WO1988009901A1

WO1988009901A1 - Device for continuously supplying liquid or viscous media, in particular lubricants

Info

Publication number: WO1988009901A1
Application number: PCT/DE1988/000316
Authority: WO
Inventors: Bernd Jorissen
Original assignee: Gebhard Satzinger Gmbh & Co.
Priority date: 1987-06-01
Filing date: 1988-05-28
Publication date: 1988-12-15
Also published as: AU1794288A; DE3718342C1

Abstract

A device for continuously supplying liquid or viscous media, in particular lubricants, comprises a receptacle (1) subdivided, by means of a separating element (7) or similar, into a chamber (8) for receiving the medium and into a pressurized gas chamber (9), and also comprises a cell (19, 20) arranged in an insert (17). Said cell (19, 20) serves for the electrochemical production of a gas, which is fed into the pressurized gas chamber (9) so as to create a pressure which moves the separating element (7), and thus forces the medium out of the chamber (8). In order to prevent the ingress of harmful substances into the insert and to avoid accidental closure of the circuit, a valve (30) closed in relation to the outside atmosphere and opening when the insert (17) is inserted in the cover (2) of the receptacle is arranged in the pressurized gas outlet channel (33) in the insertion (17).

Description

Device for the continuous supply of liquid or viscous media, in particular lubricants

The present invention relates to a device for the continuous supply of liquid or viscous media, in particular lubricants, according to the preamble of claim 1.

German patent application P 3644207.0 describes a device of this type in which a galvanic cell is slidably arranged in an insert that can be inserted into the container lid, which is inserted into the container by a projection in the container lid against which the cell comes into contact Container lid is pushed into the circuit, whereby the gas generation begins.

In this known embodiment, there is a risk that when the insert is not in use - after the bore in the insert in which the cell is displaceably arranged, before the insert is inserted is unlocked - oxygen enters from the atmosphere and thus causes an undesired discharge of the cell. Other dirt particles or liquids can also penetrate during the storage of the inserts and make them unusable. There is also the risk that the circuit will be closed by any external influences before the use of the insert, and thus the gas generation will start unintentionally. German patent specification 1256001 discloses an automatic lubricant dispensing lubrication sleeve in which a device for gas evolution is provided in a tightly closed expandable body. The device consists of a galvanic element, the positive of which is electrically connected to the negative electrode. The two electrodes can be brought into this by a screw from a space closed by the electrolyte liquid in the expandable body.

In this known embodiment, there is a risk that the gas development and thus the lubricant dispensing will be started by inadvertently screwing in the screw. Once gas evolution has started, it can no longer be stopped, and retrofitting of electrolyte liquid and lubricant is also not possible without difficulty.

The present invention has therefore set itself the task of improving the device so that the entry of harmful substances into the insert is prevented before insertion into the container lid. At the same time, an unintentional closing of the circuit is also to be effectively prevented and, in addition, the device can be retrofitted by replacing the cell and / or the container for the medium.

This object is achieved by the feature listed in the characterizing part of patent claim 1.

Due to the valve inserted in the outlet channel for the compressed gas in use, this outlet channel is closed before the insert is inserted, so that no harmful substances and gases can enter. At the same time, this opening is closed again when the insert is removed from the container lid.

After this valve is part of the circuit according to a further feature of the invention, it is safely interrupted when the insert is removed.

In this case, a displaceable arrangement of the cell can even be dispensed with. The valve closes the circuit and thus starts the gas generation.

According to a further feature of the invention, the valve is provided with a projection directed against the cell, by means of which the cell is displaced in the receiving bore when the insert is inserted, as a result of which the circuit is closed.

In order to open the valve, it is provided according to a development of the invention with a protrusion projecting outwards beyond the insert, which is supported on a support surface of the container lid receiving the insert. The switch position of the circuit can be recognized from this outwardly projecting valve projection. In order to securely close the valve when removing the insert and to guarantee an absolute seal to the outside even before installation, the valve is loaded with a spring. The device according to the invention not only permits an interruption of the gas evolution, but also enables the insert with the cell - insofar as it has not yet been used up - to be placed on a new container even if the container for the medium to be dispensed is emptied. Furthermore, if a check valve is arranged in the container lid, it is possible to place another insert with an unused cell or with a different gas development on the container without the compressed gas already generated being able to escape. In this way, even after the initial start-up, the individual parts of the device can be replaced by others that are better adapted to the application, or combined differently.

The invention will be described below with reference to a preferred embodiment of a lubricating sleeve.

1 shows a partial cross section through a lubricating sleeve with the essential parts before starting.

