DE3704757A1 - Heating device for laboratory vessels - Google Patents

Abstract

A heating device for laboratory vessels, especially round-bottom flasks or test tubes is described, in which a heating element matched to the shape of the vessel and operated with a low voltage is provided and lies close up to the wall of the vessel. The heating element consists of a rigid heating spiral, from the ends of which connection parts stand out, which exhibit plug-in connections for plugging into connection terminals of a voltage supply, by means of which the grid voltage is reduced.

Description

The invention relates to a heating device for laboratory vessels, especially round bottom flasks and test tubes, their radiators lies against the vessel wall.

In the laboratory it is often necessary to have several Heat media or reagents evenly. This ge usually happens in round-bottom flasks or test tubes. Direct heating with immersion heaters is for several reasons not possible, especially because of possible Dissociation of the medium to be heated and / or deposits of substances on the surface of the immersion heater. Vessels with a flat bottom can optionally be placed on hot plates be put. This is the case for vessels with a spherical bottom of course not possible. When heating in conventional Heating baths and heating mats play the thermal carrier layer between the heat source and the vessel twisted an unwanted role. It is known as a radiator to use a bag crocheted of glass silk that adapts to the shape of the vessel and completely surrounds. Such a radiator is supplied with mains voltage, So 220 V, operated, which is in the entire heating area. The vessel is crocheted, but the radiator is not protected against moisture, so that the bursting of the Vessel means a possible danger. After all, can with such a crocheted and completely from the radiator enclosed vessel whose contents are not observed.

The object of the invention is to provide a heating device for the laboratory to create vessels with which the heat is as close as possible to the  Outside wall of a laboratory vessel, for example a round flask or a test tube, but with it low voltage and operated safely and it allows the medium to be heated in the vessel to constantly observe.

This task is accomplished by a heater for laboratory vessels, in particular round-bottom flasks and test tubes, dissolved, whose radiator rests on the vessel wall and thereby is characterized in that one of the vessel shape as a radiator adapted, rigid, low-voltage heating coil is provided, the ends of which project connecting parts, the plug connections for plugging into connection terminals have a low voltage source.

Such a heating device for laboratory vessels, such as round-bottom flasks and test tubes, offers significant advantages over known working methods and devices. Staring out Heating coils existing radiators are the vessel shape adapted to enclose the vessel to an even Er to secure warming, but still leave enough visibility, so that the contents of the vessel can be observed continuously. The Radiator is interposed by a transforma Tor operated with low voltage, preferably of 5 V. up to 24 V. This ensures that the heating body does not overheat and begins to glow. The Heater can therefore be used easily in all areas can be used in which high security is required. The risk of the vessel bursting through possible over heating is switched off. If a vessel is made of any The reasons for the breakdown can be found in the heating medium Simply run off the spiral and catch it in a container will. The heating coil itself can be easily cleaned. The heating process starts immediately when the preheater is switched on  direction, since only small masses need to be heated and there is only a small amount of re-heating when switching off. The heating spirals themselves have a long service life. they are quick and easy to replace, so that rapid work with differently shaped vessels is possible.

The invention is illustrated by two in the drawings illustrated embodiments explained in more detail. Show it:

Figure 1 is a view of a radiator connected to a low voltage supply for a round bottom flask.

Figure 2 is a view of a device connected to a low voltage supply for a test tube heater. and

Fig. 3 is a view of a connection plate with terminals and hand holder or tripod connection, provided for non-direct connection of the radiator to the low voltage supply.

The heating device includes a low voltage source 1 and a heating element for heating media in laboratory vessels.

The low voltage source 1 can be housed in a washable, water and dust-protected housing Trans transformer, which serves as a protection against mains voltage. The heater is therefore connected to the power supply, but the voltage is transformed down to low voltage by the transformer, with which the heater is then operated. On a wall of the housing of the small voltage source 1 , two terminals 2 are provided for connection parts of the radiator. The radiator be made of a rigid heating coil, which is adapted to the shape of the vessel to be heated.

Fig. 1 shows a heating coil 3 for a round bulb 4 , which sits securely in the shell formed by the heating coil 3 . A connecting part 3 a of the heating coil 3 goes from the bottom of the shell and the other connecting part 3 b leads away from the upper end of the heating coil 3 . The ends of the connection parts 3 a , 3 b serve as plug-in connections for insertion into the connection terminals 2 of the low voltage source 1 . These terminals 2 can be simply designed so that the ends of the connecting parts 3 a , 3 b are only inserted and fixed with screw terminals.

Fig. 2 shows a heating coil 5 of a test tube. 6 The heating coil 5 is essentially ge as a cylinder, into which the test tube 6 is inserted. In this heating coil 5 , the connecting parts 5 a , 5 b are designed so that they are inclined outwards after connecting and setting in the terminals 2 of the low voltage source 1 . To this end, proceeding from the bottom of the cylinder of the heating coil 5 is a connection part 5 is shorter than the direction away from the upper end of the heating coil 5 connecting part 5 b. Such an inclination of the heating coil 5 ensures the usual and necessary position when cooking in test tubes.

Fig. 3 shows an additional part in the event that the heating spiral 3 or 5 should not be connected directly to the housing of the low voltage source 1 or. For this purpose, a connection plate 7 is provided, which has two terminals 2 a with connecting wires 2 b . These connecting wires 2 b create the connection to the transformer of the voltage supply 1st From the back of the connection plate 7 is a bracket 8 , which serves as a handle or tripod connection. The radiator can thus be connected and operated at a location remote from the low voltage source 1 .

Claims (5)

1. Heating device for laboratory vessels, in particular round-bottom flasks and test tubes, the radiator of which lies on the vessel wall, characterized in that a rigid, low-voltage heating coil ( 3 ; 5 ) adapted to the vessel shape is provided as the heating body, from the ends of which connecting parts are provided ( 3 a , 3 b ; 5 a , 5 b ) protrude, which have plug connections for plugging into terminals ( 2 ) of a low voltage source ( 1 ). 2. Heating device according to claim 1, characterized in that the heating coil ( 3 ) for a round bulb ( 4 ) is designed in the form of a shell. 3. Heating device according to claim 1, characterized in that the heating coil ( 5 ) for a test tube ( 6 ) is designed in wesent union cylindrical, the outgoing from the bottom of the cylinder of the heating coil ( 5 ) connecting part 5 a) is shorter than that from the upper end of the heating spiral ( 5 ) connecting part ( 5 b ). 4. Heating device according to claim 1, characterized in that a connecting plate ( 7 ) with the terminals ( 2 a ) and a hand holder or a tripod connection ( 8 ) is easily seen. 5. Heating device according to claim 1, characterized in that the low voltage source ( 1 ) is used as a protective voltage of the transformer.