RU2269067C1 - Running water electric heater - Google Patents

Abstract

FIELD: heaters for fluid medium.

SUBSTANCE: running water electric heater belongs to devices with submerged electric heating elements. Electric heater has case, inlet and outlet branches, electric heating module made in form of casing which is made in turn in form of closed container containing cavities 5, 6 and 7. Container is fixed inside case in perpendicular to its vertical axis by means of quick-dismountable joint. Cavities 5 and 6 are separated by partition having a hole. Member for conducting flow of ware is made in form profiled plate and mounted inside cavity 7. W-shaped electric heating elements are mounted in cavities 5 and 6 Drainage pipe is fixed inside cavity 5. Device also has pressure relay and thermal switch. It also has terminals of electric power and light-signal accessories. Input and output ends of any electric heating element are connected proof-tight with casing by means of soldering.

EFFECT: improved productivity; intensified heat exchange; reduced size; better work adaptability.

15 cl, 2 dwg

Description

The present invention relates to fluid heaters, in particular water heaters with means for generating heat, namely immersed electric heating elements.

Known electric heater containing a housing, inlet and outlet pipes, an electric heating element mounted inside the heat exchanger. The heat exchanger is made in the form of a closed tank, inside of which several electric heating elements are installed staggered adjacent to the walls of the tank, a temperature sensor (RU, z. No. 93057495, F 24 H 1/00, from 29.12.93, publ. 27.10.95) .

The specified electric heater is selected by the applicant as the closest analogue (prototype).

The disadvantage of this electric heater is that inside the closed tank of the heat exchanger are installed in a checkerboard pattern and with a gap between them, the electric heating elements and the temperature sensor, which suggests a rather large dimensions of the tank. In addition, between the tank and the casing of the electric heater there is a layer of thermal insulation, which increases the cost and complicates the design.

The technical objectives of the invention are to increase productivity due to the intensification of heat transfer while reducing the dimensions of the electric heater, improving manufacturability by eliminating complex sealing nodes.

The tasks are achieved in that in a flowing electric heater containing a housing, a heat exchange module is installed in the housing, consisting of a housing made in the form of a closed tank connected to the inlet and outlet pipes, a pressure switch, a thermal switch, light-signal armature, according to the invention, the closed tank is installed in the housing is perpendicular to its vertical axis and contains several communicating cavities, in at least two of them tubular electric heating elements whose length exceeds the width of the closed container, and the cavity associated with the inlet pipe is equipped with an element for directing the flow of water into the above cavities.

The capacity of the heat exchange module is box-shaped.

The capacity of the heat exchange module is trough-shaped.

The capacity of the heat exchange module is elliptical in shape.

The capacity of the heat exchange module is round.

The cavity of the tank is divided by partitions.

At least one hole is made in each of the partitions.

The tank, partitions and element for directing the flow of water are made of anticorrosive material.

The tank, partitions and element for directing the flow of water are made of a material with an anti-corrosion coating.

The cavity of the tank associated with the exhaust pipe is equipped with a drain pipe fixed inside it and passing outside the zone of the electric heating element.

Electric heating elements are made W-shaped.

Electric heating elements are made S-shaped.

Electric heating elements are made in a V-shape.

Electric heating elements are made in a U-shape.

The input and output ends of the electric heating elements are hermetically connected to the tank.

The installation of the tank perpendicular to the vertical axis of the heater body allows to reduce its height.

The presence in the tank of several communicating cavities allows you to install several electric heating elements in them, which increases the efficiency of heat transfer and the heating rate of water.

Installation of electric heating elements in the cavity of the tank, the length of which significantly exceeds the cavity width, i.e. they are bent in such a way that they fill the entire cavity, which also increases the performance of the electric heater.

The installation in the cavity of the container associated with the inlet pipe of the element for directing the flow of water ensures the flow of water into the cavity where one of the electric heating elements is installed so that the water flow passes along its entire length.

The performance of the capacity of the claimed forms, i.e. box-shaped, trough-shaped, ellipsoidal and round, allows you to change the overall dimensions of the electric heater as a whole, which expands the range of products.

The presence of partitions dividing the cavity of the tank allows you to install electric heating elements in the cavities in isolation from each other and in the resulting small volume to achieve the most rapid heating of water.

The implementation in each of the partitions of at least one hole for the passage of water ensures the flow of heated water from one cavity to another.

The implementation of the tank, partitions and element for directing the flow of water from an anti-corrosion material or material with an anti-corrosion coating increases their service life.

The supply of the cavity of the tank associated with the exhaust pipe, a drain pipe, mounted inside one of the cavities and passing through the casing outside the zone of the electric heating element, provides a quick discharge of heated water into the outlet pipe.

The implementation of the electric heating elements of the claimed forms, i.e. W, S, V, U-shaped, provides maximum performance due to heat transfer efficiency while reducing the dimensions of the electric heater as a whole.

Ensuring a tight connection, for example by soldering, of the input and output ends of the electric heating elements with a capacity is technologically advanced and allows for reliable connections without the use of complex sealing units.

