DE3024210C2 - - Google Patents

Description

The invention relates to a metal block thermostat according to the Preamble of claim 1.

Such metal block thermostats are used in the Implementation of various measurement methods. With advantage become the metal block thermostats in measurement methods chemical oxygen demand (COD).

DE-GM 71 13 472 describes a generic metal block Thermostat known that has a metallic heating block with open top holes for the analysis samples and an electrically heated floor heating plate. The floor heating plate has one from the side  accessible insertion opening for a rod-shaped design heat sensor. The heating is by the heat sensor the heating block can be switched off at a certain time, but the heating block still has residual heat, which further heats up the analysis samples. This has the night part that gradually by hand out of the heating block taking analysis samples of the residual heat in the heating block be reheated for different times, which inevitably frequently inaccuracies in the length of the reaction time occur.

A thermoblock is known from DE-GM 19 36 253 which the test samples collectively by a metallic Thermoblock in and out of a radiator can be brought out again. The same goes from DE-OS 20 49 199, which is a tempering frame with a variety attached container for one reagent each glass for receiving substance samples. The recording containers and the test tubes used in them for heating the substance samples in a bath with a tempered temperature Liquid set and after the tempering before ganges out of the bathroom with all test tubes at the same time taken out.

Both DE-GM 19 36 253 and DE-OS 20 49 199 have the disadvantage that the thermoblock or the recording container of the temperature control frame after moving out of the Radiator or the ver with the tempered liquid seen bath still have stored residual heat, whereby the test tubes are further heated until they are hand-made little by little, at different times, from the Thermoblock or the receptacles can be removed. This also means that the samples are of different lengths Temperature control time exposed, which in turn causes inaccuracies arise.

Proceeding from this, the invention is based on the object the generic metal block thermostat further  develop that all reaction vessels independently of one Operator simultaneously and independently from the Metal block are lifted out, in such a way that the still warm metal block no heat to the reaction vessels can deliver more.

To achieve this object, the metal according to the invention has block thermostat the features of claim 1. By this combination of features makes it possible to use all Reactions of an equally long and precisely defined heating time in the metal block without doing it needs an operator.

Advantageous further developments of the metal according to the invention block thermostats can be found in the subclaims.

A preferred embodiment of the metal block thermostats will be explained in more detail below with the aid of the drawing explained. The only figure in the drawing concerns one Section through the block thermostat, the left one Half the reaction vessel in the retracted and the right Half shows the reaction vessel in the extended state.

The metal block thermostat 10 consists of a metal block 11 , which in turn has bores 17 for receiving reaction vessels 12 . Heating elements 24 are also provided in the metal block 11 . The sides of the metal block 11 which are not provided with the bores 17 are surrounded by thermal insulation 25 .

The reaction vessels 12 are held together by a support plate 16 . This support plate 16 is height-adjustable by means of lifting drives 14 . This makes it possible to simultaneously insert the reaction vessels 12 into or out of the bores 17 .

The lifting drives 14 can be locked and unlocked in the position of the reaction vessels 12 (left side of the drawing) retracted into the bores 17 . Lifting rods 15 , which are under tension from springs 15 , can advantageously be used as lifting drives 14 , as shown in the drawing.

At least two, but as a rule, four lifting drives 14 are provided with a rectangular plan of the metal block 11 . Each two advantageously diagonally opposite lifting drives 14 can each be locked by means of a pawl 19 in the retracted position of the reaction vessels 12 (left side of the drawing). In the extended position of the reaction vessels 12 (right side of the drawing), the linear drives 14 are locked ent.

The two pawls 19 can be actuated simultaneously by means of a coupling rod 20 , in such a way that in the retracted position of the reaction vessels 12 both pawls 19 are in the locked position according to the left side of the drawing and in the extended position of the reaction vessels 12 in the release position according to the right side of the drawing. This can be made possible in a simple manner that the two pawls 19 are pivotally mounted as shown in the drawing and the coupling rod 20 is articulated once below the pivot bearing (left side) and one above the pivot bearing (right side) on the pawls 19 attacks.

The pawls 19 are by means of detent 21 drop-off in the blocking position of lift mechanisms 14, and in this preserved (left side of the drawing). It suffices a locking spring 21 , as shown in the drawing, which acts on the left pawl 19 a. This automatically actuates the right-hand pawl 19 via the coupling rod 20 .

There is also a release magnet 22 which engages the left pawl 19 . This is controlled by a timer 23 . To unlock the lifting drives 14, the trigger magnet 22 pulls on the left pawl 19 and brings this and thus automatically via the coupling rod 20 also the right pawl 19 into the release position.

As soon as the pawls 19 have released the lifting drives 14 , they and thus the support plate 16 with the reaction vessels 12 are moved upwards under the action of the compression springs 15, to the extent that the reaction vessels 12 are approximately a minimum distance of 3 cm from the upper edge of holes 17 have.

In order to avoid an undesirable heat influencing of the reaction vessels 12 after moving them out of the metal block 11 , this is covered on the side of its bores 17 with a heat insulating plate 13 .

When using lifting rods 14 with compression springs 15 , as shown in the drawing example, guide sleeves 18 are provided for them.

Claims (6)

1. Metal block thermostat with a bore for receiving reaction vessels having a metal block, and with heating elements arranged in the metal block, characterized in that the reaction vessels ( 12 ) have a common support plate ( 16 ) with associated lifting drives for simultaneous in and out the reaction vessels ( 12 ) from the metal block ( 11 ) are arranged, and the lifting drives in the position of the reaction vessels ( 12 ) retracted in the bores ( 17 ) retracted can be locked and unlocked to move the reaction vessels ( 12 ) out with a defined one Minimum distance from the upper edge of the holes ( 17 ) from the metal block ( 11 ). 2. Metal-block thermostat of claim 1, gekennzeich net be simultaneously with a coupling rod (20) by at least two lift mechanisms, each of which is locked by means of a pawl (19), the two pawls (19) are tätigbar. 3. Metal block thermostat according to claim 2, characterized in that the pawls ( 19 ) by means of locking springs ( 21 ) bring into the locked position for the linear actuators and are durable. 4. Metal block thermostat according to claim 2 or 3, characterized by one of a timer ( 23 ) control th release magnets ( 22 ) for unlocking the linear actuators by bringing into the release position of the pawls ( 19 ). 5. Metal block thermostat according to one or more of claims 1 to 4, characterized in that as hub drives under tension by compression springs ( 15 ) standing Hubstan gene ( 14 ) serve. 6. Metal block thermostat according to one or more of claims 1 to 5, characterized in that the metal block ( 11 ) on the side of its bores ( 17 ) is covered with a heat insulating plate ( 13 ).