Actuating head of a double-acting pump for ejecting a product from a container

Information

  • Patent Grant
  • 6824021
  • Patent Number
    6,824,021
  • Date Filed
    Friday, January 10, 2003
    21 years ago
  • Date Issued
    Tuesday, November 30, 2004
    20 years ago
Abstract
An actuating head (12) of a double-acting pump (1) for ejecting a product (38) from a container (2) includes an outlet duct (13a-13d) leading to an ejection opening (16), wherein a closing piece (18) biased by a spring (17) is arranged in the outlet duct. The closing piece (18) directly seals the ejection opening (16) under the force of the spring (17) and the closing piece (18) releases as a result of the pressure exerted when actuating the double-acting pump (1) the flow of the product (38) through the outlet duct (13a-13d) and through the ejection opening (16) against the force of the spring (17). For simplifying the construction and for avoiding the danger of contamination of the product, it is ensured according to the present invention that a first outlet duct section (13d) following the ejection opening (16) is surrounded by a tube (15) in which the closing piece (18) is sealingly slideably guided and which is inserted in a bore (14) in the body of the actuating head (12), wherein the bore (14) defines between itself and the tube (15) an annular space forming a second outlet duct section (13b), wherein the annular space is connected through a third outlet duct section (13c) traversing the wall of the tube (15) to the first outlet duct section (13d).
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The invention relates to an actuating head of a double-acting pump for ejecting a product from a container, wherein the container has an outlet duct leading to an ejection opening and a closing piece biased by a spring is arranged in the outlet duct, wherein the closing piece in a closed position thereof directly seals the ejection opening under the force of the spring, and wherein the pressure of the product exerted when the double-acting pump is actuated releases the flow of the product through the outlet duct and through the ejection opening against the force of the spring.




2. Description of the Related Art




In a known actuating head of this type (DE 201 03 144 U1), an outlet duct section extends through the body of the actuating head up to a cylindrical space in a bore of the body which follows the outlet opening and in which the closing piece is sealingly guided. The construction of this outlet duct section is cumbersome. It requires a complicated molding tool if the body of the actuating head, as is usual, is manufactured of thermoplastic material. In addition, the outlet duct section must be constructed of two parts, wherein the two parts must be tightly connected to each other, either by welding or gluing, which is time-consuming and labor-intensive.




In another known actuating head (DE 27 09 796 B2), the closing piece is constructed as a valve slide which is slideable transversely of an inlet opening of on outlet duct located between the closing piece and the ejection opening. Arranged in the outlet duct in front of the ejection opening is a turbulence chamber. Through the ejection opening the outlet duct is in connection with the outside in any position of the closing piece. Accordingly, any product rest which has not been completely ejected from the outlet duct can come into contact with contaminating and harmful germs, bacteria or viruses contained in the ambient air and with aggressive gases which are harmful for the product, particularly ambient oxygen. Such harmful influences are especially undesirable or dangerous if the product is a foodstuff, a medicament, deodorant or another product which is taken in or picked up by a person, even if only a small contaminated product rest remains in the actuating head. During the next actuation after a long period of no actuation, such a contaminated product rest could be ejected together with the product and could endanger the health of the user.




It is the object of the invention to provide an actuating head of the above-described type which is simple to manufacture and in which the danger of a contamination of the product is essentially prevented.




In accordance with the invention, this object is met in an actuating head of the above-described type in that a first outlet duct section following the ejection opening is surrounded by a tube in which the closing piece is sealingly slideably guided and which is inserted into a bore in the body of the actuating head, wherein the bore defines between itself and the tube an annular space which forms a second outlet duct section, wherein the second outlet duct section is connected through a third outlet section traversing the wall of the pipe to the first outlet duct section.




SUMMARY OF THE INVENTION




In this solution, the three above-mentioned outlet duct sections are defined by the bore and the tube, wherein the tube only has to be inserted tightly into the bore. Accordingly, shaping of the actuating head is very simple, independently of its material which preferably is thermoplastic material. In addition, a product rest present in the outlet duct cannot be contaminated either in the open position or in the closed position of the closing piece: in the open position which lasts only a short time during the product ejection, the product rest would be substantially ejected, and in the closed position the outlet duct is completely blocked to the outside by the closing piece. Consequently, a product rest remaining in the outlet duct cannot come into contact with harmful germs, bacteria, viruses, etc. and with harmful materials, such as gases, particularly ambient oxygen.




It is preferably ensured that the closing piece includes a piston which seals the closing piece relative to the inner side of the outlet duct, wherein the piston has a piston rod which in the closed position of the closing piece projects with an end portion thereof tightly in the ejection opening. The closing piece not only acts as a closing piece, but also as a pressure piston which, after the actuation of the double-acting pump by the actuating head, ejects the product remaining in the outlet duct under the force of the spring through the ejection opening and simultaneously blocks the ejection opening.




