RU175003U1 - Dosing pump for dispensing liquid or gel from a container - Google Patents

Abstract

The utility model relates to dosing pumps used in the perfume industry to pump dosed volumes of liquids or gel-like substances from sealed containers, for example, and can be part of a package for liquid soap, detergents, etc. The dosing pump contains a cylinder in the inner cavity which has a rod, the lower part of which is connected with a piston block including a double-acting piston and a check valve, the passage channels of which are connected to the internal channel of the rod, which otivopolozhnoy side is connected with the outlet passage of the nozzle, a nut, which is fixed in the cavity of the cylinder, the nozzle return means to the starting position and the locking element. Moreover, the cylinder further comprises a cylinder cover with a through hole in which the stem is located, and the rod contains means for enhancing the fixation of the counter surfaces of the cylinder cover and the valve relative to each other with the possibility of mutual sealing of the cylinder cover and the valve. Thus, the utility model improves sealing rod in the closed (transport) position of the nozzle and increase the smoothness of the stroke of the rod, as well as eliminate contact of the spring and the contents of the container.

Description

The utility model relates to dosing pumps used in the perfume industry for pumping dosed volumes of liquids or gel-like substances from sealed containers, for example, and can be part of a packaging for liquid soap, detergents, etc.

The applicant is aware of similar designs of metering pumps for dispensing liquid or gel from a container, among which the following are closest.

Known metering pump for containers with liquid contents, in particular for liquid soap, described in the patent of the Russian Federation for invention No. 2195373, IPC B05B 11/02, published December 27, 2002, selected as a prototype. The metering pump according to the prototype comprises a cylinder, in the inner cavity of which a rod is located. The lower part of the rod is paired with the piston block. The piston unit includes a double-acting piston and a check valve. Valve passages are connected to the internal stem channel. The inner channel of the rod on the opposite side is connected to the output channel of the nozzle mounted on the nut. A cylinder is fixed in the nut cavity, means for returning the nozzle with the rod to its original position and a locking element. The nut is installed on the neck of a container with liquid soap. The cylinder contains a working chamber associated with the container using a suction channel. The means for returning the nozzle with the rod to its initial position contains a spring located in the working chamber of the cylinder. The locking element has a cylindrical shape with a spherical end configured to close the opening of the suction channel in the working chamber of the cylinder. The cylinder and nut are rigidly interconnected. The nut is equipped with sealing elements to fit a container with liquid soap on the neck.

The disadvantage of this dispenser is the location of the spring for springing the rod and piston unit with a check valve in the working chamber of the cylinder, leading to contact between the contents of the container and the material of the spring, which is undesirable for some substances (change in the chemical properties of the product) or for the spring itself (corrosion) and thereby limits the scope of the device. Also a disadvantage is the insufficient sealing of the rod relative to the mating surfaces of the piston and the nut during its axial movement, which can lead to its distortion and getting the contents of the container from the working chamber into the cavity between the rod and the nut.

The utility model is based on the task of improving the seal of the rod in the closed (transport) position of the nozzle and increasing the smoothness of the stroke of the rod, which will improve the reliability of the device and prevent the contents of the container (liquid or gel) from entering between the elements of the device outside the channels of passage of the contents of the container (liquid or gel). An additional task is to eliminate contact between the spring and the contents by changing the location of the spring and performing interacting elements.

The problem is solved in such a way that in a known metering pump containing a cylinder, in the inner cavity of which there is a rod, the lower part of which is connected with a piston block including a double-acting piston and a check valve, the passage channels of which are connected to the inner channel of the rod, which is opposite the side is connected with the outlet channel of the nozzle, a nut in the cavity of which the cylinder is fixed, means for returning the nozzle to its original position and a locking element, according to a utility model, the cylinder will complement It completely comprises a cylinder cover with a through central hole in which the stem is located, the rod comprising means for enhancing fixation of the counter surfaces of the cylinder cover and the valve relative to each other with the possibility of mutual sealing of the cylinder cover and the valve.

