RU192043U1 - ALUMINUM RADIATOR SECTION - Google Patents

Abstract

Section of an aluminum heating radiator with injection molded horizontal upper and lower channels connected by a vertical channel ending with a technological hole in the wall of the lower horizontal channel, divided across into a continuous partition into two parts, while only one part of the lower horizontal channel is connected by a vertical channel to the upper horizontal channel and made with a hole in the wall for supplying coolant, and the other part of the lower horizontal channel is separated by th partition from the vertical channel and is made with another hole in the wall to remove the coolant.

Description

Technical field

The claimed utility model relates to heating appliances, in particular, to aluminum radiators used for space heating.

State of the art

The prior art is known to European patent EP 0735338 from 10.21.1998, disclosing sections of a heating radiator, providing a lower connection to the radiator. Sections are made with horizontal upper and horizontal lower channels connected by a vertical channel. The coolant inlet and outlet channels are made in adjacent sections and channel separation is achieved by a built-in partition between the sections. Thus, it is assumed, firstly, to build a partition, and secondly, to separately install the nodes of the inlet and outlet of the coolant.

Sections of metal radiators are also known from the prior art, disclosed, for example, in RF patents No. 74695 and No. 145411, which provide a lower connection to the radiator, but the coolant supply and exhaust channels are made in adjacent sections and channel separation is achieved by a built-in partition between the sections.

The aluminum radiator sections have a characteristic feature - a technological hole at the end of a vertical channel crossing the lower horizontal channel. The presence of a technological hole closed by a plug limits the possibilities for supplying and discharging coolant. Such a section of an aluminum radiator made by injection molding with horizontal upper and lower channels connected by a vertical channel ending in a technological hole in the wall of the lower horizontal channel is disclosed in RF patent No. 188896 of 04.29.2019. This well-known technical solution is the closest analogue of the claimed utility model. The disadvantage of this well-known technical solution is the lack of the possibility of supply and removal of coolant.

The claimed technical solution is aimed at creating a section of an aluminum radiator, providing inlet and outlet of the coolant in the radiator, including several sections.

Utility Model Disclosure

The technical result achieved in the claimed section of an aluminum heating radiator is to distinguish between the flows of the supplied and removed heat carrier.

The specified technical result is implemented in the section of an aluminum heating radiator with injection molding of the horizontal upper and lower channels connected by a vertical channel ending in a technological hole in the wall of the lower horizontal channel, divided across into a solid partition obtained by manufacturing the casting, into two parts, while only one part of the lower horizontal channel is connected by a vertical channel to the upper horizontal channel and is made with a hole in the wall for the supply of coolant, and the other part of the lower horizontal channel is separated by this partition from the vertical channel and is made with an opening in the wall for the removal of coolant. The coolant inlet and outlet openings are located on opposite sides of the process opening.

The coolant inlet and outlet openings and the process hole can be made in the wall of the lower horizontal channel with an influx on the outside.

The holes for the inlet and outlet of the coolant in the wall of the lower horizontal channel can be made in the manufacture of castings, i.e. injection molding. Or they can be drilled into the wall of the lower horizontal channel after casting is made.

The aluminum heating radiator section may additionally include reducing nipples screwed into the coolant inlet and outlet openings, a plug that covers the process hole, and a plug that closes the entrance to the part of the lower horizontal channel connected by the vertical channel to the upper horizontal channel.

Brief Description of the Drawings

In FIG. 1 shows the appearance of an aluminum radiator section.

In FIG. Figure 2 shows a part of the radiator section with a technological hole closed by a plug and holes for supplying and discharging the coolant with screwed reduction nipples.

Utility Model Implementation

The aluminum heating radiator section shown in FIG. 1, according to the claimed utility model with injection molding of the upper 1 and lower 2 horizontal channels connected by a vertical channel inside the section with an exit to the technological hole, then closed with plug 3. On opposite sides of the technological hole closed with plug 3 in the wall of the lower horizontal channel 2 holes were drilled for the inlet and outlet of the coolant, in which the threads were cut and the reducing nipples were screwed, respectively, 4 for the supply of coolant and 5 for the removal of coolant i.

In FIG. 2 shows a section through the lower part of the aluminum radiator section shown in FIG. 1. The lower horizontal channel 2 (see Fig. 1) is divided by a solid partition 6, obtained by casting the section and provided by the mold for casting, into two parts. The first part 7 of the lower horizontal channel is connected by a vertical channel 8 with the upper horizontal channel 1 (see Fig. 1). The second part 9 of the lower horizontal channel is separated by a solid partition 6 from the vertical channel 8. On the opposite sides of the lower horizontal channel, a thread 10 for a plug and a thread 11 for connection with an adjacent section in the radiator are cut.

The technological hole, closed by a plug 3, was made when casting an aluminum radiator section in the wall of the lower horizontal channel with an influx of 12. When casting the section, the technological hole is formed by a rod (sword), and the lower horizontal channel by two other rods perpendicular to the sword and usually adjacent to the sword from opposite parties. To obtain a solid partition 6, one of the rods forming the lower horizontal channel is located relative to the sword with a gap in which a continuous partition 6 is formed during casting.

The holes for the inlet 13 and the outlet 14 of the coolant are then drilled in the influx 12 on the wall of the lower horizontal channel. In the drilled holes 13 and 14, a thread is threaded and, respectively, the reducing nipples 4 and 5 are screwed in, used to connect pipes to the radiator inlet and outlet coolant.

Claims (5)

1. Section of an aluminum heating radiator with injection molding of a vertical channel and horizontal upper and lower channels connected by a vertical channel ending with a technological hole in the wall of the lower horizontal channel, characterized in that the lower horizontal channel is divided across across the solid partition made in the manufacture of the casting, into two parts, while only one part of the lower horizontal channel is connected by a vertical channel to the upper horizontal channel and at the hole for the coolant supply, and the other part of the lower horizontal conduit of the separated solid from the vertical channel wall and provided with an opening for discharging the coolant. 2. Section of an aluminum radiator according to claim 1, characterized in that the holes for supplying and discharging the coolant and the process hole are made in the wall of the lower horizontal channel with an influx on the outside. 3. Section of an aluminum radiator according to claim 1, characterized in that the holes for supplying and discharging the coolant in the wall of the lower horizontal channel are made in the manufacture of the casting. 4. Section of an aluminum radiator according to claim 1, characterized in that the holes for supplying and discharging the coolant are drilled in the wall of the lower horizontal channel. 5. Section of an aluminum radiator according to claim 1, characterized in that it further includes reducing nipples screwed into the holes for supplying and discharging the coolant, a plug that covers the process hole, and a plug that closes the entrance to the part of the lower horizontal channel connected by a vertical channel to the upper horizontal channel.

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