Moreover, the portion of the piston rod adjacent the end portion may have a greater diameter than the ejection opening and, in the closed position of the closing piece, rests against the inner edge of the ejection opening under the force of the spring. The portion of the piston rod having the greater diameter additionally comes into sealing contact with the inner edge of the ejection opening during the closing movement of the closing piece under the force of the spring with its shoulder surface extending from the larger to the smaller diameter. Simultaneously, the closing movement is limited.




The piston preferably has a circumferential sealing lip which permits passage of the product only in the direction toward the ejection opening. On the one hand, the sealing lip facilitates the passage of air from the spring chamber into the outlet duct during the first actuation of the actuating head, so that the product pressure essentially only has to overcome the spring force during the product ejection. The air which penetrated from the spring chamber into the outlet duct would during the first actuation be partially mixed with the product quantity which has been ejected and which will be ejected during the next actuation. However, during the second and all following actuations, no additional air would penetrate from the spring chamber into the outlet duct because the excess pressure of the air has already been eliminated and the sealing lip permits only the air passage in one direction and, thus, no renewed penetration of air into the spring chamber. In the same manner, penetration of the product through the sealing lip into the spring chamber is prevented.




The sealing lip may particularly be constructed as a cup-shaped material. The cup-shaped material is additionally pressed by the product pressure against the inner side of the outlet duct and, thus, ensures a particularly high sealing effect.




The closing piece is preferably of a rubber-elastic material with an excess dimension of the end portion relative to the diameter of the ejection opening. As a result of this configuration, the end portion of the piston rod rests particularly tightly in the ejection opening in the closed position of the closing piece. This results in a particularly high sealing effect of the end portion in the ejection opening.




The rubber-elastic material may be a plastic material. Such a material facilitates a simple construction of the closing piece as a single piece.











BRIEF DESCRIPTION OF THE DRAWINGS




The invention and its further developments will be described below in more detail with the aid of the enclosed drawings showing a preferred embodiment. In the drawing:





FIG. 1

is an axial sectional view of a double-acting pump with an actuating head according to the present invention on a container filled with product to be ejected, shown prior to the first actuation of the double-acting pump by means of the actuating head,





FIG. 2

is an axial sectional view of the double-acting pump and the container of

FIG. 1

, shown during a first actuation of the double-acting pump by means of the actuating head,





FIG. 3

is an axial sectional view of the double-acting pump and the container of

FIG. 1

, shown at the end of the first suction movement of the double-acting pump,





FIG. 4

is the same axial sectional view as

FIG. 2

, shown during a first ejection actuation, and





FIG. 5

is an axial sectional view of the double-acting pump in the same position as in

FIG. 1

, however, at the end of an ejection actuation.











DETAILED DESCRIPTION OF THE PREFERED EMBODIMENTS




The double-acting pump


1


shown in the drawing is tightly fastened on the rim of the opening of a container


2


through a sealing ring disc


3


arranged between the pump and the container. The double-acting pump


1


includes a hollow-cylindrical housing


4


. The lower end of the housing


4


can be blocked off by a check valve with a valve closing ball


5


. In its lower position illustrated in

FIG. 1

, the valve closing ball


5


is tightly seated on a valve seat


6


.




Arranged in the housing


4


is a hollow-cylindrical piston


7


so as to be axially slideable and sealed against the inner side of the housing


4


. The bore


8


of the piston


7


extends as a hollow piston rod


9


integrally formed on the piston


7


. The piston rod


9


is slideable in an opening


10


of an upper closing hood


11


so as to be sealed relative the housing


4


and container


2


.




An actuating head


12


of the double-acting pump


1


is sealingly and tightly placed on the free end of the piston rod


9


which protrudes out of the housing


4


. An outlet duct, composed of outlet duct sections


13




a


-


13




d


, extends through the actuating head


12


, wherein the outlet duct is connected to the bore


8


. The outlet duct section


13




b


is constructed as an annular space which is defined by the inner side of a bore


14


in the body of the actuating head


12


and the outer side of a tube


15


which is tightly placed in the bore


14


. The outlet duct section


13




c


is a bore extending through the wall of the tube


15


, wherein the bore opens into the outlet duct section


13




d


which forms the inner space of the tube


15


. The diameter of the tube


15


becomes smaller toward its outer end with an ejection opening


16


. Axially slideably arranged in the outlet duct section


13




d


is a closing piece


18


which is biased by a weak spring


17


. The closing piece


18


has a piston


19


which seals against the inner side of the outlet duct section


13




d


in the tube


15


, wherein the piston


19


has a piston rod


20


which, in the closed position of the closing piece


18


shown in

FIG. 1

, projects with an end portion


20




a


tightly in the ejection opening


16


. The portion


20




b


of the piston rod


20


adjacent the end portion


20




a


has a greater diameter than the outlet opening


16


and in the closed position of the closing piece


18


rests with an inclined transition from the larger to the smaller diameter against the inner rim of the ejection opening


16


under the force of the spring


17


. The piston


19


has a circumferential sealing lip


21


which tightly rests as a result of its own elasticity against the inner side of the tube


15


or the outlet duct section


13




d


and which permits passage of a medium only in the direction toward the ejection opening


16


, while blocking the chamber


22


which contains the spring


17


. The sealing lip


21


is formed by a cup-shaped material. The closing piece


18


is of a rubber-elastic material, particularly an elastomer material, with an excess dimension of the end portion


20




a


of the piston rod


20


relative to the diameter of the ejection opening


16


.




