UA139364U - CONVECTOR - Google Patents

Abstract

The convector contains a housing with side, front and rear walls and bottom, a decorative grille and a heat exchanger located inside the housing. Air zones are created between the parts of the heat exchanger and the elements of the housing, which through the decorative grille are in contact with the air space of the room, which is heated or cooled. The body consists of a top in the form of a frame with vertical side, front and rear walls and a bottom in the form of a box. The housing is made with the possibility of adjusting the height by moving vertically and fixing the upper part of the housing relative to the box.

Description

The utility model belongs to heating equipment, namely to convectors intended for heating or cooling residential and/or industrial premises with a building heating system with a water coolant with forced or natural air convection using devices located under the floor of the heated room or is cooled so that the upper part of the convector is placed at the same level as the upper surface of the floor. The convector solves the problem of increasing the heat output or cold output by keeping heat or cold in the convector area, increasing convection due to uniformly formed connected spaces in the casing around the heating element, and also due to the possibility of regulating air movement in these spaces.

Underfloor convectors with natural convection type are known from the state of the art

TESNMO KM 250-85-2000, each of which contains a box-shaped housing with supports in the lower part, a heat exchanger is located in the housing, a grid is fixed on the housing, made with a plurality of rods located across the housing, connected to each other by flexible elements located along the housing (Yandex, Indoor convector with natural convection

TESNMOKM2250-85-2000, 05/13/2017). This convector and similar modifications are designed for efficient heating of rooms with a large area of window glazing. During the operation of the convector above it and the floor of the room, a thermal curtain is formed, which increases the efficiency of heating the room, while the compact dimensions of the convector and its installation inside the floor allow it to fit optimally into the design of the room.

To increase the efficiency of convection in the constructions of in-floor convectors, air zones are provided, formed by free space on both sides of the heat exchanger, which serve to receive cold air into the body and move it through the heat exchanger with subsequent heating, while convection through the convector and heat transfer can be enhanced forcibly from located inside the casing of the tangential fan (Yandex, Vnutripolnyue convector heating, MopPieproii, zaie (FkKopmekiog-topPiepnoii.gy, 2017).

An in-floor convector is also known from the state of the art according to the application KI 2015112540А for the invention, publication date 10/27/2016, which contains a heat exchanger located in a case in the form of a box with a frame inside, while the case is closed with a decorative grid,

Moreover, the frame is made with supporting elements for the decorative grille and is connected to the body with a removable connection, the box is made of composite material with side and end walls covered with a polymer coating, inside the box there are partitions made of galvanized steel with a polymer coating, which have seats for the heat exchanger. The specified device has unsatisfactory heat transfer due to the limitation of heat exchange between the surface of the heat exchanger and the air environment of the heated room. This is primarily due to the fact that heat removal depends on the inflow of cold air to the convector, which in insufficient volume reaches the heating zone.

The closest analogue in terms of technical essence to the claimed utility model is the in-floor convector under patent KO 180413 for a utility model, publication date 06/13/2018, which contains a heat exchanger in a casing having an upper grid, side, front, rear walls and a bottom, where the heating element is located in the housing such that between the heating element and the side walls, as well as between the heating element and the front and rear walls of the housing, side, front and rear air spaces are formed, and between the heating element and the bottom, a bottom air space is formed, each of which through the grate of the casing is in contact with the air space of the heated room, while the casing is located in a niche of the floor with gaps between the walls of the niche and the walls of the casing, and these gaps are filled with solidifying viscous material that creates a heat-insulating layer around the casing.

This device is selected for the closest analogue. The disadvantages of the closest analogue are that it can be used exclusively for heating the premises, without the possibility of using it for cooling the premises. All elements of the housing (casing) of such a convector are made of steel and other metal resistant to corrosion or with a protective coating. Such a case is difficult to make airtight, any corrosion protection eventually becomes unable to fight rust, especially the bottom. But the main disadvantage of this device is that the manufacture of a convector with a fixed height of the case creates significant problems and inconveniences during its installation in pre-prepared niches. In addition, in such a case, the locations of the inlet and outlet openings for connecting the corresponding fittings are predetermined.

The useful model is based on the task of creating such a convector design that allows you to effectively use a small amount of coolant with a maximum 60 heat output or cold output, allows you to control the process of air convection, allows you to easily change the configuration of the convector and the way the coolant passes through the heat exchangers, change the height of the housing and the location of the inlet and outlet holes for connecting the appropriate fittings when installing the convector, choose a suitable material for the body and decorative grid from a large number of modern materials.