Fig. 2 is an enlarged detail with the detail at "x" of FIG. 1, with the insert already inserted in the container lid, d. H. after commissioning.

1 and 2 consists of a container 1, which is closed at the top with a container lid 2 and at the bottom with a funnel-shaped base 3 to be fastened via a thread 5 in the machine part to be lubricated, with an outlet opening 4. In the cylindrical bore 6 of the container 1, a piston 7 is slidably inserted, which separates the lubricant chamber 8 facing the bottom 3 from the compressed gas chamber 9 and which, in the operating state, presses the lubricant from the lubricant chamber 8 through the outlet opening 4 into the machine part to be lubricated. In this example, the container lid 2 is provided with a sleeve-shaped extension 10, the bottom 11 of which has through-openings 12 for the compressed gas. In the area of the central axis, the floor 11 is provided with a support surface 13. In the bore 16 provided with an internal thread 14 of the sleeve-shaped extension 10 is screwed an insert 17 provided with an external thread 15, which has a bore 18 for receiving two cells 19 and 20 consisting of an anode, cathode and an electrolyte for generating a gas.

The two cells 19 and 20 are connected to one another via a power line 21 in which an external electrical resistor 22 is arranged. An elastic spring element 23 is provided between the two cells 19 and 20, which presses the two cells 19 and 20 apart when the insert 17 is not in use. In the non-inserted state, this spring element 23 rests only on the insulating layer 25 of the cell 20 via the tongues 24, so that the circuit is not closed and gas generation does not yet begin.

At the end of the bore 18 for receiving the two cells 19 and 20 to the outside, a valve 30 loaded by a spring 29 is provided, the valve surface 31 of which is pressed against a correspondingly designed surface 32 of the outlet channel 33 for the compressed gas in the bottom 34 of the insert 17 . This valve 30 has a projection 35 directed against the cell 19 and also a projection 36 projecting outwards via the insert 17, which protrudes on the support surface 13 in the base 11 of the attachment 10.

When inserting insert 17 into extension 10, valve 30 is thereby pressed upwards against the action of spring 29 and against cell 20. The cell 20 moves upwards, as a result of which the spring element 23 is deformed such that its eye-shaped section 27 comes to rest on the surface 28 of the cell 20. As a result, the electrical circuit between the two cells 19, 20 is closed and gas generation can begin. (Fig.2) The generated gas enters through the through holes 12 in the compressed gas chamber 9 and presses the expansion body 37, which closes off the compressed gas chamber 9, and pushes the piston downward and thus the lubricant against the outlet opening 4 into the machine part to be lubricated.

Known galvanic cells such as z. B. used in hearing aids or for the generation of hydrogen or oxygen gas.

It is possible to install the valve in the circuit so that when the valve 30 is opened when the insert 17 is screwed in, the latter closes the previously open circuit. In this case, the cell 20 does not have to be arranged displaceably in the bore and the spring element 23 acting as a switch can be omitted. Furthermore, the eyelet-shaped tongue could take over the closing of the valve 30 by a suitable design. An insulating rubber-like spring for closing the valve and for moving the cell 20 is also possible between the cells 19 and 20. A contact spring could be on or in the spring. which closes the circuit.

Claims

1. Device for the continuous supply of liquid or viscous media, in particular lubricants, with a container divided by a separating device into a chamber for receiving the medium and into a compressed gas chamber and at least one arranged in an insert and when inserting the insert into the container lid in Gear settable, consisting of anode, cathode and an electrolyte, compact cell for the electrochemical generation of gas, which is passed via an outlet channel into the pressure gas chamber and builds up a pressure there, through which the separating device is displaced and thereby the medium from the channel Conveys out chamber for receiving the medium, characterized in that in the outlet channel (33) for the compressed gas in the insert (17) there is provided a valve (30) which closes against the outside and opens when the insert (17) is inserted into the container lid (2) is.

2. Device according to claim 1, characterized in that the valve (30) is part of the cell (19, 20) receiving circuit which is closed when the valve (30) is opened.

3. Device according to one of claims 1 or 2, characterized in that the valve (30) is provided with a projection (35) directed against the cell (19, 20).

4. Device according to one of claims 1 to 3, characterized in that the valve (30) with an over the insert (17) outwardly projecting projection (36) is provided, which after inserting the insert (17) in the The container cover (2) is supported on a support surface (13) of the container cover (2).

5. Device according to one of claims 1 to 4, characterized in that the valve (30) is loaded with a spring (29).

6. Device according to one of claims 1 to 5, characterized in that a check valve is used in the container lid (2).