In its non-actuated position according to

FIGS. 1

,


3


and


5


, the piston


7


rests with a sealing lip


24


arranged circumferentially at its free end tightly against the inner side of the housing


4


. A collar


25


surrounding the piston


7


above the sealing lip


24


serves for guiding the piston


7


during its movement, however, a play remains between the collar


25


and the inner side of the housing


4


. A restoring spring


26


, shown in broken lines, rests in the piston


7


against the bottom of an annular space


27


which is defined by the outer wall of the piston


7


and a tube piece


28


, on the one hand, and against a shoulder


29


in the housing


4


, on the other hand. The housing has at the end of a pressure space


30


defined by the housing


4


a step


31


underneath of which the inner diameter of the housing


4


is somewhat greater than the outer diameter of the sealing lip


24


of the piston


7


. An immersion tube


34


protruding close to the bottom of the container


2


is fastened in a connecting piece


32


at the free lower end of the housing


4


. Above the upper end position of the piston


7


according to

FIG. 1

, the housing


4


is connected through lateral slots


35


to the inner space of the container


2


above the maximum product level.




During the first actuation of the actuating head


12


by manually exerting a pressure on its upper side, the piston


7


moves against the force of the restoring spring


26


in the space


30


according to

FIG. 2

in the direction toward the check valve


5


,


6


. The resulting pressure in the space


30


, in the bore


8


and in the outlet duct


13




a


-


13




d


causes the check valve


5


,


6


to be kept closed, on the one hand, and the sealing lip


21


of the closing piece


18


is pressed against the inner side of the tube


15


or the outlet duct section


13




d


defined by the tube


15


, on the other hand. Consequently, the piston


19


is displaced against the force of the spring


17


and the end portion


20




a


of the piston rod


20


is pulled out of the ejection opening


16


. In this situation, the air contained in the space


30


, in the bore


18


, in the outlet duct


13




a


-


13




d


and in the spring chamber


22


can escape only partially through the ejection opening


16


. After the manual pressure has been removed from the actuating head


12


, the restoring spring


26


presses the piston


7


and the spring


17


presses the piston


19


back into the position illustrated in FIG.


3


. The resulting negative pressure in the space


30


, in the bore


8


and in the outlet duct


13




a


-


13




d


causes the valve closing ball


5


to be lifted off from its seat


6


up to against the ribs


37


formed above the ball


5


in the housing


4


. Simultaneously, the negative pressure causes a portion of the product


38


contained in the container


2


to be withdrawn from the container


2


through the immersion tube


34


and the open check valve


5


,


6


into the space


30


, as illustrated in FIG.


3


. The product


38


is preferably paste-like, but can also be a liquid.




When the piston


7


is once again pushed down by means of the actuating head


12


, the check valve


5


,


6


is once again closed and the piston


19


is pushed once again against the force of the spring


17


into the position shown in FIG.


2


. Simultaneously, the product is ejected out of the space


30


through the bore


8


, the outlet duct


13




a


-


13




d


and the ejection opening


16


which is once again open, as illustrated in FIG.


4


. The piston


7


can be pressed with its sealing lip


24


up to underneath the step


31


. As soon as the sealing lip


24


has traveled past the step


31


, the pressure in the space


30


is eliminated past the sealing lip


24


and the collar


25


of the piston


7


and through the slots


35


into the space of the container


2


above the product level, so that no additional product


38


is ejected. As a result, the product quantity ejected during each actuation is precisely metered.




During the return movement of the piston


7


which follows the removal of the manual pressure on the actuating head


12


, the piston


7


once again draws a portion of the product


38


from the container


2


into the space


30


, wherein the piton


19


once again closes the ejection opening


16


under the pressure of the spring


17


, as illustrated in FIG.


5


.




When the piston


7


is once again pushed down from the position according to

FIG. 5

into the position according to

FIG. 4

, once again a precisely metered product quantity is immediately ejected. The same occurs during each further actuation until the container


2


is completely empty.




