RU109536U1 - HEATING DEVICE - Google Patents

Abstract

 A heating device comprising a housing with air-conducting openings, inside which a heating element is placed, mounting brackets, characterized in that an additional heating element of resistive paste with a positive temperature coefficient of resistance (TCR) with a value of 10-5- is applied by the method of thick-film technology on the front wall of the housing 10-4 1 / ° С and specific resistance ρS = 500 Ohm / square, in which the conductive element is a suspension of finely divided powder of nickel boride (Ni3B) and glass in organic com binder based on lanolin brand PRN 1.7, and the heating element located inside the housing is made of a similar paste with specific resistance ρS = 6 kOhm / square with a negative value of TCS of the order of -10-5-10-4 1 / ° С, both of which heating elements are connected in series to the electrical network.

Description

The proposed utility model relates to the field of electrical heating in electrical engineering, in particular to devices for heating ambient air in office and industrial premises in a combined way: convection and radiation.

Known electric heater / RF Patent No. 2241914, F24H 3/04 2004 /, comprising a housing with two air inlet and outlet openings located at opposite ends, a fan and an electric heating element and a current power regulator located on the exterior of the housing are placed moreover, the housing is made elongated in the form of a hollow pipe with thermal insulation on the outer surface, with a reflective inner surface.

A known device with adjustable deflectable elements for heating air / US Pat. No. 6,120,372 F24F 3/044, 2000 /, having a heater, a flow former controlled by a first electric motor that is controlled by a thermostat for switching, the convector also includes a set of angular orientation elements for deflecting the air flow through an air outlet that is driven by a second electric motor to a plurality of positions between a closed position and a fully open position, and a second electric motor, adjustable thermostat.

Known convection heater / French Patent No. 2726636, F24H 3/04; F24H 9/18; Н05В 3/06; H05B 3/42, 1996 /, having an outer casing that defines the convection region, and a heating element placed inside the convection region. The housing has an air inlet at its lower side. The front wall of the housing has horizontal hollowed air outlets near the base of the front wall, at a level above the level of the air inlet. The top, back wall and side walls of the housing have no holes. The convection area is divided into two parts by an almost vertical screen. The screen is tilted slightly towards the back. Heated air passes over the top of the screen, passing into the front compartment, and should then flow down again to reach the front exits.

A known heating device / Patent of the Russian Federation for utility model No. 41121, F24H 3/04, Н05В 3/26, 2004 /, comprising a housing with protective grilles, a heating element, mounting brackets, convection flow generators in the form of four guides are additionally introduced into it screens made of metal plates and installed one after another relative to the front wall, the front screen is tilted towards the front wall, the second and third screens are parallel to the walls of the device, and the fourth is also tilted towards the front wall, second The swarm screen is higher than the first, the third is higher than the second, in the upper part the first screen is with the second, and the third and fourth are connected by bimetallic plates, which change when cooling or heating the distance in the upper part of the screens, maintaining a given convection flow rate.

The closest analogue is the electric convector / Utility Model Certificate of the Russian Federation No. 4808 F24H 3/04, 1997 /, containing a box-shaped case with air-conducting holes in two opposite walls, inside of which there is a frame with a heating element fixed to it, the heating element is made in the form of plates of electrically conductive composite installed parallel to the walls of the housing having air-conducting holes, while these holes are grouped in the lower part of one and in the upper part of the opposite wall and.

A disadvantage of the known devices is that, with a complex design, they can redistribute the radiation and convection component, but this is achieved mechanically and therefore involves the difficulty of deriving the desired characteristics. At the same time, reliability is reduced, and a complex design solution is due to the high cost of the devices.

The objective of the proposed utility model is the creation of an inexpensive and easy to manufacture device that is reliable in operation and provides a quick restoration of favorable climatic conditions when cold air flows into the room.

This object is achieved by the fact that in the known device containing a housing with air-conducting openings, inside which a heating element is placed, mounting brackets, an additional heating element of resistive paste with a positive temperature coefficient of resistance (TCR) with a value of 10 is applied on the front wall of the housing using thick-film technology ^-5 -10 ^-4 1 / ° С and resistivity ρ _S = 500 Ohm / square, in which the conductor element is a suspension of finely divided nickel boride powder (Ni ₃ B) and glass in an organic binder based on lanolin of the PRN 1.7 brand., And the heating element located inside the housing is made of a similar paste with a specific resistance p _S = 6 kOhm / square with a negative TCR value of the order of -10 ^-5 -10 ^-4 1 / ° C, with both heating elements connected in series to the electrical network.

