DE1810419U - ELECTRIC RUNNING HEATER WITH HEATING COIL INSERT. - Google Patents

Description

Electric instantaneous water heater with heating coil Insert body ------ A The innovation relates to an electrical flow-through heater, in which one in a heating channel through which water flows Heating coil is arranged, which is in direct contact with the water touch kt. mmt. It is with such electric water heaters known, the heating duct to form an electric column of water wideratande8'Yideretandskanäle of smaller cross-section. before and Switch on. In the known water heaters of this type one has the heating channels and the resistance channels included " the ceramic channel block used, which is in a device housing is used as a replaceable component. It is also known the HeizkanUle and the resistance channels in each separate so to accommodate animal bodies. The on and off is located lassstutzen as well as the electrical connections for the heating coil on the device housing. To change the heating coil, it is necessary to Known devices require disassembly in order to install a new, pre- Mediocre complex, multi-channeled t Insert the duct block and connect the heating coil. The innovation is based on the task of creating a zip working electric water heater easier and more appropriate to build, so that an easy replacement of the Heating coil and cleaning of the heating channels without dismantling the Device is possible. With such a water heater, where the before. and switched resistance channels in a common channel block and are accommodated, the task is thus solved according to the novelty that the channel block carries the connection piece and a recess has a larger cross-section, in which the upstream and downstream ten resistance channel opens and that in this recess a Heating coil and the electrical terminals carrying, easily removable insert body is sunk and inserted sealed to the outside. This channel block forms one for different different types of device that can be used. In one and the same Channel blocks can then have different external dimensions Matching inserts for different heating capacities can be used. Since the insert body also has the terminals the heating coil carries, the heating coil remain when the Insert body in connection with the clamps. The insert body has a relatively small size and therefore small sealing flat. The heating coils are expediently in channels of the block embedded insert body. Then you can Place the heating coil in open troughs of the insert body, which form closed heating channels with the wall of the channel body within the recess. When the insert body is removed, the heating coils are therefore exposed and are easily accessible and easy to insert.

Since such water heaters are often connected to a three-phase network it is advantageous if the insert body has three parallel heating channels darir. Has housed heating coils and in the channel block at one end of the Insert body a recess is provided through which two of the heating channels together are connected.

In a further development of the innovation it is provided that in a common, the resistance channels and connecting channels containing channel block with several separately switchable heating coils provided insert bodies are embedded. on In this way, double or triple devices can easily be used with the simplest structure getting produced.

In the figures are several useful embodiments of the Innovation presented.

In the flow heater shown in section in FIGS. 1 and 2 are an inlet port on a base body 1 made of insulating plastic 2 and an outlet port 3 attached. From the inlet port 2, a leads into the main body 1 introduced resistance channel 4 to a large central bore 5 of the base body 1. From this bore 5 another resistance channel 6 leads to the outlet port 3. An insert body 7 is inserted from above into the bore 5 of the base body 1 and by means of a screw.) lath 8 is pressed sealingly against a sealing ring 9.

The insert body 7 has two trough-shaped recesses 10, 10 ', the closed with the wall of the base body 1 form Heizkawile and below of the insert body 7 in the space 5 'miteinar are in communication.

In each of the Heizkanãle 10, 10 'is a heating coil 11, 11', the are connected to each other at the bottom and their free ends are connected to terminal screws 12, 12 ' are connected, the terminal screws 12, 12 'penetrate the head of the insert body 7, so that the lines 14, 14 'led to a switch 13 are connected from the outside can be. The switch 13 is actuated by a membrane 15, the membrane chamber 15 'in front of a throttle screw 16 to the inlet resistance channel 4 is connected.

The inflowing water flows with the described instantaneous water heater via the resistance channel 4, the heating channel 10, room 5 ', the heating channel 10' and the Outlet resistance channel 6 to outlet port 3. Throttle screw 16 becomes A dynamic pressure is generated in the diaphragm chamber 151, by means of which the switch 13 is actuated and the heating coil 11, 11 'are switched on.

After removing the connection plate 8, the insert body 7 can be removed the hole 5, eo that you can comfortably reach the in the trough-shaped recesses 10, 10 'of lying heating coil 11, 11' come up and replace them if necessary can.