As shown in

FIGS. 1

,


3


and


5


, the outlet duct


13




a


-


13




d


is in the closed position of the closing piece


18


completely closed off from the outside by the closing piece


18


. Consequently, a product rest remaining in the outlet duct cannot come into contact with harmful germs, bacteria, viruses, etc., and with harmful materials, gases, etc. On the other hand, the open position of the closing piece


18


shown in

FIGS. 2 and 4

only lasts a short time. A product rest remaining in the outlet duct


13




a


-


13




d


would be mostly ejected during the product ejection and could not be contaminated, because the open position of the closing piece


18


lasts only a short time.




The closing piece


18


not only acts as a closing piece, but also as a pressure piston which, after the actuation of the actuating head


12


, ejects any product remaining in the section


13




d


of the outlet duct under the force of the spring


17


and simultaneously blocks off the ejection opening


16


. The portion


20




b


of the piston rod


20


having the greater diameter rests during the closing movement of the closing piece


18


under the force of the spring


17


with its shoulder surface extending from the larger to the smaller diameter additionally sealingly against the inner rim of the ejection opening


16


. This simultaneously limits the closing movement of the closing piece


18


.




On the one hand, the sealing lip


21


facilitates the passage of air from the spring chamber


22


into the outlet duct during the first actuation of the actuating head


12


and, thus, a displacement of the piston


19


against of the force of the spring


17


. Therefore, essentially only the force of the spring


17


has to be overcome by the product pressure during the product ejection. During the first actuation, any air which has penetrated from the spring chamber


22


into the outlet duct would be mixed partially with the product quantity which has been ejected and the product quantity to be ejected during the next actuation. However, during the second and any following actuation, no further air would penetrate from the spring chamber


22


into the outlet duct because its excess pressure has already been eliminated and the sealing lip


21


permits the passage of air only in one direction and, thus, no additional penetration of air into the spring chamber


22


. In the same manner, a penetration of the product through the sealing lip


21


into the spring chamber


22


is prevented. Since the sealing lip is constructed as a cup-shaped material, the sealing lip is additionally pressed by the product pressure against the inner side of the tube


15


or the section


13




d


of the outlet duct. Accordingly, the sealing lip ensures a particularly high sealing effect. Since the closing piece


18


is of rubber-elastic material and because its end portion


20




a


has an excess dimension relative to the inner diameter of the ejection opening


16


, the end portion


20




a


rests in the closed position of the closing piece


18


particularly tightly in the ejection opening


16


. This results in a particularly high sealing effect of the end portion


20




a


in the ejection opening


16


. Moreover, when the rubber-elastic material of the closing piece


18


is a plastic material, the closing piece


18


can be constructed in a simple manner as a single piece.



Claims
  • 1. Actuating head (12) of a double-acting pump (1) for ejecting a product (38) from a container (2), wherein the actuating head (12) has an outlet duct (13a-13d) leading to an ejection opening (16), wherein a closing piece (18) biased by a spring (17) is arranged in the outlet duct, wherein the closing piece (18) in its closed position directly seals off the ejection opening (16) under the force of the spring (17) and wherein the closing piece (18) releases the flow of the product (38) through the outlet duct (13a-13d) and through the ejection opening (16) as a result of the pressure occurring during actuation of the double-acting pump (1) against the force of the spring (17), wherein a first outlet duct section (13d) following the ejection opening (16) is surrounded by a tube (15) in which the closing piece (18) is sealingly slidingly guided and which is placed in a bore (14) in the body of the actuating head (12), wherein the bore (14) defines between itself and the tube (15) an annular space forming a second outlet duct section (13b), wherein the annular space is connected to the first outlet duct section (13d) through a third outlet duct section (13c), which traverses the wall of the tube (15).
  • 2. Actuating head according to claim 1, wherein the closing piece (18) has a piston (19) which seals against the inner side of the outlet duct (13a-13d), wherein the piston (19) has a piston rod (20) which in the closed position of the closing piece (18) protrudes with an end portion (20a) tightly in the ejection opening (16).
  • 3. Actuating head according to claim 2, wherein the portion (20b) of the piston rod (20) adjacent the end portion (20a) has a greater diameter than the ejection opening (16) and in the closed position of the closing piece (18) the portion (20b) rests against the inner rim of the ejection opening (16) under the force of the spring (17).
  • 4. Actuating head according to claim 2 or 3, wherein the piston (19) has a circumferential sealing lip (21) which permits passage of a medium only in the direction toward the ejection opening (16).
  • 5. Actuating head according to claim 4, wherein the sealing lip (21) is formed by a cup-shaped material.
  • 6. Actuating head according to one of claims 1 to 3, wherein the closing piece (18) is of a rubber-elastic material with an excess dimension of the end portion (20a) relative to the diameter of the ejection opening (16).
  • 7. Actuating head according to claim 6, wherein the rubber-elastic material is a plastic material.
Priority Claims (1)
Number Date Country Kind
102 00 593 Jan 2002 DE
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