The heating element located inside the housing creates convection heat flow, and the additional heating element is radiation heat flow.

A general view of the device is shown in FIG.

The heater consists of a housing 1. On the front wall, using the thick-film technology described in RF patent No. 2140134, an additional heating element 2 is made of resistive paste, in which the suspension element is a suspension of finely divided nickel boride powder (Ni ₃ B) and glass in an organic binder based on lanolin brand PRN 1.7. Pasta is prepared in the ratio: 45 wt.% - Ni ₃ B; 45 wt.% - Cr; 10 wt.% - glass binder, the composition of which is given in table 1 with the introduction of corrective additives: ZnO, Al, TiO ₂ , Bi ₂ O ₃ with a specific resistance ρ _S = 500 Ohm / square, with a positive temperature coefficient of resistance (TCR) with a value of the order of +10 ^-5 -10 ^-4 1 / ° C, and a heating element 3 made of a similar paste is placed in the nutria of the body, which is prepared in the ratio: 40 wt.% - Ni ₃ B; 20 wt.% - Cr; 40 wt.% - glass-binding, the composition of which is given in table. 1 with the introduction of corrective additives: ZnO, Al, TiO ₂ , Bi ₂ O ₃ with a specific resistance ρ _S = 6 kOhm / square with a TCS value of the order of -10 ^-5 -10 ^-4 1 / ° С, which are connected in series to the electric network . The ohmic resistance of the heating elements is given by a topological pattern.

Table number 1 Name SiO ₂ Al ₂ O ₃ B ₂ O ₃ Cr ₂ O ₃ PbО TiO ₂ Cbo Wt% 201.1 2.0 8.5 1.0 56.7 6.6 5.1

Inside the housing there is a heating element 3 made of a similar paste with a specific resistance ρ _S = 6 kOhm / square with a TCS value of about -10 ^-5 -10 ^-4 1 / ° C. The ohmic resistance of the heating elements is given by a topological pattern with a TCS value of about 10 ^-5 -10 ^-4 1 / ° С. Both heating elements are connected in series to the electrical network. The housing has an input 4 and output 5 lattice, as well as a mounting bracket 6.

The device operates as follows:

When cold air flows, due to convection traction through the inlet 4 and outlet 5 of the grate, the electric resistance on the internal heating element 3 decreases and the allocated power increases, and since the heating elements are connected in series, the first heating element 2 increases its resistance and allocated power either remains constant or decreases. Moreover, the heating element located inside the housing creates a convection heat flux, and the additional heating element is the radiation heat flux. While maintaining the total allocated power, the convection component increases with respect to the radiation component, which favorably affects when heating cold air.

Upon reaching favorable climatic conditions in the room, the heating panel restores its original parameters.

Depending on the amount of penetrating cold air flows, the ratio of convection and radiation components changes, which allows for a short period of time to restore favorable climatic conditions in rooms where climatic conditions change over a certain time period (shops, workshops, cinemas, etc.) .

Compared with the known, the proposed device is reliable in operation and provides a quick restoration of favorable climatic conditions when cold air flows into the room.

Claims (1)

A heating device comprising a housing with air-conducting openings, inside which a heating element is placed, mounting brackets, characterized in that an additional heating element made of resistive paste with a positive temperature coefficient of resistance (TCR) with a value of 10 ^-5 is applied by the method of thick-film technology on the front wall of the housing 1 10 ^-4 / ° C, and a resistivity ρ _S = 500 Ohm / square, in which the conduction element is a slurry of fine powder of boride of nickel (Ni ₃ B) and the glass body Český binder based on the brand of lanolin CTL 1.7, and a heating element disposed within a housing made of a similar paste with resistivity ρ _S = 6 ohms / square with a TCR negative value of the order of -10 ^-4 -10 ^-5 1 / ° C, and both heating elements are connected in series to the electrical network.