RU204144U1 - Radiator for hot water heating of universal connection - Google Patents

Abstract

The technical solution relates to the equipment of centralized and autonomous water heating systems used for heating premises in residential, public and industrial buildings. The technical result provided by the claimed utility model is the ability to connect a hot water heating radiator to systems with various types of supply. The technical result is achieved by the fact that that in a water heating radiator of a universal connection, consisting of upper and lower tubular headers made of extruded aluminum profiles, each of which contains at the ends connecting holes of the same diameters with an internal thread, connected to a number of vertical ribbed register pipes made of extruded aluminum, the fins of which are made in the form four longitudinal radial plates located symmetrically relative to the pipe axis, connected in pairs with the front and rear surfaces of the finning to form closed air channels communicating with the at mosphere at the level of the upper and lower collectors, the lower tubular collector additionally contains two connecting holes with an internal thread, made in it from below on a common axis with two extreme register pipes, while the diameters of these holes are equal to the diameters of the connecting holes at the ends of the collectors, the internal thread in the connecting the hole of the lower collector, located at the end from the side of the lower holes, is made up to the middle of the segment connecting the centers of the lower holes, the height of the front and rear surfaces of the finning exceeds the height of the ribs connected to them and is not less than the height from the lower point of the lower collector to the upper point of the upper collector, and the geometrical shape of the radiator is symmetrical with respect to the longitudinal vertical plane passing through the central axes of the collectors. In addition, inside the connecting hole of the lower collector located at the end on the side of the lower holes, a removable threaded joint can be preinstalled. sinter with a slot. In addition, the tubular collectors of the radiator can be made of a rectangular profile pipe. The declared water heating radiator has the versatility of connection, is technologically advanced in production, operation and maintenance. 3 fig.

Description

The technical solution relates to the equipment of centralized and autonomous hot water heating systems used to heat premises in residential, public and industrial buildings.

Today there are a large number of different designs of hot water radiators on the market. A common problem is the specificity of their connection to the system, namely the possibility of only side connection (left or right), or only bottom connection for each specific model. This leads to a complication of production due to an increase in the element base of radiators, and also requires a larger amount of warehouse space at manufacturing enterprises and in sales networks.

This problem is partially solved in the design of sectional heating radiators (by the possibility of replacing the types of sections containing coolant input / output channels), however, the sectional design of the radiators itself has disadvantages associated with the section assembly technology.

So, sectional radiators with the possibility of lower connection to the heating system are known (see, for example, patents RU No. 74695, IPC F24H3 / 06, published on July 10, 2008; 145411, IPC F24D3 / 00, published on September 20, 2014. ; 192310, IPC F24H3 / 06, published September 12, 2019), containing interconnected radiator sections, each of which has a vertical collector and upper and lower horizontal collectors connected to it, the lower horizontal collectors of the extreme and subsequent sections are connected through a sealing gasket with a blind nipple, the rest of the horizontal section headers are connected with through nipples, the extreme and subsequent sections have the ability to connect their lower horizontal collectors, respectively, to the inlet and outlet pipes of the lower connection to the heating system.

A common disadvantage of known radiators is the impossibility of their connection variability after assembly (the consumer receives a radiator with the ability to connect only in a certain way). In addition, a similar design of the separating unit is possible only in prefabricated radiators with vertical sections.

Known heating radiator-convector (see patent RU No. 2252370, IPC F24H3 / 08, F28F9 / 26, published on 20.05.2005), in which the ribbing of each aluminum tube of the register is made in the form of longitudinal radial plates located symmetrically relative to the pipe axis, and the front and back planes of the finning form, with at least two adjacent plates, closed air channels communicating with the atmosphere at the level of the upper and lower collectors.

The design of the known radiator makes it possible to install it both on the front and back sides inside the room, which, in turn, makes it possible to restrict the connection holes only on one side of the collectors, but also does not provide the possibility of various connection options directly by the consumer.

Known adopted as the closest analogue of a water heating radiator (see patent RU No. 48397, IPC F24H3 / 00, F28D1 / 00, published 10.10.2005), containing at least one section of panel type with circulation channels, underwater connecting a branch pipe connected through a pipe with an underwater header, a first branch pipe connected to a branch header, oriented vertically by an axis, a second branch pipe connected to a branch header and oriented horizontally by an axis, a means of shutting off one of the branch connecting pipes.

The known radiator works as follows.

When the radiator is connected to heating systems with a lower connection, hot water from the external pipeline through the underwater pipe, pipe and underwater collector enters the circulation channels of the sections, being distributed over them, heats up the radiator sections and exits through the exhaust manifold and the exhaust pipe. When the air temperature in the heated room is higher than the set value, the thermostat is triggered. Its control valve shuts off the flow of water through the tube. Hot water stops flowing into the radiator and passes through the bypass (on the pipeline) through the pipeline of the heating system, bypassing the radiator.

When working in heating systems with a side supply of the coolant, the upper side pipe is used as an underwater pipe. Hot water enters through it into the collector, being distributed over the sections and channels, heats them and exits through the outlet collector and the lower side pipe into the main pipeline.

The known radiator can be used in heating systems with various types of heating pipes, however, the design that ensures its versatility is difficult to manufacture, maintain and repair.

The problem to be solved by the claimed technical solution is the development of a water heating radiator that is technologically advanced in the manufacture and operation with the possibility of universal connection.

The technical result provided by the claimed utility model is the ability to connect a hot water heating radiator to systems with various types of connections.

