vessel takes place since, as recently described, the level of substance inside the pump chamber is not rising any more when the level of the substance has sealed against air admission via the connection 18.
  • the fluid When the user now introduce fluid, for example water in the surrounding vessel, the fluid will subject the floating body 10 for a lifting force. This lifting force acts on the floating body and the pump member 6 upwardly. This results in reduction of the volume of the pump chamber 5 so that the substance in the pump chamber will be pressed out via the openings 9 in to the vessel. If the vessel is filled up enough with fluid, the floating body 10 and the pump member 6 will reach their uppermost position, in which the pump chamber 5 is substantially drained and thus a predetermined quantity of substance is fed into the vessel. In this way a steady dosage of substance to the vessel may ac- cordingly be achieved. Since the drainage of the pump chamber 5 is dependant on refilling of fluid into the vessel, it is ensured that the substance is fed out in the vessel only when there really is a need thereof. Thus, unnecessary consumption of the substance is avoided.
  • fluid for example water in the surrounding vessel
  • the elastic sleeve 41 will be folded along the circumference of the pump chamber. As long as the level of fluid in the vessel is high the floating body and the pump member 6 remain in the uppermost position. When, however, the fluid has been consumed or emptied out from the vessel, the floating body 10 and the pump member 6 return to the lower position. Substance may thereby once again flow from the receptacle into the pump chamber until the level of the substance reaches the lower mouth of the connection 18 in the pump chamber, when the feeding of substance is stopped.
  • the described device may be modified within the frame of the basic idea of the invention.
  • the described embodi- ment should therefore be considered as exemplifying and not limiting.
  • the applying means or the hooks 2 could be formed adjustable on the frame 1 so that the position, vertically, of the pump arrangement 4 in the vessel could be set according to the circumstances.

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Infusion, Injection, And Reservoir Apparatuses (AREA)
  • Closures For Containers (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
EP97934839A 1996-08-07 1997-08-04 A dosage device Withdrawn EP0922204A1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
SE9602943 1996-08-07
SE9602943A SE510843C2 (sv) 1996-08-07 1996-08-07 Anordning för dosering
PCT/SE1997/001321 WO1998007010A1 (en) 1996-08-07 1997-08-04 A dosage device

Publications (1)

Publication Number Publication Date
EP0922204A1 true EP0922204A1 (en) 1999-06-16

Family

ID=20403538

Family Applications (1)

Application Number Title Priority Date Filing Date
EP97934839A Withdrawn EP0922204A1 (en) 1996-08-07 1997-08-04 A dosage device

Country Status (4)

Country Link
EP (1) EP0922204A1 (sv)
AU (1) AU3791297A (sv)
SE (1) SE510843C2 (sv)
WO (1) WO1998007010A1 (sv)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB9918627D0 (en) 1999-08-07 1999-10-13 Glaxo Group Ltd Valve

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3893470A (en) * 1974-05-20 1975-07-08 Baldwin Gegenheimer Corp Liquid mixing and distributing apparatus
ZA795200B (en) * 1979-10-01 1981-03-25 B Hewson A novel method and apparatus for dosing liquids
US5092377A (en) * 1990-09-21 1992-03-03 S. C. Johnson & Son, Inc. Bucket and fluid-metering device therefor

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO9807010A1 *

Also Published As

Publication number Publication date
SE510843C2 (sv) 1999-06-28
AU3791297A (en) 1998-03-06
SE9602943L (sv) 1998-02-08
SE9602943D0 (sv) 1996-08-07
WO1998007010A1 (en) 1998-02-19

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