DE202015104900U1 - Device for the irradiation of liquids - Google Patents

Abstract

Device for the irradiation of liquids, in particular of circulated water of aquariums or ponds, with
- A housing (1, 1 ');
- A longitudinal space in the housing (1, 1 ') extending wet chamber (29) having an inlet opening and an outlet opening for the liquid to be treated;
- A drying space (30), in which at least one lighting means (12, 12 ') is arranged and which is sealed off from the wet space (29) by a transparent partition (13, 13');
characterized in that in the housing (1, 1 ') a glass tube (22, 22') is arranged, wherein the glass tube (22, 22 ')
The partition wall (13, 13 ') surrounds,
The outer wall of the wet space (29) forms,
- a reflective layer (23, 23 ')) and
- Is sealed at its ends relative to the housing (1, 1 ').

Description

Technical area

The invention relates to a device for irradiating liquids, in particular of circulated water of aquariums or ponds, with
A housing;
- A running in the housing in the longitudinal direction of wet space with an inlet opening and an outlet opening for the liquid to be treated;
- A drying room in which at least one light source is arranged and which is sealed off from the wet room by a transparent partition wall.

State of the art

Such devices are known, for example from the publications EP 0 427 432 B1 . EP 0 846 663 A2 and DE 10 2005 046 809 B4 , The illuminant usually radiates UV-C light, which is particularly well suited for sterilization. The wavelength range of UV-C light is between 200 and 280 nm, with 253.7 nm have proven good for sterilization. In these documents, the lamp is surrounded by a cylindrical partition. The partition wall is designed as a glass bulb closed on one side, when the electrical connections of the elongate luminous means are arranged at one end of the luminous means. However, there are also known embodiments in which the lighting means is provided on both sides with electrical connections and the partition is designed as a hollow cylinder open on both sides. The housing of these devices are usually made of plastic. Housing durability issues have been observed as plastics are generally not resistant to UVC radiation.

In the publication DE 30 13 892 A1 It is proposed to line a plastic outer casing with a reflective plate. Although this reduces the radiation load of the plastic, but is expensive to manufacture. In addition, the reflective plate has contact with the water flowing through the housing. If the plate is made of metal, it does not have sufficient resistance to the water to be purified, in particular during the irradiation of salt water.

Summary of the invention

The object of the present invention is to ensure a high service life of the device described here with high effectiveness of the sterilization effect and low production costs.

• – die Trennwand umgibt,
• – die Außenwand des Nassraums bildet,
• – eine reflektierende Schicht aufweist und
• – an seinen Enden gegenüber dem Gehäuse abgedichtet ist.

This object is achieved in that in the housing, a glass tube is arranged, wherein the glass tube

• - the partition surrounds,
• - forms the outer wall of the wet room,
• - Has a reflective layer and
• - Is sealed at its ends relative to the housing.

In other words, the liquid flowing through the housing is no longer in direct contact with the outer wall of the housing. Instead, a glass tube is disposed within the housing, which is sealed at both front ends relative to the housing. Glass has a very high chemical resistance and also a resistance to UV rays. Since the glass tube is designed to be reflective, no UV radiation reaches the side wall of the housing. The life of the case is significantly increased in this way.

Only the inner face of the housing is exposed to the flow of water and UV-C radiation. However, the double-tube UV-C lamps used radiate mainly in the radial direction, so that the frontal radiation, which still strikes the housing, is largely harmless.

For example, the reflective glass tube may be vapor-deposited or otherwise coated on its outside with a reflective metal layer. But it is also possible to coat the glass tube with a reflective layer, so that no UV-C radiation is emitted to the outside. A metal foil or a thin metal sheet can be wrapped around the glass tube and fixed there.

The reflective property of the glass tube or the reflective layer applied on its outside not only prevents deterioration of the plastic due to the UV-C rays. By reflecting the UV-C rays which have passed through the wet space, the total irradiation power which acts on the water which flows through the wet space surrounded by the reflective glass tube is also increased.