As a result of patent research, no technical solutions have been identified that are characterized by the claimed combination of features, therefore, we can assume that the inventive instantaneous electric water heater meets the criterion of "novelty." The use of a combination of distinctive features is not identified from the studied prior art, which indicates compliance with the criterion of "inventive step". The inventive device can be manufactured at any industrial enterprise, which meets the criterion of "industrial applicability".

A prototype of the device was manufactured and tested at one of the enterprises in the Chelyabinsk region.

The essence of the invention is illustrated by drawings, where in Fig.1 is a General view of an electric heater, in Fig.2 is a section along aa in Fig.1.

The inventive instantaneous electric water heater comprises a housing 1, an input 2 and an output 3 nozzles, the electric heating module consists of a casing made in the form of a closed tank 4, which contains a cavity 5, 6 and 7. The tank 4 is fixed in the housing 1 by means of a quick connector 8. Cavity 5 and 6 are separated by a partition 9, in which an opening 10 is made, and in the cavity 7, an element 11 is installed for directing the flow of water, made in the form of a figured plate. In the cavities 5 and 6, electric heating elements 13 are installed, for example, W-shaped. A drain pipe 14 is fixed inside the cavity 5. The device is equipped with a pressure switch 15 and a temperature switch 16, as well as power terminals and a light-signal indicator (not shown). The input 17 and output 18 ends of each electric heating element are hermetically connected, for example, by soldering 19 with a capacity of 4.

The device operates as follows.

When liquid is supplied to the inlet pipe 2, the pressure switch 15 is activated, includes a micro switch (not shown), which closes the electric network, including electric heating elements 13. A light-signal indicator (not shown) is turned on, informing the consumer about the operating state of the device. When the pressure of the liquid in the network decreases or is absent, the pressure switch 15 is activated and disconnects the power of the electric heating elements 13 by means of a microswitch.

The temperature switch cuts off the power to the electric heating elements in the event of an emergency.

Water from the inlet pipe 2 enters the cavity 7 and, thanks to the element 11, is directed along it and enters the cavity 6, washes one of the electric heating elements 13 and flows along the partition 9 to the hole 10 and overflows into the cavity 5, washes the next electric heating element 13 along the entire length and through the drain pipe 14 enters the outlet pipe to the consumer.

Due to the fact that the length of the electric heating elements 13 significantly exceeds the width of the tank 4, due to the choice of their optimal shape, for example, W-shaped, it is possible to achieve high performance due to the heat transfer efficiency of the device while reducing its height. In the absence of water pressure or in its absence in the system in general, the temperature switch 16 automatically disconnects the device from the network.

Due to the fact that the inlet 2 and outlet 3 nozzles are connected directly only with the cavities of the tank 5, no complex sealing nodes between them are required. And the sealing of the input 17 and output 18 ends of the electric heating elements, for example, by soldering 19 relative to the tank 5 is also technologically advanced, eliminates complex sealing nodes.

Thus, the claimed device is technologically, reliably, has high performance, has small dimensions. It allows, due to the selection of the shape of the tank and electric heating elements, to satisfy the needs of consumers in terms of the dimensions of the electric heater, as well as the power of the device and performance.

Claims (15)

1. A flow-through electric heater comprising a housing, a heat exchange module installed in the housing, consisting of a housing made in the form of a closed container with a tubular electric heating element inside and connected to the inlet and outlet pipes, a pressure switch, a thermal switch, light-signal armature, characterized in that the closed tank installed in the housing perpendicular to its vertical axis and contains several communicating cavities, in at least two of them are installed tubular electrons revolutionary elements, the length of which exceeds the width of the closed container, and the cavity associated with the inlet pipe is equipped with an element for directing the flow of water into the above cavities. 2. The flow-through electric heater according to claim 1, characterized in that the capacity of the heat exchange module has a box shape. 3. Flowing electric heater according to claim 1, characterized in that the capacity of the heat exchange module has a trough-like shape. 4. Flowing electric heater according to claim 1, characterized in that the capacity of the heat exchange module is elliptical in shape. 5. The flow-through electric heater according to claim 1, characterized in that the capacity of the heat exchange module has a circular shape. 6. Flowing electric heater according to claim 1, characterized in that the cavity of the tank is separated by partitions. 7. Flowing electric heater according to any one of claims 1 or 6, characterized in that at least one opening is in each of the partitions. 8. Flowing electric heater according to any one of claims 1 or 6, characterized in that the tank, partitions and element for directing the flow of water are made of anticorrosive material. 9. Flowing electric heater according to any one of claims 1 or 6, characterized in that the tank, partitions and element for directing the flow of water are made of a material with a corrosion-resistant coating. 10. The flow-through electric heater according to claim 1, characterized in that the cavity of the tank associated with the exhaust pipe is equipped with a drain pipe fixed inside it and passing outside the zone of electric heating elements. 11. A flow-through electric heater according to claim 1, characterized in that the electric heating elements are made W-shaped. 12. Flowing electric heater according to claim 1, characterized in that the electric heating elements are made in an S-shape. 13. Flowing electric heater according to claim 1, characterized in that the electric heating elements are made in a V-shape. 14. Flowing electric heater according to claim 1, characterized in that the electric heating elements are made in a U-shape. 15. The flowing electric heater according to claim 1, characterized in that the input and output ends of each electric heating element are hermetically connected to the tank.

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