In Fig. 3 an embodiment is shown in which a two-phase connection is realized using an insert body 30 with three channels. Of the channels through which flows in parallel in the manner described, only one contains a heating coil, during the other remains without a helix. The two heating coils are in opposition set in parallel to the first exemplary embodiment, wosu one the clamping screws 31 is carried out to the lower end of the insert body 30 and is used to connect the lower ends of the two heating coils. In Fig * 4 to 7 a double device is shown, which for rotary power connection is determined. In a correspondingly larger base body 32 with an inlet port 33 and outlet port 34, an inlet resistance channel 35 and an outlet resistance channel 36 are attached. Furthermore, two larger bores 37, 38 lying parallel to one another are introduced into the base body 32 and are connected to one another by a channel 39.

Insert bodies 40, 41 of the type described are inserted into the bores, which each form three heating channels equipped with heating coils. Through recesses 42, 43 ensures that two of the three heating channels of the Waaeerstrom are parallel flowed through in the same direction. The passage is indicated by arrows.

The three star-shaped heating coils of each insert body 40, 41 are connected to switch contacts 44, 45 which work together with switch springs RST of the three-phase network. The switch springs RST are actuated by two membrane switches 46, 47 arranged next to one another on the base body 32 through transmission members 48, 49 in such a way that the heating coils of the two insert bodies 4o, 41 can be switched on separately. The two membrane switches 46, 47 each have ewe! Membrane chambers, in which a dynamic differential pressure takes effect as soon as fasting flows through the device. To create this differential pressure is the entrance0. ? lderetandskanal 35 by an adjustable screw 5o droaaelts The upper membrane chamber of the two membrane holders 46, 47 is via a connecting channel 46 47 'with one of the Inlet port 33 coming branch channel 51 of the base body 32 in connection. Through the lower membrane chambers of the membrane switch 46, 47 is the outlet. '. Resistance channel 36 passed through. At the As a result, the flow of water outweighs the unthrottled pressure in the upper membrane chambers, so that the membranes are printed after antennas and the tiltably mounted transmission members 48, 49 supported on the membranes can move upwards at their free end. As a result, the switching springs RIST, which were held in the switch-off position under spring tension, are released and switch on the heating coils of the two insert bodies 40, 41. You can now lock the transmission member 48 in the switched-off position by means of a lever 53s attached to the device casing 52, which can be operated from the outside, so that the switching contacts 45 of one insert body 41 cannot be closed by the membrane switch 46 even when water flows through. As a result, the device can either be operated with half or full heating output. Protection claims. 1. Electric flow r @ itzer, in which heating coils and the heating channels for formation are accommodated in the heating channels through which the water flows an electrical water column resistance 'resistance channels

Claims (7)

Smaller cross-section upstream and downstream are connected in one common channel block are accommodated, characterized in that the channel block carries the connection piece and has a recess of larger cross-section, in which the upstream and downstream resistance channels open and that in this recess one that carries the heating coil and the electrical connection terminals and is easily removable Insert body is sunk and inserted sealed to the outside. 2. Electrical water heater according to claim 1, characterized in that that the heating coils in channels of the insert body let into the channel block are embedded. 3. Electrical water heater according to claim 2, characterized in that that the heating coil (11,1 ') lie in open troughs (lo, lo') of the insert body (7), which form closed heating channels with the wall of the base body (1). 4. Electrical water heater according to claim 2 or 3, characterized characterized in that the insert body (19,40,41) has three parallel heating channels therein housed heating coils (27,27 ', 27 ") and in the channel block (19, 32) a recess (25, 42, 43) is provided at one end of the insert body (21,3o, 41) through which two of the heating ducts are connected to one another. 5. Electric water heater according to one of claims 1 to 4, characterized in that in a common, the resistance channels (35, 36) and a plurality of channel blocks (32) containing connecting channels (39) which can be switched on separately Insert bodies (40, 41) provided with flexible coils are embedded. 6. Electrical water heater according to claim 5, characterized in that that each insert body (4o, 41) has a special membrane switch (46, 47) for switching on the heating coil is assigned, and that the membrane switch (46, 47) on the duct block (32) are arranged next to one another in such a way that one membrane chamber is in front of each a throttle point (50) to a common cold water inlet channel (51) and the other diaphragm annunciator to the resistance channel connected to the outlet connection (34) (36) of the Keinalblock (32) is connected. 7. Electrical water heater according to claim 5 or 6, characterized characterized in that the switch-on device (46, 48) for the heating coil of the one Insert body (41) can be locked in the switched-off position by a handle (53) is.