The seal against the housing is preferably made by rubber seals. Both ends of the glass tube can be supported by rubber rings on sealing surfaces of the housing.

As mentioned, the housing may be made of plastic.

The wet room may in practice be an elongate space of substantially annular cross-section between the glass tube and the partition wall be whose maximum radial extent between 5 and 25 mm, and preferably at 10 mm. Preferably, the wet space has a constant radial extent and has a circular cross-section. By restricting the radial extent of the wet space is avoided that within the wet space areas arise that have an impermissibly large distance from the bulb and therefore are not sufficiently treated by irradiation of UV-C rays. With a circular wet room with a radial extent of 10 mm, a very homogeneous and effective irradiation of the water flowing through the wet room can be achieved.

As in the prior art, the dividing wall may be a one-sidedly closed piston with a cylindrical cross-section arranged inside the wet space. This is especially true in the case where both power connections of the light source are arranged on the same side, as is often the case with double-tube UV-C lamps. The partition is preferably made of glass. Both for the production of the partition and for the production of the glass tube in particular a quartz glass is used which has a particularly high permeability for UV-C rays.

In practice, the volume surrounded by the glass tube may be connected at a first axial end to a first hose port on a side wall of the housing. Surrounded by the glass tube volume may be connected at a second axial end with a hose connection to a first end wall of the housing. The power supply for the lighting means may be arranged in the housing at its end, which is opposite to the first end wall. Because the water flows radially into the wet space in the region of one end of the housing, the power supply for the lighting means, in particular the ballast, can be arranged in the axial extension of the wet space. The outflow of the liquid from the wet space takes place substantially in the axial direction. The arrangement of a radial hose connection and an axial hose connection allows flexible use of the device described herein. In principle, it is preferable that the outlet opening, through which the liquid emerges from the wet room, at the highest point of the wet room. If the device is mounted vertically, d. h., If the longitudinal axis of the wet room extends from bottom to top in the vertical direction, the front hose connection is mounted above. Through this can then take place the outflow. In contrast, if the device described here is arranged horizontally, d. that is, when the longitudinal axis of the wet room is horizontal, the housing may be rotated so that the radially extending hose fitting is at the top of the housing and forms the outlet for the liquid. The inflow then takes place through the front side. Characterized in that the outlet opening, from which the liquid exits from the wet room, is located at the highest point, any air bubbles or gas bubbles entering the wet room will flow with the liquid in the flow direction up out of the wet room. It is not to be feared that gas bubbles will form, which remain permanently trapped in the wet room.

• – das Gehäuse besteht aus einem Fußteil und einem Kopfteil, welche in axialer Richtung aufeinanderfolgen und miteinander verbunden sind,
• – das Fußteil weist einen ersten Schlauchanschluss und das Kopfteil weist einen zweiten Schlauchanschluss auf,
• – an dem Fußteil sind das Leuchtmittel und die Trennwand befestigt und
• – das Glasrohr erstreckt sich zumindest durch einen Abschnitt des Kopfteils.

In practice, the device described here may include the following features:

• The housing consists of a foot part and a head part, which follow one another in the axial direction and are connected to one another,
• The foot part has a first hose connection and the head part has a second hose connection,
• - At the foot of the lamp and the partition are attached and
• - The glass tube extends at least through a portion of the head part.

This axial division of the housing allows optimal mounting of the housing. At the foot of the housing, the light source and the illuminant dividing wall (glass bulb) is attached, which delimits the drying room. The glass tube is slid over the dividing wall and preferably abuts against a radial wall of the foot part via a rubber sealing ring with a first end. Subsequently, the head part is pushed over the glass tube. Both the head part and the foot part are elongated and have a portion of the receiving space for the glass tube. In the head part is a second radial wall against which abuts a second end of the glass tube. Again, preferably, a rubber sealing ring between the end of the glass tube and the radial wall is arranged. The flow paths, which lead from the hose connections into the interior of the glass tube, open within the regions of the radial walls, against which the seals abut.