The presence of the cylinder cover with a through central hole in which the rod is located, and the equipment of the rod by means of fixing the counter surfaces of the cylinder cover and the valve relative to each other with the possibility of mutual sealing of the cylinder cover and valve, improves the seal of the rod in the closed (transport) position of the nozzle and increases smoothness of the stroke of the rod due to blocking the supply / dosing of liquid soap by axial pressing of the nozzle and rod down.

According to one of the preferred embodiments of the utility model, said fixation reinforcing means may comprise axial ribs located on the surface of the rod parallel to the axis of the rod, and at least two lifting surfaces made on the surface of the central hole of the cylinder cover and limited by radial stops. Due to this embodiment of the fixing reinforcing means, the end face of the axial ribs of the rod slides along the lifting surfaces of the cylinder cover, smoothly moving in the axial direction, sealing the counter surfaces of the valve and the cylinder cover when the nozzle position is set to “closed”, which prevents leakage during transportation or storage of the container.

According to another advantageous embodiment of the utility model, the axial ribs of the rod can be arranged to move in the grooves of the central bore of the cylinder cover, which ensures smooth piston movement when the ends of the axial ribs of the rod move along the lifting surfaces of the cylinder cover.

According to another advantageous embodiment of the utility model, the device for returning the nozzle to the initial position can be a spring interacting on one side with the nozzle and the opposite side with the cylinder cover, which allows the nozzle to return to its original position and at the same time exclude contact of the spring with the contents of the container (liquid or gel).

According to another advantageous embodiment of the utility model, the locking element may be a ball located in the inner cavity of the cylinder, which is a movable valve and allows to provide a pressure difference between the cavity of the tank, the working cavity of the cylinder and the external atmospheric pressure to collect the liquid or gel and dispense them through the outlet channel of the nozzle.

According to another advantageous embodiment of the utility model, the inner cavity of the housing in the lower part may include a valve seat, in the inner part of which can be made fixing elements that limit the stroke of the locking element, which allows for holding the ball in the lower part of the cylinder, preventing it from penetrating into the working cavity of the cylinder under the action of the contents of the container pressing on it.

According to another advantageous embodiment of the utility model, the cylinder may contain a suction hole in the lower part, conjugated with the opening of the suction pipe with the formation of the suction channel, which allows for the flow of liquid or gel from the tank into the working chamber while sealing the connection of the metering pump and the tank.

According to another advantageous embodiment of the utility model, the cylinder cover may include an end flange located between the cylinder flange and the inner surface of the nut end, which improves the reliability of fastening the cylinder cover and cylinder inside the nut by pairing them on a flat flange surface.

According to the previous embodiment of the utility model, a gasket is located below the cylinder flange on its lateral surface, which provides sealing of the nut when it is located on the neck of the container.

According to another advantageous embodiment of the utility model, the rod may comprise an annular protrusion located below the axial ribs of the fixation enhancing means with the possibility of interacting with the lower part of the lifting surfaces made on the surface of the central hole of the cylinder cover, which makes it possible to limit the axial piston stroke upwards and provide additional sealing the valve and cylinder cover.

According to another advantageous embodiment of the utility model, the lid may comprise a cylindrical seal located vertically and mated with the inner surface of the cylinder, which can further increase the tightness of the mating of the lid and cylinder and increase the reliability of their mating with each other.

The following is an example of a metering pump according to a utility model and a description of its operation. The description is illustrated by graphic materials, which depict the following:

in FIG. 1 shows a General view of the metering pump in cross section (upper stem position, "transport position"),

in FIG. 2 shows a General view of the metering pump in cross section (lower position of the rod, until it stops),

in FIG. 3 shows a separate image of the stroke of the rod relative to the cylinder cover (upper position of the rod),

in FIG. 4 is a plan view of FIG. 3 (rod and cylinder cover),

in FIG. 5 shows a separate image on the side of the stroke of the rod relative to the cylinder cover (lower position of the rod),

in FIG. 6 is a plan view of FIG. 4 (rod and cylinder cover),

in FIG. 7 shows a separate General view of the cylinder cover,

in FIG. 8 shows a separate top view of the cylinder cover,

in FIG. 9 is a sectional side view of a cylinder cover.

