RU39192U1 - ELECTRIC HEATER - Google Patents

Abstract

The utility model relates to fluid heaters having means of generating heat by direct contact of air with the heating medium. The essence of the utility model: an electric air heater containing a housing with a flow path and located in the flow path with the possibility of independent fixing and dismounting of the heat-generating sections having supporting elements and fixed to supporting elements tubular resistance heaters, characterized in that each fuel section is made in the form of a supporting rod structure and, formed by a group of tubular electric heaters connected to each other by fixing their contact rods on the supporting elements, while the supporting elements are made in the form of a pair of panels of insulating material. The technical result that can be obtained by implementing the utility model is to reduce the resistance of convection air circulation and ensure efficient heat transfer.

Description

The utility model relates to fluid heaters having means for generating heat in direct contact of air with a heating medium

The closest technical solution to the claimed one is an electric air heater, comprising a housing with a flow path and located in the flow path with the possibility of independent fastening and dismounting of the heat-generating sections having support elements and tubular resistance electric heaters fixed to the support elements (RU No. 2029201 F 24 H 3/04. 1995).

A disadvantage of the known technical solution is the relatively low efficiency due to the location in the flow path of the support elements. which, providing separate fixing and dismantling of the sections, create resistance to convection air circulation and absorb part of the thermal energy.

The problem to which the claimed utility model is directed is to create an effective electric air heater, in particular, for ventilation and air heating systems of electric train cars.

The technical result that can be obtained by implementing the utility model is to reduce the resistance of convection air circulation and ensure efficient heat transfer. In addition, the technical solution of this utility model facilitates the maintenance and repair of an electric heater, both due to the availability of heat-generating sections, and due to a change in the connection diagram of tubular resistance electric heaters.

The specified technical result is achieved by an electric air heater containing a housing with a flow path and located in the flow path with the possibility of independent fastening and dismounting of the heat-generating sections having supporting elements and tubular resistance heaters fixed to the supporting elements, due to the fact that each heat-generating section is made in the form of a supporting rod a structure formed by a group of tubular electric heaters connected to each other by fixing their contact rods to the support x elements, wherein the support elements are in the form of a pair of panels of insulating material.

And also due to the fact that the tubular electric heaters are made rectilinear and are located between the panels in rows and parallel to each other with the output ends of the contact rods on the outside of the panels.

The essence of the claimed utility model is illustrated by drawings, where

figure 1 shows the electric heater in cross section along tubular electric heaters, figure 2 is a fragment I of figure 1, figure 3 is a section aa in figure 1.

The electric air heater contains a housing 1 with a flow path 2. In the flow path 2 there are heat-generating sections 3 having support elements in the form of a pair of panels 4 and 5 of insulating material, on which tubular resistance electric heaters 6 are fixed. These tubular electric heaters 6 are connected to each other by fastening 7 of their contact rods 8 on the panels 4 and 5. The tubular electric heaters 6 can be made linear and are located between the panels 4 and 5 in rows and parallel to each other with the output of the ends 9 of the contact rods 8 to the outside of the panels 4 and 5.

A group of tubular (cartridge, finned) electric heaters 6, connected to each other by fixing their contact rods on the supporting elements, forms a supporting rod structure of the heat-generating section, thereby ensuring optimal placement of the active surface of the mentioned electric heaters 6 in the flow path in the absence of heat-absorbing parts in this zone independent securing of the section and the necessary access for independent mounting and dismounting of the section

This technical solution of an electric air heater has a high level of unification and manufacturability.

Claims (2)

1. An electric air heater comprising a housing with a flow path and located in the flow path with the possibility of independent fixing and dismounting of the heat-generating sections, having supporting elements and tubular resistance heaters fixed to the supporting elements, characterized in that each heat-generating section is made in the form of a supporting rod structure formed a group of tubular electric heaters connected to each other by fixing their contact rods on the supporting elements, while the supporting elements filled in the form of a pair of panels of insulating material. 2. The electric heater according to claim 1, characterized in that the tubular electric heaters are made linear and are located between the panels in rows and parallel to each other with the output ends of the contact rods on the outside of the panels.