DE2732888A1 - Manual piston pump for atomiser - has spring loaded tubular valve with inlet in hollow piston of cylinder with outlet valve seat - Google Patents

Abstract

The manually operated piston pump partic. for an atomiser, comprises a closable inlet opening (49), an outlet valve (23) whose closure dome (29) slides in the hollow (25) pump piston (7), and a spring (31) which returns the piston and closes the valve. The closure dome has a tubular portion (27) extending into the hollow piston, the tube wall containing the inlet (49), which, in the rest position, connects with the pump chamber (55) and is located just above the seal (45) between tube (27) and piston (7). The OD of the tube (27) is >= the dia. of the valve seat (23) which forms the outlet opening of the pump cylinder (13).

Description

State of the art, task and solution

The invention relates to manually operated piston pumps, those for pumping liquids, in particular for expelling and atomizing the Liquid stored in a container, preferably a bottle, is used.

The piston pump mentioned in the preamble of claim 1 is from DT-AS 12 01 684 known. In this known piston pump, the outlet valve first opened by hand before the actual expulsion process begins. The liquid can therefore escape even at very low pressure, although it is not flawless can be atomized.

The present invention is intended to create a piston pump, in which the expulsion process does not take place at the beginning of the manual operation, but only after reaching a certain pressure in a pressure chamber begins, so that the Liquid escapes suddenly and can be atomized properly. The expulsion process should stop immediately if a certain minimum pressure is not reached in the pressure chamber there is more. This is intended to prevent the annoying trickling of pumps provided Avoid atomization.

Regardless of this, the pump should also be used to expel liquids be suitable in the form of a jet, i.e. not atomized. This expulsion should also be under take place relatively high pressure, so that z. B. a large range of the beam can be achieved is.

After all, the pump should use as few individual parts as possible manufacturable and easy to assemble.

All of this is achieved at the same time by the invention according to claim 1.

Because the outer diameter of the pipe is larger than the diameter of the valve seat and the end surface of the tube forms the valve closure part, is on the annular area of this end face, which is outside the valve seat pressure is exerted when the piston pump is actuated. This results in a force acting in the axial direction which tends to compress the compression spring. While the pump is operating, the pressure in the pressure chamber increases as long as until finally the closure part of the valve lifts from its seat and liquid suddenly emerges from the pressure chamber into the open air. The exhaust valve remains until The end of the piston stroke opens when the user moves the piston and cylinder further quickly squeezes.

If the pressure is insufficient, however, the outlet valve closes immediately again, whereby the unwanted dripping is reliably prevented.

Further developments of the invention By a further development of the invention according to claim 2, the individual parts of the piston pump are designed so that they by can be easily and quickly assembled by simply plugging them into each other.

Through a development according to claim 5, the number of required Parts reduced.

Explanation of the Invention An embodiment of the invention is explained below with reference to the drawing.

The only figure shows in its left half in axial section, in its right half is a side view of an atomizer pump according to the invention.

A screw cap 1 holds with the help of an annular lip 3 as a The whole with 5 designated insert part, the hollow piston 7 and the pipe socket 9 has. The annular space 11, in which the pump cylinder is located, is located between the two 13 intervenes. An outlet pipe 15 goes into the cylinder with a transition part 17 13 over. On the outlet pipe, a spray nozzle 19 is provided in a known manner, which communicates with the interior of the outlet pipe. The cylinder lets itself through operate a handle 21 attached to the top of the outlet tube and the spray nozzle 19 records.

The lower opening of the outlet pipe 15 serves as a valve seat 23.

The piston 7 has a cavity 25 within which the tube 27 is displaceable is housed. The tube is open at the bottom and closed at the top. Its closed Part represents the valve closure part 29. The outer diameter of the tube 27 is much larger than the diameter of the valve seat 23. In the interior 30 of the tube 27 and a compression spring 31 made of stainless spring wire is housed in the cavity 25, which is supported on the upper end of the tube and on the bottom of the cavity 25. She presses the closure part 29 against the valve seat 23 and thus presses the cylinder 13 opposite the piston 7 upwards.

The upward or outward movement of the cylinder 13 is through a cylindrical extension 33 of the screw cap 1 limited by the fact that the approach with an inner flange 35 overlaps a shoulder 37 a upper end of the cylinder 13. The inward movement of the piston is limited by the fact that a sleeve-like approach 39 of the handle 21 finally abuts against the cover plate 43 of the screw cap 1.

