RU44374U1 - ELECTRIC HEATER - Google Patents

Abstract

The technical result is a reduction in the cost of repair and maintenance of the heater, increasing the reliability and fire safety of the structure, as well as the unification of the elements of the heater, is achieved due to the fact that the heater contains from one to six fuel sections, each of which additionally has an end panel with power terminals so that tubular electric heating elements are fixed between two panels and connected to each other by means of power terminals, tubular the electric heating elements of each section are linear and staggered parallel to each other, the flow path is located between the planes of the front and end panels of the fuel sections and the horizontal walls of the housing, the position locks of the fuel section on the end panels are made pin, the front and end panels are made of insulating material, tubular heating elements of the fuel sections are electrically insulated from the housing, the mounting of tubular electric heaters ial elements in the panels are made with the help of electrical couplings. 2 ill.

Description

The utility model relates to a power system and can be used in devices for heating gas flows.

Known electric heater, selected as a prototype (RU No. 2029201), comprising a housing with a flow path located inside the housing, across the flow path, frame heat sections formed by panels with rows of Li-shaped tubular electric heating elements connected to power terminals on the front panels of the fuel sections, and the position locks of each fuel section are placed on the walls of the housing.

This electric heater uses a design with curved heating elements, which complicates the overall design both during manufacture and during repair when one of the heat-generating sections fails. In addition, this design cannot be oriented in space arbitrarily.

The task to which the claimed utility model is directed is to create an electric air heater with heat-generating sections, which can minimize the number of structural elements up to unification, using which it would be possible to assemble an electric air-heater using one unified heat-generating section, which increases the reliability of the device.

In addition, the task is to reduce the cost of installation and repair work, using a single unified section to replace any failed heat-generating section.

The technical result that can be obtained by implementing the claimed utility model is to reduce the cost of repair and maintenance of the heater, increasing the reliability and unification of the elements of the heater. In addition, the removal of high-voltage terminals from the flow path area increases the reliability and fire safety of the structure.

The specified technical result is achieved in the proposed heater due to the fact that it contains from one to six heat-generating sections, each of which additionally has an end panel with power terminals so that tubular electric heating elements are fixed between two panels and connected to each other by terminals power supply, tubular electric heating elements of each section are made rectilinear and parallel to each other in a checkerboard pattern, the flow path is located with the planes of the front and end panels of the fuel sections and the horizontal walls of the body, the position locks of the heat sections on the end panels are made pin, the front and end panels are made of insulating material, the heat sections are electrically isolated from the inner surface of the body, the tubular electric heating elements are mounted in the panels using fluoroplastic couplings.

Figure 1 shows the proposed electroheater; figure 2 shows a view of the front panel of the heater.

The electric heater includes a housing 1, with a flow path 2, located inside the housing across the flow path from one to four heat-generating sections 3, formed by front and end panels 4 with rows located between them

tubular electric heating elements 5 connected and connected to each other by means of power supply terminals 6 of the power supply on the front and end panels of the heat-generating sections, position locks 7 of each heat-generating section placed on the walls of the housing, moreover, the tubular electric heating elements 5 of each section are made linear and parallel to each other to a friend in a checkerboard pattern, the flow path is located between the planes of the front and end panels of the fuel sections and the horizontal walls housing, position locks 7 of the fuel section on the end panels are made pin, the front and end panels 4 are made of insulating material, the tubular heating elements of the fuel sections are electrically insulated from the body, the mounting of 8 tubular electric heating elements in the panels is made using electrical insulating couplings.

This technical solution provides optimal placement of the active surface of the heating elements in the flow path, which improves heat transfer, thereby reducing the temperature on the heating elements and increasing the reliability of the device.

The fastening of tubular electric heating elements in panels using electrical insulating couplings, the electrical insulation of the housing, the removal of high-voltage contacts from the flow path zone increase the reliability and fire safety of the electric air heater.

The simplicity of the design and fastening of the fuel sections allows you to reduce the cost of installation and repair work, using for replacement any failed section of the fuel section one unified section.

The proposed electric heater can be used on vehicles, in particular, on railway transport - on newly developed and on modified wagons.

Claims (1)

An electric air heater comprising a housing with a flow path, heat-generating sections located inside the housing across the flow path, formed by panels with rows of tubular electric heating elements connected to power terminals on the front panels of the heat-generating sections, positioning latches of each heat-generating section located on the walls of the housing, characterized in that it contains from one to six fuel sections, each of which additionally has an end panel with power terminals so that the tubular electric heating elements are fixed between two panels and connected to each other using power terminals, the tubular electric heating elements of each section are straight and staggered parallel to each other, the flow path is located between the planes of the front and end panels of the fuel sections and horizontal the walls of the housing, the position locks of the fuel section on the end panels are made pin, the front and end panels are made of and oliruyuschego material, tubular heating elements heat generating sections are electrically insulated from the housing, fixing the tubular heating elements in panels formed via insulating sleeves.