The given examples and graphic materials do not limit the embodiments of the metering pump according to the utility model, but only explain it.

The metering pump for dispensing liquid or gel from the tank contains a cylinder 1, in the inner cavity of which a rod 2 is located. The lower part of the rod 2 is connected with a piston block including a piston 3 (double-acting) and a check valve 4. The passageways of the check valve 4 are connected to the internal the channel 5 of the rod 2. The internal channel 5 on the opposite side is connected to the output channel 6 of the nozzle 7 mounted on the nut 8. In the cavity of the nut 8, the cylinder 1 is fixed. The nut 8 is mounted on the neck of the tank 9. The cylinder 1 also contains a cylinder cover 10 with a through central hole 11 in which the stem 2 is located. The stem 2 also contains means for enhancing the fixation of the counter surfaces of the cylinder cover and the valve relative to each other with the possibility of mutual sealing of the cylinder cover 10 and the valve 4. Said fixing reinforcing device contains axial ribs 12 with a lower the end face 13 located on the surface of the rod 2 parallel to its axis and at least two lifting surfaces 14, made on the surface of the Central hole 11 of the cylinder cover 10 and limited on one side of the radial GOVERNMENTAL stops 15. The axial ribs 12 are arranged to be movable in the slots 16 of the central opening 11 of the cylinder cover 10.

The cover of the cylinder 10 latches onto the cylinder 1 and is mounted on it motionless.

The metering pump also contains means for returning the nozzle to its original position and a shut-off element. The device for returning the nozzle to its initial position is a spring 17 installed in the cavity of the nozzle 7 and interacting on the one hand with the nozzle 7 and the opposite side with the cylinder cover 10. The locking element is a ball 18 located in the inner cavity of the cylinder 1.

The inner cavity of the cylinder 1 in the lower part contains a valve seat 19. In the inner part of the valve seat 19 are made of the locking elements 20, restricting the course of the locking element - the ball 18.

The cylinder 1 also contains a suction hole 21 in the lower part, conjugated with the hole of the suction pipe 22 with the formation of the suction channel.

The cylinder cover 10 includes an end flange 23 located between the flange of the cylinder 24 and the inner surface of the end face of the nut 8.

Below the flange of the cylinder 24 on the side surface of the cylinder 1 is a gasket 25.

The rod 2 contains an annular protrusion 26 located below the axial ribs 12 with the possibility of interaction with the lower part of the lifting surfaces 14, made on the surface of the Central hole 11 of the cover of the cylinder 10.

The cylinder cover 10 comprises a cylindrical seal 27 located vertically and mating with the inner surface of the cylinder 1.

The cylinder cover 10 also contains a sealing protrusion 28, and the valve 4 is a sealing protrusion 29.

A metering pump according to the construction described above is used to dispense liquid or gel from the container as follows.

Using a nut 8, the metering pump is mounted on the neck of a container 9 with liquid or gel inside, for example, liquid soap. When the nozzle 7 is pressed from above, the rod 2 with the piston 3 starts to move downward as far as it will go, displacing air from the working chamber of the cylinder 1 through the passage channels of the non-return valve 4, the internal channel 5 of the rod 2 and the outlet of the output channel 6 of the nozzle 7. During the reverse movement of the rod 2 and the piston 3 together with the nozzle 7 due to the action of the spring 17 there is a rarefaction of air in the working chamber of the cylinder 1, the contents of the container, for example, liquid soap (not shown), rises into the working chamber of the cylinder 1, exerting pressure on the ball 18 (movable valve). When the nozzle 7 is pressed further and the piston block moves down, the contents of the container from the working chamber of the cylinder 1 are forced out through the annular gap 30 and the passage channels of the non-return valve 4, the internal channel 5 of the rod 2 and the outlet of the output channel 6 of the nozzle 7 to the outside.