The piston 7 has two lip seals 45 and 47, of which the one (47) on the inner wall of the cylinder 13 and the other (45) on the outer wall of the tube 27 rests in a sealing manner. The tube 27 has an inlet port 49 through which sucked liquid can enter a pressure chamber 55.

The inlet opening is through the lip seal 45 at the beginning of the Delivery stroke lockable. The annular space 11 has a compensation opening 53, which with the Inside the container, e.g. B. a bottle is in connection, on his / her Threaded neck the cap 1 is screwed.

On a sleeve-like extension 57 of the screw cap 1 can be a Insert protective cap 59.

Mode of operation After removing the protective cap 59, the handle 21 first depressed and then released, the cylinder 13 moves under the influence of the compression spring 31 upwards, with liquid in the cavity 25 and the interior 30 of the pipe is sucked. The inlet port 49 is only on released at the upper end of the suction stroke. Then liquid flows out of the interior 30 in the pressure chamber 55. When the subsequent depression of the Cylinder 13, the pressure chamber 55 is reduced in size. Here, pressure is applied to the upper outer, conical surface 61 of the closure part 29 exerted, as far as this area outside of the valve seat 23 is located. This results in a force in the direction of the arrow 63, which after a fraction of the total possible stroke (e.g. a quarter of the stroke?) is so great that it overcomes the force of the compression spring 31, so that the closure part 29 opens and liquid suddenly flows out of the pressure chamber 55 the outlet pipe 15 and the nozzle 19 enter the open air with atomization. Will handle 21 quickly pressed down further, the atomization process lasts until the end of the Hubes, where it suddenly stops when parts 39 and 43 strike. The compression spring 31 then immediately closes the exhaust valve.

If, on the other hand, the user presses the handle 21 only cautiously, so the exhaust valve finally opens too. The resulting pressure drop in the chamber 55, however, leads to an immediate closing of the outlet valve. at This process can be repeated a few more times if you press it down further. Even in the case of timid use, the immediate, possibly multiple closing the outlet valve prevents dripping.

Assembly The injection molded plastic parts can be installed in simply plug into each other. You start with the cylinder 13 with his Tube 15, but still without the handle 21, to be inserted into the screw cap 1 from below. Then the handle with the atomizer and the protective cap 59 can be put on. These parts are now turned upside down and the tube 27 is guided with the compression spring 31 and pushes the insert 5 over it until the ring lip seals 45, 47 reach their position shown and the pipe socket 9 engages under the annular lip 3.

L e r s e i t e

Claims (5)

K O L B E N P U M P E Patent claims Manually operated piston pump, especially for liquid atomizers, with a lockable inlet opening and an outlet valve, wherein the closure part of the outlet valve is formed in the hollow Piston of the pump is guided and a pressure fiber at the same time to reset the piston and serves to close the exhaust valve, thereby g e k e n n n n z e i c h n e t - that a tube (27) in the cavity (25) of the piston (7) is displaceable with a seal Is performed, - that an outlet opening of the pump cylinder as the outlet valve seat (23) (13) is used - that the tube with its upper, closed end the valve closure part (29) and has the inlet opening (49) in its pipe wall, which in the rest position to the pump pressure chamber (55) is open and tightly outside the seal (through 45) between piston (7) and tube (27) and - that the outside diameter of the tube is larger than the diameter of the valve seat (23). 2. Piston pump according to claim 1, characterized in that g e k e n n -z e i c h n e t that the pump cylinder (13) in an annular space (11) between the piston (7) and engages a pipe socket (9) surrounding the piston, which on one of the outward movement of the cylinder and piston delimiting component (1, 33) is attached. 3. Piston pump according to claim 2, characterized in that g e k e n n -z e i c h n e t that the component (1, 33) limiting the outward movement is also used for attachment the piston pump at a container mouth is used. 4. Piston pump according to one of the preceding claims, characterized in that g e k e n n n n n e i c h n e t that to limit the inward movement of the piston (7) and cylinder (13) mutual stops (23, 43) are used, which on a cylinder actuation serving handle (21) and on the component (1, 33) are attached. 5. Piston pump according to one of the preceding claims, characterized g e it is not indicated that the compression spring (31) is in the interior (30) of the tube (27) and the lIohlraum (25) of the piston is housed.