In practice, the two parts of the housing, i. H. the head part and the foot part are connected to each other by a screw connection.

Further, in practice, the housing may comprise at least one intermediate part, which is fastened between the foot part and the head part and is penetrated by the glass tube. Also, the intermediate part is preferably screwed at one end to the foot part and at the other end to the head part. Such a modular arrangement of the housing allows for identical components, the realization of several sterilization devices with different power levels. Bulbs with For example, a power of 5 W or 11 W has a relatively short length and can be accommodated in a housing consisting only of footer and headboard. Bulbs with a power of 18 W or 36 W have a greater length. Here, a substantially tubular intermediate part between the headboard and the footboard can be joined. In practice, the intermediate part has an external thread at one end and a thread at the other end. These threads interact with complementary threads on the headboard and footboard. It can also be screwed together several intermediate parts and inserted between the head and foot parts, if the length of the bulb requires it.

In the longitudinal direction, one end of the housing, namely the end, which is opposite to the first end wall with the hose connection, closed by a housing for a ballast of the lamp.

Brief description of the drawings

Embodiments of the invention will be described below with reference to the accompanying drawings.

1 shows a three-dimensional side view of a sterilization device.

2 shows an exploded view of the components of the sterilization device 1 without bulbs.

3 shows an exploded view of the sterilization device 1 with lamp and partition for the drying room.

4 shows a sectional view of the head portion of the housing with therein befindlichem illuminant.

5 shows a three-dimensional representation of a second embodiment of the device described here.

6 shows an exploded view of the components of the device 5 ,

Description of the embodiments

The in the 1 The device shown is commercially referred to as a water clarifier or degerminator. It is traversed by a liquid, in particular pond water or aquarium water, wherein the liquid flows past within the housing of the water clarifier at a light source that emits UV-C rays. The UV-C rays reliably kill algae cells, bacteria, fungal spores and other microorganisms in the water.

The device from the 1 - 4 has a housing 1 made of plastic. In the 1 is the case 1 by means of a wall holder 2 and a small hill 3 fixed so that it can be mounted in a suitable location.

The housing 1 consists of a headboard 4 and a foot part 5 , The headboard 4 has at its front end an external thread 6 for a hose connection 7 ( 3 ) on. The hose connection 7 has three different diameter steps so that tubing with different diameters can be connected. Of course, alternative hose connections can be used, which allow the connection of smaller or larger hoses.

The foot part 5 of the housing 1 has a radially to the flow direction and the longitudinal direction of the housing 1 extending nozzle with an external thread 8th on. On the external thread 8th may be a radially extending hose connection 9 be screwed on. This hose connection 9 Consequently, it extends in the radial direction from a side wall or a lateral wall portion of the cylindrical wall of the foot part 5 of the housing 1 , The substantially tubular foot part 5 of the housing 1 points to his from the headboard 4 opposite end of a connecting ring 10 on, connecting to the housing of the ballast 11 for the light source 12 allows. The housing of the ballast 11 has projections with complementary receptacles of the connecting ring 10 interact in the manner of a bayonet closure.

On the housing of the ballast 11 is the light source 12 as well as the bulbs 12 surrounding partition 13 attached, which by a unilaterally closed glass bulb 13 is formed. The glass bulb 13 has at its open end a sealing sleeve 14 made of rubber, which liquid-tight in a cylindrical receptacle 15 on the housing of the ballast 11 is pluggable. A union nut 16 fixes the glass bulb 13 on an external thread 17 the housing of the ballast 11 , A spacer 18 Plastic is on the free end of the bulb 12 inserted and positioned this centered in the closed end of the glass bulb 13 , seals 19 . 20 and 21 Make sure that the screw connections of the hose connections 7 . 9 and the housing of the ballast 11 are tight.