The technical result is achieved by the fact that in a water heating radiator of a universal connection, consisting of upper and lower tubular collectors of an extruded aluminum profile, each of which contains connecting holes of the same diameters with an internal thread at the ends, connected to a number of vertical ribbed register pipes made of extruded aluminum, the finning of which is made in the form of four longitudinal radial plates located symmetrically relative to the pipe axis, connected in pairs with the front and rear surfaces of the finning to form closed air channels communicating with the atmosphere at the level of the upper and lower collectors, the lower tubular collector additionally contains two connecting holes with the inner threads, made in it from below on a common axis with two extreme register pipes, while the diameters of these holes are equal to the diameters of the connecting holes at the ends of the collectors, the internal thread in the connecting hole The ribs of the lower collector, located at the end from the side of the lower holes, is made up to the middle of the segment connecting the centers of the lower holes, the height of the front and rear surfaces of the ribs exceeds the height of the ribs connected to them and is not less than the height from the lower point of the lower collector to the upper point of the upper collector, and the geometrical shape of the radiator is symmetrical with respect to the longitudinal vertical plane passing through the central axes of the collectors.

In addition, a removable slotted screw plug can be preinstalled inside the connecting hole of the lower manifold located at the end from the side of the lower holes.

In addition, the tubular radiator headers can be made of a rectangular shaped tube.

The claimed technical solution is illustrated by drawings, some of which are shown in FIG. 1 shows an image of a heating radiator, FIG. 2 is a schematic longitudinal vertical center section of a heating radiator, FIG. 3 - longitudinal horizontal central section.

A universal connection water heating radiator contains upper and lower manifolds 1 and 2, respectively, with end connecting holes 3 and lower connecting holes 4 containing internal threads 5 and 6, register pipes 7 with radial plates 8 and fin surfaces 9, jointly forming air channels 10, and a threaded plug 11 installed in the connecting hole 3 with the thread 6.

Connecting the inventive radiator as a terminal element in heating systems with various types of connections involves the following methods.

In cases of lateral connection (left or right), the radiator is connected to the network through a pair of corresponding end connection holes 3. In this case, blind plugs are installed in the other two end connection holes 3 located on the opposite side of the radiator, as well as in the lower connection holes 4, or , if necessary, it is possible to install a drain valve, for example, a Mayevsky crane, in the corresponding hole 3 (or 4 in the case of the radiator turned 180 ^{0 relative to the horizontal longitudinal axis).} In the case when a plug 11 is preinstalled in the end connecting hole 3 with an internal thread 6, it is previously unscrewed using the slot.

In the case of a lower connection, the radiator is connected to the network through a pair of lower connecting holes 4, and the end connecting holes 3 are muffled with plugs (it is possible to install a drain valve in one of them). In this case, depending on which side of the liner the most of the radiator should be located (to the left or to the right, if, for example, the supply pipes are located near the corner of the room), it is turned around a vertical axis by 180 ^° . In this connection option, in the presence of a pre-installed plug 11, it is left in place, and in its absence, it is pre-screwed into the end hole 3 along the thread 6 until it stops using a slot.

In the case of the location of the supply pipes from above, the installation of the radiator is carried out similarly to the version with the lower connection, having previously turned it 180 ^° relative to the longitudinal horizontal axis in such a way that the upper and lower collectors 1 and 2, respectively, are interchanged.

In all cases of connecting the claimed radiator to the heating system, the ribbing of the pipes 7 of the registers with radial plates 8 and fin surfaces 9 ensures the formation of air channels 10 symmetrically located on the front and rear sides of the radiator. This, in turn, makes it possible to guarantee the same heat transfer by air convection at any turn of the radiator by 180 ⁰ . The implementation of the height of the front and back surfaces of the ribs, exceeding the height of the ribs connected to them, guarantees laminar air movement in the channels 10 from bottom to top.

In the text of this application, the terms "front surface" and "back surface" assume that the area of this surface is limited by the dimensions of the individual element, and the shape of the surface can be flat or curved (convex, concave, etc.).

Making all connecting holes 3 and 4 of the same diameter with an internal thread of the same parameters makes it possible to dispense with the installation of a radiator with a minimum number of standard threaded fittings (adapters and plugs), which are supplied with the radiator or be purchased separately.

Thus, the described technical solution can be technologically connected to heating systems with various types of supply, does not require the use of connecting fittings of complex designs, and allows to reduce the range of manufactured radiators.

The inventive water heating radiator possesses the versatility of connection, is technologically advanced in production, operation and maintenance.

Claims (3)

1. Radiator for water heating of universal connection, consisting of upper and lower tubular headers made of extruded aluminum profile, each of which contains at the ends of the connecting holes of the same diameters with internal threads, connected to a number of vertical ribbed register pipes made of extruded aluminum, the ribbing of which is made in the form four longitudinal radial plates located symmetrically relative to the pipe axis, connected in pairs with the front and rear surfaces of the finning to form closed air channels communicating with the atmosphere at the level of the upper and lower collectors, characterized in that the lower tubular collector additionally contains two connecting holes with an internal thread , made in it from below on a common axis with two extreme register pipes, while the diameters of these holes are equal to the diameters of the connecting holes at the ends of the collectors, the internal thread in the connecting hole of the lower collector the torus located at the end from the side of the lower holes is made up to the middle of the segment connecting the centers of the lower holes, the height of the front and rear surfaces of the ribs exceeds the height of the ribs connected to them and is not less than the height from the lower point of the lower collector to the upper point of the upper collector, and the geometric the shape of the radiator is symmetrical about the longitudinal vertical plane passing through the central axes of the collectors. 2. Radiator for water heating of universal connection according to claim 1, characterized in that a removable threaded plug with a slot is preinstalled inside the connecting hole of the lower collector located at the end from the side of the lower holes. 3. Radiator for water heating of universal connection according to claim 1, characterized in that the tubular collectors of the radiator are made of a rectangular shaped tube.

Images