The task is solved as follows. The convector includes a housing with side, front and back walls and a bottom, a decorative grill and at least one heat exchanger is located inside the housing in such a way that air zones are created between the parts of the heat exchanger and the housing elements, which through the decorative grill are in contact with the air space of the room that is heated or cooled , according to the useful model, the case consists of an upper part in the form of a frame with vertical side, front and rear walls and a lower part in the form of a box, while the case is made with the possibility of height adjustment due to vertical movement and fixation of the upper part of the case relative to the box.

It is advisable to select the material for the frame of the body from the group consisting of galvanized metal with an anti-corrosion coating, aluminum, aluminum with a protective coating, fiberglass, polypropylene, aluminum-based composite material or other suitable material.

It is advisable to choose the material for the manufacture of the box from the group consisting of fiberglass, polypropylene, aluminum, aluminum with a protective coating, composite material based on aluminum or other suitable material.

To create forced air convection, it is advisable to make a convector with the possibility of placing at least one tangential electric fan inside the case.

It is advisable to use a modular heat exchanger with a series or series-parallel connection as a heat exchanger.

It is advisable to choose the material for the manufacture of a decorative lattice from the group consisting of wood, plastic, plywood, metal, composite material, any combination thereof, or other suitable material.

It is advisable to equip the convector with an electronic control unit and/or a thermoregulating valve with their placement inside the case.

З The useful model provides several advantages compared to known devices: the ability to adjust the height of the convector in the range from 75 to 125 mm; ensuring the rigidity of the case due to the use of internal stiffeners, which at the same time can act as a handle for ease of movement and fixation of the case frame relative to the box; the possibility of placing the heat exchanger in the convector body with different locations of the inlet and outlet holes for connecting the appropriate fittings when installing the convector due to the use of a system of possible plugs; practically silent operation of the convector equipped with tangential electric fans due to the use of material for the box; the possibility of free placement of the electronic control module inside the case; the possibility of placing the converter at an angle in accordance with the floor plane; depending on the width of the case, the possibility of placing a modular heat exchanger consisting of several connected elements and more than one tangential electric fan; efficient heating or cooling of the room.

All the above-mentioned advantages provide economy and ergonomics of the device, provide ease of installation of the device and ease of changing the decorative grid. The body of the device is made detachable: the upper part of the body is made in the form of a frame with vertical walls, and the lower part is made in the form of a box. The body frame is made with the possibility of vertical movement relative to the box. The housing elements can be made from the same material or from different materials, for example, the frame can be made from galvanized metal with an anti-corrosion coating, aluminum, aluminum with a protective coating, fiberglass, polypropylene, aluminum-based composite material or other suitable material, and the box is made of fiberglass, polypropylene, aluminum, aluminum with a protective coating, aluminum-based composite material or other suitable material. Preferably, the frame of the case and the box are the same height, but it is allowed that the height of the frame of the case is greater or less than the height of the box. In general, we get a case that is completely closed from all sides, except for the upper part, which contributes to the fact that during natural convection, cold or warm air enters through the holes in the decorative grid, because it is heated or cooled and directed into the room through these same holes in the decorative grid. And with forced convection, cold or warm air from the heated or cooled room is sucked in by a tangential electric fan to the convector through the air intake window, passes by the heat exchanger, is heated or cooled, and exits through the holes in the decorative grille. Instead of warm or cold air, a new portion of cold or warm air arrives. Obviously, heating and cooling modes are based on the same principle - the exchange of heat or cold between air masses. The decorative grill, in addition to its main functions - ensuring the access of cold air inside the device and directing heated or cooled air into the room, also plays a decorative function. The use of various modern materials, of different colors and structures, allows you to decorate the premises for any taste.

Equipping the convector with a variable number of heat exchangers allows you to additionally adjust the power of the heated or cooled air flow and adapt the device to rooms of different areas. As a rule, the heat exchanger contains a copper pipe or two copper pipes (double version) and fins made of aluminum, which instantly heat up (cool down) and give off heat (cold). Thus, the heating (cooling) time is reduced, and taking into account the fact that the heat exchanger has a small mass, this significantly reduces the inertness of the device and contributes to the fact that a small amount of coolant is enough for its heating or cooling. In addition, such a heat exchanger distributes heat or cold evenly and emits healthy, safe heat or cold. To increase the power of the convector, instead of several heat exchangers, it can be equipped with a modular heat exchanger, which is several heat exchangers combined into one whole module. At the same time, all heat exchangers are interconnected in such a way that the shut-off valve for connecting to the heating system with the circulation of heated or cooled heat carrier is used for one heat exchanger (in case of serial connection) or at most for two heat exchangers (in case of parallel-series connection connection).