In 2 is also the glass tube 22 to recognize the outer boundary of the wet room forms. On its outer wall, a layer of reflective material is applied. It is in the present case a thin metal foil 23 , At the two front ends of the glass tube 22 are two sealing rings 24 . 25 made of rubber, which rest on the ends of the glass tube 22 be plugged. The sealing rings made of rubber 24 . 25 each have a groove in which a few millimeters of the end of the glass tube 22 be plugged in. These grooves simultaneously fix the metal foil 23 extending over the entire length of the glass tube 22 extends. Alternatively or additionally, the metal foil 23 glued or otherwise attached to the glass tube 22 be fixed. It is also possible to apply a metal layer to the glass tube 22 evaporate. However, such a firm connection is not absolutely necessary because the metal foil 23 or any other metal layer is not exposed to the flow and consequently is not stressed or worn during operation of the device.

For connecting the headboard 4 with the foot part 5 of the housing 1 has the foot part 5 an external thread 26 and the headboard 4 an internal thread 27 on. When screwing the external thread 26 with the internal thread 27 becomes on the one hand the radially extending end wall 28 of the headboard 4 with the hose connection 7 and, on the other hand, an annular wall extending radially inwardly a few millimeters in the foot part 5 against the sealing rings 25 and 24 pressed. The glass tube is clamped in this way in the axial direction. The glass tube 22 is about the sealing rings 24 . 25 effective against the outer wall of the housing 1 sealed. The fluid flow from the radial hose connection 9 at the foot part 5 runs on the union nut 16 with which the glass bulb 13 on the external thread 17 screwed is over in the wet room 29 between glass flasks 13 and glass tube 22 , In the area of the front wall 28 of the head part, the fluid flow enters from at least one passage opening in the end wall 28 from which of the external thread 6 is surrounded and in the hose connection 7 empties. In the reverse flow direction, the flow enters the front side and through the radially extending hose connection 9 at the foot part 5 out.

4 shows a sectional view of the head part 4 of the housing 1 , The wet room 30 , which is flowed through by the water in the axial direction, is sealed on the outside by the glass tube 22 limited. On the inside, the partition limits 13 (Glass bulb) the wet room 30 and delimits this from the drying room 29 in which the light source 12 is arranged.

It can be seen that the wet room 30 has a circular cross-section and extends to all sides over a distance of about 10 mm in the radial direction. Due to the small extent of the wet room 30 in the radial direction are also the outer areas of the wet room 30 irradiated with sufficiently intense UV radiation. On top of that, the reflective layer 23 UV radiation back towards the bulb 12 casts and the irradiation intensity at the edge area of the wet room 30 near the glass tube 22 additionally intensified. The construction proposed here thus causes over the entire cross section of the wet room 30 intensive radiation and effective germ killing takes place.

The 5 and 6 show another embodiment of the device from the 1 to 4 , The same components are provided here with the same reference numerals. The main difference is the longer length of the bulb 12 ' , the flask 13 ' and with metal foil 23 ' coated glass tube 22 ' , To accommodate these longer components, the housing has 1' two additional intermediate parts 31 on. The additional intermediate parts 31 have a substantially tubular shape and have at their axial ends in each case an external thread 32 and an internal thread 33 on. The external thread 32 of the intermediate part 31 corresponds to the external thread 26 of the foot part 5 , The internal thread 33 of the intermediate part 31 corresponds to the internal thread 27 of the headboard 4 , In this way, the housing can 1' by interposing several intermediate parts 31 be extended so that it is light bulbs 12 ' can accommodate variable length.