In this case, the lower end 13 of the axial ribs 12 of the rod 2 slides along the lifting surfaces 14 of the cylinder cover 10 in the radial direction, smoothly moving the rod 2 in the axial direction, thereby the piston seals the counter surfaces 28 and 29 of the cylinder cover 10 and valve 4, respectively. Moreover, the sealing of these surfaces is achieved in the position of the valve 4 and the cylinder cover 10, when the axial ribs 12 of the rod 2 come out of the grooves 16 in the central hole 11 of the cover 10 and move further along the lifting surfaces 14 of the cover 10. This is only done when the position is “closed” ( transport position), which prevents leakage during transportation.

The trajectory of the radial movement of the axial ribs 12 of the rod 2 to the “closed” position is such that the rib of the rod 2 enters the initial portion of the lifting surfaces 14 and then moves directly along the main portion of the lifting surfaces 14. In this case, the clearance of the rod 2 in the axial and radial direction occurs. Further axial movement of the rod 2 down to a certain limited length ensures the sealing of the passage channels of the check valve 4 and the internal channel 5 of the rod 2 from the contents of the tank.

The annular protrusion of the rod 26 when moving up the nozzle 7 and the rod 2 with the piston 3 and the check valve 4 abuts against the lower part of the annular collar on which the lifting surfaces 14 are made, thereby the rod 2 cannot completely exit the nut 8.

In FIG. 3 and 4 show the position where the axial ribs 12 of the rod 2 abut against the radial stops 15 of the cylinder cover 10 and are axially fixed on the main portion of each lifting surface 14 of the cylinder cover 10. In FIG. 5 and 6 show the position when the axial ribs 12 of the rod 2 are in the grooves 16 of the cylinder cover 10 and the rod 2 can move in the axial direction.

Thus, the utility model allows to improve the seal of the rod in the closed (transport) position of the nozzle and increase the smoothness of the stroke of the rod, as well as to eliminate contact of the spring and the contents of the container.

Claims (12)

1. A metering pump for dispensing liquid or gel from a container, comprising a cylinder in the inner cavity of which a rod is located, the lower part of which is connected to a piston block including a double-acting piston and a check valve, the passage channels of which are connected to the internal channel of the rod, which is opposite the side is connected with the outlet channel of the nozzle, a nut in the cavity of which the cylinder is fixed, means for returning the nozzle to its original position and a locking element, characterized in that the cylinder further comprises a lid the cylinder with a through central hole in which the rod is located, the rod comprising means for enhancing fixation of the counter surfaces of the cylinder cover and the valve relative to each other with the possibility of mutual sealing of the cylinder cover and the valve. 2. The metering pump according to claim 1, characterized in that said fixation reinforcing means comprises axial ribs located on the surface of the stem parallel to the axis of the stem and at least two lifting surfaces made on the surface of the central opening of the cylinder cover and limited by radial stops. 3. The metering pump according to claim 2, characterized in that the axial ribs of the rod are arranged to move in the grooves of the central hole of the cylinder cover. 4. The dosing pump according to claim 1, characterized in that the device for returning the nozzle to its initial position is a spring interacting on one side with the nozzle and the opposite side with the cylinder cover. 5. The metering pump according to claim 1, characterized in that the locking element is a ball located in the inner cavity of the cylinder. 6. The dosing pump according to claim 1, characterized in that the inner cavity of the cylinder in the lower part contains a valve seat. 7. The dosing pump according to paragraphs. 5 and 6, characterized in that in the inner part of the valve seat are made locking elements that limit the stroke of the locking element. 8. The dosing pump according to claim 1, characterized in that the cylinder contains a suction hole in the lower part, interfaced with the hole of the suction pipe with the formation of the suction channel. 9. The metering pump according to claim 1, characterized in that the cylinder cover comprises an end flange located between the cylinder flange and the inner surface of the nut end face. 10. The metering pump according to claim 9, characterized in that a gasket is located below the cylinder flange on its side surface. 11. The metering pump according to claim 1, characterized in that the rod comprises an annular protrusion located below the axial ribs of the fixation enhancing means with the possibility of interaction with the lower part of the lifting surfaces made on the surface of the central hole of the cylinder cover. 12. The metering pump according to claim 1, characterized in that the cylinder cover comprises a cylindrical seal located vertically and mating with the inner surface of the cylinder.

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