In this way, it is possible to form different modules of heat exchangers, for example, linear modules: a horizontal module or a vertical module, or a module consisting of several lines of heat exchangers. The final configuration of the modular heat exchanger depends only on the internal dimensions of the convector housing. The use of a modular heat exchanger significantly increases the heating or cooling capacity of the convector at minimal costs.

The amount of heat or cold produced by this device can be increased several times also by equipping it with tangential electric fans of different sizes and power. Making the decorative grill rigid or collapsible allows for easy access to the inside of the device if necessary. For additional control of the convector to create the most comfortable climate in the room that is being heated or cooled, an electronic control module, temperature control valve, etc. can be placed inside the convector housing.

The essence of a useful model is explained by drawings.

The following drawing figures, as well as the description of examples of a specific implementation of the convector, are given only to illustrate the claimed utility model and do not limit the scope of rights defined by the utility model formula: fig. 1 - general view of the convector with a partially removed decorative grid; fig. 2 - cross section of the convector in fig. 1; fig. C - cross-section of a convector with an installed modular heat exchanger having a series-parallel connection; fig. 4 - end view of the convector; fig. 5 - side view of the convector.

According to fig. 1, the convector contains a housing 1, which consists of an upper part in the form of a frame 2 with vertical side, front and rear walls and a lower part in the form of a box 3, a decorative grid 4. Inside the housing 1, at least one heat exchanger 5 is installed in such a way that between the parts air zones b are created by the heat exchanger 5 and the elements of the housing 1, which through the decorative grid 4 are in contact with the air space of the room that is heated or cooled (Fig. 2, Fig. 3). At the same time, the body 1 is made with the possibility of height adjustment due to the vertical movement and fixation of the frame 2 of the body relative to the box 3, which allows you to adjust the height of the convector in the range from 75 to 125 mm. To ensure this possibility, vertical slots 7 (Fig. 5) are made in the frame 2, and on the box C - the corresponding fasteners 8 are made with the possibility of fixing the frame. This property not only greatly facilitates the installation of the convector in a previously prepared niche, but also allows you to fix the frame 2 relative to the box 3 in such a way that the plane of the surface of the convector, which is formed by the decorative grid 4, coincides with the plane of the floor surface. A special shelf 9 is made for placing or fixing the decorative grid 4 in the upper part of the frame. As a rule, when the convector is fixed and insulated, it is necessary to solve the problem of possible deformation of the convector body 1 due to compression. This problem can be solved by the stiffeners 10 placed inside the housing, which prevent possible deformation of the housing 1. For the convenience of mounting the frame 2 of the housing 1 relative to the box C, the convector can be equipped with the corresponding handle 11, which are most often parts of the stiffeners 10. For the convenience of placement inside the housing 1 heat exchanger 5 with different arrangement of inlet and outlet holes for connecting the corresponding shut-off fittings 12 in the walls of the frame 2 of the housing 1 and the walls of the box 3 made technological plugs 13, 14 (Fig. 4 and

Fig. 5), which are closed in the initial position. At the same time, the inlet and outlet openings for connecting the corresponding shut-off fittings 12 can be both from the end (Fig. 4) and from the side of the convector (Fig. 5). Other devices that increase the efficiency of the convector can also be installed inside the housing 1: at least one tangential electric fan 15, an electronic control module for the convector 16, a temperature control valve 17, etc. In addition, instead of conventional heat exchangers 5, a modular heat exchanger 18 with a series connection of individual heat exchangers or a parallel-series connection of individual heat exchangers can be placed inside the housing 1 (Fig. 3).

In the heating mode, the declared convector works as follows (Fig. 2, Fig. 3).

The convector with the decorative grille 4 removed is installed in the previously prepared niche 19. Before installing the convector, determine the places and order of connection of the corresponding shut-off fittings 12 and remove the necessary technological plugs 13 and 14. This is done externally.

