DE2554957A1 - Constant-rate carbon dioxide generator for aquarium - having system in which overpressure in diffuser automatically reduces gas generation - Google Patents

Abstract

Appts. for the controlled rate of prodn. of carbon dioxide for feeding plants in an aquarium has a container partly filled with limestone, this container is placed inside a second vessel contng. acid which passes through a tube in the first container to the limestone, and the carbon dioxide produced passes through a hole at the top of this first container to a diffusion chamber immersed in the aquarium. The chamber has e.g. PTFE or silicone walls permeable to gas. The carbon dioxide diffuses out into the aquarium more slowly than it is generated, the resultant pressure rise forces the acid downwards in the tube away from the limestone. Acid only thus reaches the limestone as is required to maintain working pressure.

Description

Device for the metered generation of carbon dioxide

Aquatic plants need nitrogen food to grow and light also a certain supply of carbonic acid. This carbonic acid is in one Aquarium sparsely populated with fish and in insufficient water in soft water Amount available. It has to be pondered.

A device is known that has a commercially available carbon dioxide cartridge can absorb and the carbon dioxide via an adjusting valve in one in the aquarium Leads located container, which makes it possible that the added amount of carbon dioxide can be washed into the water. This procedure is cumbersome because you must draw a dosed amount of carbon dioxide from the cartridge every day.

The above invention relates to a device dos over a Carbon dioxide is generated evenly and without maintenance for a longer period of time and in dos Wash in aquarium water.

Based on the device described at the beginning, this is done according to the invention solved in that a partially filled with limestone 12 container 6 so in one Another vessel 1 is attached that in this vessel 1 existing acid 5 through a tube 8 attached to the bottom of the container 6 into this container 6 to the Limestone 12 arrives and the resulting carbon dioxide through a top in the container 6 attached opening is passed to a diffusion chamber 15, which is in the aquarium is immersible.

An exemplary embodiment of the invention is described with the aid of a sketch.

A vessel 1, consisting of a preferably cylindrical and transparent one Tube 2, as well as a base 3 and a cover 4, are partially filled with acid 5.

Through the lid 4, a container 6 is let into the vessel 1, which is more than half immersed in the vessel 1. In the bottom 7 of the container 6 a tube 8 is introduced, which extends to a few millimeters to the bottom 3 of the Vessel 1 reaches down. The acid 5 filled in through the container 6, e.g. diluted Hydrochloric acid is also in the vessel 1 up to a marked filling level 9, which is about 15 mm above the bottom 7 of the container 6. In the lid 4 of the vessel 1 there is an opening 10 which can be closed by a plug 11.

This stopper 11 is during the filling of the vessel 1 and the Container 6 with acid 5 removed. A piece of limestone 12 that goes into the container 6 is introduced, is slowly dissolved by the acid 5 with formation of carbon dioxide.

This carbon dioxide flows through a pierced plug 13, the It was attached to the container 6 via a hose into a diffusion chamber 15 immersed in the carbonated water.

The diffusion chamber 15 is a container with one or more walls Made of gas-permeable material, e.g. PTFE or silicone film, which is also fabric-reinforced can be. In the illustrated embodiment, the diffusion chamber 15 consists of an approx. 10 mm wide ring 16 made of plastic, which at its end faces 17 is closed with fabric-reinforced silicone 18. The ski pipe 14 leads radially through the plastic ring 16. Since the flowing into the diffusion chamber 15 Carbon dioxide cannot diffuse through the silicone layer 18 as quickly as it can it is generated, there is an increase in pressure in the carbon dioxide area. This causes the acid 5 in the container 6 to flow through the tube 8 in the vessel 1 is displaced. The acid in vessel 1 acts as counter pressure 5 and the dorilber standing column of air. If the acid 5 of the Limestone 12 is displaced, the carbon dioxide formation decreases, whereupon the The overpressure goes back, which causes the acid 5 to rise in the tube 8 causes. The pressure regulates itself in such a way that only enough acid 5 reaches the limestone 12, as is necessary to maintain the pressure. In carbon dioxide production A salt solution is formed which is heavier than the acid 5 and sinks through the pipe 8. The production of carbon dioxide continues in the manner described for so long until either the limestone 12 has completely dissolved or the acid 5 is consumed is. The device can then be operated again with a new charge.

L e r s e i t e

Claims (9)

Claims 1. Device for the metered generation of carbon dioxide for fertilizing plants in an aquarium, characterized in that a Container (6) partially filled with limestone (12) like this in another vessel (1) is attached, dc- In this vessel (1) existing acid (5) through a bottom pipe (8) attached to the container (6) in this container (6) to the limestone (12) and the resulting carbon dioxide passes through a top in the container (6) Opening to a diffusion chamber (15) is passed, dl. Can be immersed in the aquarium Is. 2. Apparatus according to claim 1, characterized in that dou a vessel (1), partially consisting of a tube (2) and a base (3) and a cover (4) is filled with acid (5), through the lid (4) into the vessel (1) a container (6) Is let in, in the bottom (7) a tube (8) is inserted, which up to short Above the bottom (3) of the vessel (1), the lid (4) has an opening (10), which can be closed by a stopper (11), the container (6) with a The hose (14) is connected in a gas-tight manner at its other end with a diffusion chamber (15) which has one or more walls (18) made of gas-permeable, but waterproof plastic has been sealed and placed in the container (6) a piece of limestone (12) is introduced. 3. Apparatus according to claim 1, characterized in that the vessel (1) and the container (6) are made of transparent material. 4. Apparatus according to claim 1, characterized in that on the vessel (1) or on the container (6) marks for filling heights of the acid (5) attached are. 5. Apparatus according to claim 1, characterized in that the introduced Piece of limestone (12) has an elongated shape. 6. Apparatus according to claim 17, characterized in that the Gefdss (1) is less than half full with acid (5). 7. Apparatus according to claim 1, characterized in that the bottom (3) of the vessel (1) is designed so that the vessel (1) is independent of the place of use can be operated standing. 8. Apparatus according to claim 1, characterized in that the diffusion chamber (15) consists of a plastic ring (16) which on its front sides (17) with a or two gas-permeable plastic films <18) is closed. 9. Apparatus according to claim 1, characterized in that the gas-permeable Plastic films (18) are made of PTFE or silicone and can be fabric-reinforced.