LIST OF REFERENCE NUMBERS

1, 1 '

casing

2

wall mount

3

clamp

4

headboard

5

footboard

6

external thread

7

hose connection

8th

external thread

9

hose connection

10

connecting ring

11

Housing of the ballast

12, 12 '

Lamp

13, 13 '

Partition, glass bulb

14

sealing sleeve

15

cylindrical receptacle

16

Nut

17

external thread

18

spacer

19

seal

20

seal

21

seal

22, 22 '

glass tube

23, 23 '

Metal foil, reflective layer

24

Rubber sealing ring

25

Rubber sealing ring

26

external thread

27

inner thread

28

bulkhead

29

wet room

30

drying room

31

intermediate part

32

external thread

33

inner thread

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0427432 B1 [0002]
• EP 0846663 A2 [0002]
• DE 102005046809 B4 [0002]
• DE 3013892 A1 [0003]

Claims (13)

Apparatus for irradiating liquids, in particular circulated water from aquariums or ponds, comprising - a housing ( 1 . 1' ); - one in the housing ( 1 . 1' ) longitudinally extending wet space ( 29 ) having an inlet opening and an outlet opening for the liquid to be treated; - a drying room ( 30 ), in which at least one light source ( 12 . 12 ' ) and the opposite of the wet room ( 29 ) through a transparent partition ( 13 . 13 ' ) is sealed; characterized in that in the housing ( 1 . 1' ) a glass tube ( 22 . 22 ' ), wherein the glass tube ( 22 . 22 ' ) - the partition ( 13 . 13 ' ), - the outer wall of the wet room ( 29 ), - a reflective layer ( 23 . 23 ' )) and - at its ends relative to the housing ( 1 . 1' ) is sealed. Device according to claim 1, characterized in that on the outside of the glass tube ( 22 . 22 ' ) a reflective metal layer ( 23 . 23 ' )) is applied. Device according to one of the preceding claims, characterized in that the housing ( 1 . 1' ) consists of plastic. Device according to one of the preceding claims, characterized in that the wet space ( 29 ) an elongate space having a substantially annular cross section between the glass tube ( 22 . 22 ' ) and the partition ( 13 . 13 ' ) whose maximum radial extent is between 5 and 25 mm and preferably 10 mm. Device according to one of the preceding claims, characterized in that the partition wall in the interior of the wet room ( 29 ) arranged on one side closed glass bulb ( 13 . 13 ' ) is cylindrical in cross-section. Device according to one of the preceding claims, characterized in that the glass tube ( 22 . 22 ' ) surrounded volumes at a first axial end with a first hose connection ( 9 ) on a side wall of the housing ( 1 . 1' ) connected is. Apparatus according to claim 6, characterized in that the glass tube ( 22 . 22 ' ) surrounded at a second axial end with a second hose connection ( 7 ) on a first end wall ( 28 ) of the housing ( 1 . 1' ) connected is. Apparatus according to claim 6 and 7, characterized in that the power supply for the lighting means ( 12 . 12 ' ) in the housing ( 1 . 1' ) is arranged at the end, that of the first end wall ( 28 ) is opposite. Device according to one of the preceding claims, characterized by the following features: - the housing ( 1 . 1' ) consists of a footboard ( 5 ) and a headboard ( 4 ), which follow each other in the axial direction and are connected to each other, - the foot part ( 5 ) has a first hose connection ( 9 ) and the head part ( 4 ) has a second hose connection ( 7 ), - on the foot part ( 5 ) are the bulbs ( 12 ) and the partition ( 13 ) and - the glass tube ( 22 ) extends at least through a portion of the head part ( 4 ). Apparatus according to claim 9, characterized in that a first end of the glass tube ( 22 ) against a radial wall of the foot part ( 5 ) and a second end of the glass tube ( 22 ) against a radial wall of the head part ( 4 ) is present. Device according to claim 10, characterized in that between the ends of the glass tube ( 22 ) and the radial walls of sealing rings ( 24 . 25 ) are arranged. Device according to one of claims 9 to 11, characterized in that the housing ( 1' ) at least one intermediate part ( 31 ), which between foot part ( 5 ) and headboard ( 4 ) and from the glass tube ( 22 ) is penetrated. Device according to one of the preceding claims, characterized in that the housing ( 1 . 1' ) in the longitudinal direction at one end of a housing ( 11 ) for a ballast of the illuminant ( 12 ) is closed.

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