Taking into account the depth of the prepared niche 19 in place, set the necessary height of the convector by vertically or vertically with an inclination of moving the frame 2 of the housing 1 along the slots 7 relative to the fasteners 8 on the box C using special handles 11 and fixing the frame 2 of the housing 1 on the box 3. The convector is fixed in niches 19. Most often, a liquid plastic material or a hardening mixture is used to secure the convector. After placing the heat exchanger 5 or the modular heat exchanger 18 and, if necessary, the tangential electric fan 15, the electronic work control module inside the housing 2

From the convector 16, the thermoregulating valve 17, the convector is connected by means of the shut-off valve 12 to the heating system with the circulation of heated or cooled coolant (not shown). After installing or fixing the decorative grid 4 on the special shelf 9 of the frame 2 of the housing 1, the convector is completely ready for operation. At the same time, it is important to note that the use of the above-mentioned materials, especially those used for the manufacture of the box 3, makes the operation of the convector during forced convection using the tangential electric fan 15 practically silent.

During the operation of the declared convector in the cooling mode, a process is observed that is the reverse of the air heating process, i.e. warm air from the cooled room enters the convector, passes the heat exchangers, cools and exits through the holes in the decorative grid. Instead of cold air, a new portion of warm air arrives. With natural convection, warm air enters the convector through the holes in the decorative grill, and with forced convection, warm air is sucked into the convector through the air intake window by a tangential electric fan, passes by the heat exchanger, cools and leaves through the holes in the decorative grill. It is clear that the power of this device in terms of air cooling is inferior to cooling devices such as air conditioners, however, it also does its job of creating a normal microclimate in the room.

The proposed convector allows you to effectively use a small amount of heat carrier with maximum heat output or cold output, control the air convection process, easily change the configuration of the convector and the way the heat carrier passes through the heat exchangers, it is easy and convenient to install convectors in the appropriate niches, provides reliable and long-term protection of the convector from crushing during installation, corrosion during use, allows you to easily fit into the interior of a heated or cooled room.

Claims (1)

USEFUL MODEL FORMULA 1. The convector, which contains a case with side, front and back walls and a bottom, a decorative grid and a heat exchanger, is located inside the case in such a way that air zones are created between the parts of the heat exchanger and the elements of the case, which through the decorative grid are in contact with the air space of the room, which heated or cooled, which differs in that the body consists of an upper part in the form of a frame with vertical side, front and rear walls and a lower part in the form of a box, while the body is made with the possibility of height adjustment due to vertical movement and fixation of the upper part of the body relative to box 2. The convector according to claim 1, characterized in that the material for manufacturing the upper part of the housing is selected from the group consisting of galvanized metal with an anti-corrosion coating, aluminum, aluminum with a protective coating, fiberglass, polypropylene, composite material based on aluminum or other suitable material 3. A convector according to claim 1 or claim 2, which is characterized by the fact that the material for making the box is selected from the group consisting of fiberglass, polypropylene, aluminum, aluminum with a protective coating, composite material based on aluminum or other suitable material. 4. A convector according to any of claims 1-3, which is characterized by the fact that at least one tangential electric fan is placed inside the housing. 5. A convector according to any of claims 1-4, which is characterized by the fact that a modular heat exchanger with a series or series-parallel connection is used as a heat exchanger. 6. A convector according to any of claims 1-5, which is characterized by the fact that the material for the manufacture of the decorative grid is selected from the group consisting of wood, plastic, plywood, metal, composite material, any combination thereof, or other suitable material . 7. The convector according to any of claims 1-6, which is characterized by the fact that it is equipped with an electronic control unit and/or a thermoregulating valve with their placement inside the case. 1 2 1 55 V A Sho "(Ж "Ж " 5 TOOPLY - Z. r TEN. IEE NN ZINENINE Z: lush EE and A oo" la y5 6 4 Fig. 1 A-A a i i i : ' hot pastrya N i . E investigate again and : | A k t o Yila nina s sini iii Dik aka i r : Ye 2 i Tvoya O li F. ye g ShK Shi Ya. Y va y v I Fig. 2 and 9! tashyankh apeKya kody povit, N N We will tell: N : x x tyu z PODYNII NYM NIC POPY same es y v nyn, 18. va sy) and 8) ra era OMA YAN seter and yav is Zv: Fig. Z does not write b and g with I is ШШнЯ za Fig. 4 yah i e o e ko U yah N |! r i i ne i i Y N b Z v v" TE Fig. 5