RU18844U1 - CONVECTOR CASING WITH END HEATING ELEMENT - Google Patents

Abstract

1. A convector casing with an end heating element, comprising a body made in the form of a flat parallelepiped and consisting of a front and a back panel, two sidewalls and a cover in which air outlet slots are made, characterized in that it additionally has two box-shaped pockets mounted on the sidewalls the casing body by means of hooks made on the lid and bottom of the pockets threaded into the slots on the sides, one of the pockets is made through - with holes for the heating pipe, in the sides of the body us to exit slit protruding coupling parts of the heating element konvektora.2. A convector casing with an end heating element according to claim 1, characterized in that the pockets are mounted on the sides of the convector casing body using screws for which two flanges with screw holes are made on the pockets, and threaded holes coaxial with these holes are made in the sides of the casing body.

Description

CONVECTOR CASING WITH END HEATING ELEMENT.

A utility model is claimed — a convector casing with an end heating element — a heating device of central heating systems with one-way connection to a heat pipe, in which almost all of the heat from the coolant to the heated room is transferred by convection.

A convector for one-sided connection to a heat conduit consists of a heating element located in the lower part of a flat metal casing having an open lower slit for entering the room air convector and an upper slit or grill for exiting the heated air convector. The heating element is a silver-plated steel or cast-iron U-pipe connected to a water or steam heating system.

A convection-type heating device is known, protected by the RF certificate for utility model N 9508, the casing of which contains an L-shaped panel and two sidewalls with a cut-out for passage of pipes formed in at least one of them, a grill for the outlet of heated air, a lower air intake (official bulletin Russian Agency for Patents and Trademarks Utility Models. Industrial Designs K 3 for 1999).

A heating device is known that is protected by the RF certificate for utility model N 10849, the protective cover of which contains a front panel, two side walls and an upper panel that has a lattice field on which long and short air outlets are located, oriented across the top panel (official bulletin of the Russian Agency on patents and trademarks Utility models. Industrial designs N 8 for 1999).

Known for the injury-proof convector Universal TE (the first option, characterized by the presence of an end heat exchanger with one-way connection to heat pipes), protected by the RF patent for industrial design N 45419, the casing of which is made in the form of an all-metal rectangular box of two trough-shaped side walls and a front panel with flanges, made of one sheet with an air outlet grill and connected one-piece on both sides with side walls having removable rectangular passage and blind plate in izhnem near-wall corner of the housing (the official bulletin of the Russian Agency for Patents and Trademarks, Utility Models. Industrial obraz.tsy N 4 for 1999).

In all these heating devices, the casing is elongated, so that it covers not only the fins of the heating element along the length, but also the U-shaped nipples connecting the pipes of the heating element. With this design of the convector casing, the following process occurs: room air through the lower open slot enters the convector casing along its entire length. The air entering the area of the heating element and passing between the fins is heated more intensively and has a higher speed

convection current than BOB air flowing in the area of the connecting U-shaped nipples. In this case, cold air is mixed with heated air, which has a braking effect on the rate of rise of heated air and, accordingly, reduces the efficiency of heating the room. In addition, from the basics of aerodynamics it is known that the air velocity in the convector case is inversely proportional to the cross-sectional area of the convector case.

The task to which the claimed utility model is directed is to increase the convection draft of the heater and, accordingly, increase the intensity of heating the room. This is achieved by reducing the cross-sectional area of the convector casing ha by reducing its length to the minimum acceptable size, i.e., the side walls of the convector casing are located as close as possible to the extreme fins of the heating element, and the U-shaped nipples connecting the pipes to the coolant are carried outside the casing .

The convector casing with the end heating element is prefabricated and comprises a housing 1 made in the form of a flat parallelepiped, in which the heating element 2 is placed and two pockets mounted on the housing 2 -3 and 4, covering the U-shaped connecting nipple 5 of the heating element protruding outside the housing and couplings 6 connecting the heating element to the heating system. The casing of the convector casing consists of a front panel 7, two sidewalls 8 and 9, a rear panel 10 and a cover 11, in which the IS air outlets are made.

A slot 13 is made on each of the sides of the body side to extend the limits of the body of the U-shaped connecting nipple 5 or the end sections of the pipes of the heating element used to connect the heating element to the heating system, and the hole 14 for mounting pockets on the sides of the body. The pockets are box-shaped with front, back, side walls, lid and bottom. The installation of pockets on the sides of the body is carried out by means of hooks 15 made on the lid and bottom of the pocket and inserted into the gap 14 of the sidewalls. In the side wall of a pocket mounted on the housing of the casing from the side of the pipes connecting the heating element to the heating system, two holes 16 are made for the pipes. The option of mounting pockets on the sides of the case by means of screws. In this case, instead of hooks 15 made on the cover and bottom of the pocket, flanges 17 are made on the front and bottom walls of the pocket, in which holes 18 are made for screws. Accordingly, in the sides of the housing instead of the sipes 14, threaded holes are made, coaxial with the holes 18 on the flanges of the pocket.

In FIG. 1 shows an axial longitudinal section of a convector casing with an end heating element (gap A - A in FIG. 2).

In FIG. Ј shows a view B in FIG. 1 (option for mounting a pocket using hooks).

In FIG. 3 shows a section B - B in FIG. 2.

In FIG. 4 shows a view B in FIG. 1 (option of mounting a pocket using screws).

In FIG. 5 shows a flashing G - G in FIG. 4.

Assembly and installation of the convector casing is as follows. The housing I of the housing is assembled, the heating element S is installed inside the housing. The pipes that are previously disconnected are put on through the holes 16 of the pocket 4. By means of the couplings 6, the heating element 2 is connected to the heating network and its fixation. After that, installation is made on the sidewalls 8 and 9 of the housing of pockets 3 and 4 and the inclusion of the heating system. The cold air of the room freely enters through the open lower cavity into the casing, passing through the heating element, heats up, rises to the upper part of the casing and enters the heated room through the IS air outlets in the cover 11 of the casing.

Claims (2)

1. A convector casing with an end heating element, comprising a body made in the form of a flat parallelepiped and consisting of a front and a back panel, two sidewalls and a cover in which air outlet slots are made, characterized in that it additionally has two box-shaped pockets mounted on the sidewalls the casing body by means of hooks made on the lid and bottom of the pockets threaded into the slots on the sides, one of the pockets is made through - with holes for the heating pipe, in the sides of the body us to exit slit protruding coupling parts of the heating element of the convector. 2. A convector casing with an end heating element according to claim 1, characterized in that the pockets are mounted on the sides of the convector casing body using screws for which two flanges with screw holes are made on the pockets, and threaded holes coaxial with these holes are made in the side walls of the casing .