RU30421U1 - CHANNEL AIR HEATER - Google Patents

Description

CHANNEL AIR HEATER

The invention relates to ventilation and can be installed in ducts of steep section Дп of additional heating supplied to rooms 3OJzn ca

Nzvestgi channel h kgronashevagel. built into circular ducts with a diameter of b ao D (,. and n.n. in which a cylindrical body with an external clamp: houobkon, IJJTCvule-i. .v ,, i, i.) c .. „,“ / .; “(v ..; j, ij si ;;.: j; i, corps„ Г; е. (,,;, j ; o; cpsg ;;,; palcher1 cs.M4jt daydosd t heating potshvp mogol pl; beam -, - 1 nya m - J f gvt at chapr N3n “mn g P- -ngngannya 2 C and 3.0 - 12.0 kV irch - nairiag-kki 4 ") D Te" jio j {K.ip 5hairevagslio lls-lemm,: s. to give. chengm -, gpog. tayugst smooth i pipe diameter 9 mm HJS-made stainless steel and jaiiujmeuHbix spir. Ishmi nl refractory wires, which have a large stitching and electroshell, have a protection degree of IP 43 that are sewn up and occupy up to 30-50% of the housing cross section. in the room or duct, thyristor temperature controllers such as TTG or Pulser are used, and to protect the heating elements or overheating, two built-in thermal contact and gel arresters are used - a single-recognition switch with a threshold of 60 ° C, which has an automatic cal restart and switch to the temperature 120SS actuation and manual switching of heaters. The speed of the air flow does not exceed 1.5 m / s, and the maximum temperature of the air leaving the room is not more than 40 C. The one- or three-phase power supply circuit, depending on the power, carries out a heat-resistant cable with a cross-section of 2.5-10 mm (1).

The disadvantages of the prototype are the individual sizes of the spiral heating elements for each section of the housing of heated firs, a decrease in the living section of the housing by 30-40% covered by spirals with a significant increase in the hydraulic resistance of the duct, especially with small diameters, inefficient heat transfer between the smooth surface of the spiral tubes and air, one-stage electrical protection requiring reliability of grounding the duct. In addition, a weak fastening of the ends of the spirals with a large number of holes adjacent to one another on one line of holes for their output from the housing leads to the oscillation of the spiral tubes even during transportation and the occurrence of cracks on the housing between the holes, which weakens the strength of the housing and requires repair before installation and during operation F 24 H 9/18: I 05 8 3 06 - 3 86

ptannn. The heater has a high cost due to the complexity of the design of the heating elements and the automatic air control system.

The technical task of developing a field-purifying model is to reduce the effect of “eliminating the unsold prototype by creating a similar device with a different socket and an arrangement of uniform heating elements with a larger round diameter housing. providing lower hydraulic resistance and higher heat exchange rit.e, the OhlStrong body strength. Improving the performance of the company, with a clear view of the value of ps-cdg lei

The technical solution is implemented by prnmeya yaigm olshnokoss straightforward opfirs-shgs TZNov. having no hesitation -l ends: -p case. reinforced security protection. using other methods of protection against re-singing and reducing the cost of a number of heater amango. The usefulness of the utility model is illustrated by drawings. where in FIG. I shows a longitudinal section of a channel electron slug for a round duct with paired rectilinear heating elements; on fng. 2 - its cross section with a three-row arrangement of heating elements.

The channel electric air heater has a cylindrical body i in the form of a longitudinal seam shell with a diameter of 125 to 600 mm made of stainless steel or galvanized sheet steel with nipple ends for incorporation into circular ducts. Inside. along the housing axis, a set of two to six rectilinear silver-plated heating elements 4 of the same size, numerically depending on the diameter of the duct, is installed on the same front 2 and rear 3 suspensions. Each standard silver-plated heat-exchanger 4 consists of heating island: d, another level 1 synryapi of high resistivity. having at the ends of the contact rods n pressed pressed into the body with an insulating filler in metal; the plastic shell is a tube whose surface is finned with aluminum tape for better heat transfer. and the ends are sealed and insulated. A tube with a diameter of 10 or 13 mm has a finned diameter of 50 mm and a length of 600 mm, and the power consumption of each spiral is 2.0 - 2.5 kW at a voltage of 220 V. The smooth end sections of each tube located in the pendants free from fins are worn with porcelain or ceramic bushings 5, providing freedom of thermal expansion, additional reinforced electrical protection n fixed in suspensions by clamping bars b. The contact rods are connected in pairs behind the rear suspension 3 by vertical conductive plates 7. An alternating current voltage of 220/380 V is supplied to the contact rods in front of the front suspension 2 (in the cold zone) through a heat-resistant cable 8. which is output along the guide rack 9 through the stuffing box

a hole in the housing on the terminal box Yu, secured from the body by the Volga together with the front suspension. The Cornus is equipped with an IL gemsbury sensor buried also in the cold bosom, and a differential pressure switch sensor 12. Channel electric heater; and r as follows. The number of paired

heating elements is selected according to the supply air flow, two-channel and no-shchutovole at a speed of .5 - 6.0 m / s and the maximum heating temperature of the air

Mostly n: g of the heater body Th above g 4047. The electrical circuit allows a manual switch on, each pair is on-line. lementon in relation to t hem1 "e") aoiayssi jagurs in "amusement. Protection of nalogrevagels against overheating in the event of aojzr / xa supply interruption when the fan stops, is carried out automatically ng: by shutting down when the air supply is stuck in the duct using a pressure switch. The mood of the new leader in the Grab range has been working. The second - control protection against overheating is the hermostostag. triggered by the signal of the channel thermal sensor. set to a temperature temperature of 5U - (. The heaters are restarted on a regular basis, although a more sophisticated and expensive triac power regulator can be used; Maintenance of the funnel is carried out when it is removed from the duct annually or in an emergency.

Thus . due to finned heating elements. filling the passage through the sechne of the casing only by 15 - 25%, the heating thermal power increases from 4.0 to 16.0 kW at a voltage of 220 V and up to 5.5 -21.0 kW when switching to 380 V, the hydraulic resistance of the duct decreases, the possibility of increasing the diameter heater casing up to 600 mm. reliability of electrical protection and protection against overheating increases, the cost of the product decreases.

The utility model ensures the implementation of the technical task, the technical solution is obvious and guarantees a positive result, manufacturability and the possibility of effective practical application are beyond doubt.

The information materials used in the description:

1 . Kagadog., Equipment for ventilation systems, .. Firm,. Arctic, St. Petersburg, 2001, p. 188.

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Claims (2)

1. Channel electric air heater for circular ducts with a diameter of up to 600 mm, comprising a body in the form of a longitudinal seam sheet steel shell with ends for nipple connection with the duct, two internal suspensions, a set of 2-6 tubular electric heating elements, two overheat protection sensors, and also mounting, switching and control parts, characterized in that straight tubular, finned with aluminum tape, standard electric heating elements connected in pairs are used, composition sequentially connected heating stage of the air flow, having additional electrical insulation in the form of porcelain or ceramic bushings, worn on the smooth end sections of the tubes and fixed in suspensions by clamping bars. 2. The channel electric air heater according to claim 1, characterized in that the protection of the electric heating elements from overheating is carried out by turning them off at the same time by the signal of the pressure sensor in the duct with duplication by the signal of the channel temperature sensor with a response range of 50-75 ° C with a manual restart.