RU175509U1 - IN-TRIPPED CONVECTOR BOX - Google Patents

Abstract

The utility model relates to means for heating rooms, in particular to convectors mounted on the floor and intended primarily for heating rooms with a significant area of window glazing. The box 1 of the floor convector contains a bottom 2, two long side walls 3 and two short side walls 4 adjacent to them with technological holes 7. The box 1 contains internal partitions 5 installed inside the box 1 parallel to the short walls 4 and having two groups of seats 6 for heat exchanger. Each short wall 4 has two groups of technological holes 7, while two groups of seats 6 of each partition 5 and two groups of technological holes 7 of each short wall 4 are formed symmetrically relative to a plane perpendicular to the bottom 2 and located at an equal distance from the long side walls 3. Each long wall 3 has two technological holes 9 formed at the edges of the long wall 3 symmetrically with respect to a plane perpendicular to the bottom 2 and located at an equal distance from the short side tenok 4. The technical problem solved by the utility model is the possibility of simple and quick installation (installation) of the heat exchanger, regardless of the position of the duct in the floor, the removal of obstacles to the installation of the heat exchanger when the duct is improperly installed in the floor, the creation of a universal floor convector that allows its installation and the location of the heat exchanger in it in any position. The technical result of the utility model is the possibility of symmetrical installation of the heat exchanger inside the duct, eliminating installation errors and the need to dismantle the floor in case of improper installation of the duct due to the complete symmetrical formation of seats and technological holes in the side walls of the duct.

Description

The utility model relates to means for heating rooms, in particular to convectors mounted on the floor and intended primarily for heating rooms with a significant area of window glazing.

One of the basic requirements for the installation of floor convectors is the accuracy and correctness of the installation. The case (box) of the device is recommended to be placed on the same level with the floor covering, it should also be installed so that the technological openings for the supply of communications are located (facing) from the side of the supply communications.

As the closest solution from the prior art, an underfloor convector box is known that contains a bottom, two long side walls and adjacent two short side walls with technological holes, internal partitions installed inside the box parallel to short walls and having seats for a heat exchanger (see , for example, the website on the Internet http://kztoradiator.ru/catalog/index/briz/briz).

A disadvantage of the known solution is that it does not have the ability to position the heat exchanger and fans inside the duct on either side and the direction of the heat exchanger in any direction (right or left wiring of communications). The lack of symmetrical arrangement of the heat exchanger leads to the fact that in case of improper installation of the duct, it is necessary to dismantle the floor and reinstall the duct in the correct position.

The technical problem solved by the utility model is the possibility of simple and quick installation (installation) of the heat exchanger, regardless of the position of the duct in the floor, the removal of obstacles to the installation of the heat exchanger when the duct is improperly installed in the floor, the creation of a universal floor convector that allows its installation and location mute heat exchanger in any position.

Technically, the problem is solved by a useful model due to the fact that the box of the floor convector contains a bottom, two long side walls and two short side walls adjacent to them with technological holes, internal partitions installed inside the box parallel to the short walls and having seats for the heat exchanger, each partition has two groups of seats, and each short wall has two groups of technological holes, while two groups of seats of each partition and two groups of technical The biological holes of each short wall are formed symmetrically with respect to a plane perpendicular to the bottom and equally spaced from the long side walls, and each long wall has two technological holes formed along the edges of a long wall symmetrically with respect to a plane perpendicular to the bottom and equally spaced from the short side the walls.

In addition, each group of seats may include at least two seats, and each group of technological holes of each short wall may include at least two technological holes.

In addition, each partition may have two additional seats formed symmetrically with respect to a plane perpendicular to the bottom and at an equal distance from the long side walls, with each additional seat of one partition aligned with the corresponding opposite additional seat of the other partition.

In addition, each hole of each group of technological holes of one short wall can be aligned with the corresponding opposite hole of the corresponding group of technological holes of the other short wall.

In addition, each short wall can have two additional technological holes formed symmetrically with respect to a plane perpendicular to the bottom and located at an equal distance from the long side walls, with each additional technological hole of one short wall aligned with the corresponding opposite additional technological hole of the other short wall.

In addition, each seat of each group of seats of one partition can be aligned with the corresponding opposite seat of the corresponding group of seats of another partition.

In addition, the axis of each pair of coaxial holes from each group of technological holes can coincide with the axes of the corresponding coaxial seats of the partitions.

In addition, each technological hole of one long wall can be aligned with the corresponding opposite technological hole of the other long wall.

In addition, each long wall can have at least two additional technological holes formed symmetrically with respect to a plane perpendicular to the bottom and equally spaced from the short side walls, with each additional technological hole of one long wall aligned with the corresponding additional technological hole of the other long wall.

The bottom can be equipped with adjusting screws located in each corner of the bottom with the ability to change the position of the corresponding bottom angle in the vertical plane.

In addition, the distance between one short wall and one partition located closer to this wall may be equal to the distance between the other short wall and another partition.

In addition, the distance between one short wall and one partition located closer to this wall may not be equal to the distance between the other short wall and another partition.

Partitions can be installed inside the box with the possibility of removal.

In addition, partitions can be permanently installed inside the box.

The technical result of the utility model is the possibility of symmetrical installation of the heat exchanger inside the duct, eliminating installation errors and the need to dismantle the floor in case of improper installation of the duct due to the complete symmetrical formation of seats and technological holes in the side walls of the duct.

The utility model is illustrated by drawings, where in FIG. 1 shows a convector box, a perspective view; in FIG. 2 - the same, side view of the box from the side of a long wall; in FIG. 3 - the same, side view of the box from the side of the short wall; in FIG. 4 shows an internal baffle for a heat exchanger.

The box 1 of the floor convector contains a bottom 2 (bottom, base), two parallel side walls 3 and two parallel side-by-side short (end) walls 4 adjacent to the walls 3. The box 1 can be formed: a) by bending the sheet blanks on the corresponding bending lines and the connection between each other formed adjacent long and short walls 3 and 4; b) by welding between each other separately the walls 3 and 4 and the bottom 2.

Inside the box 1 there are two internal partitions 5, each of which has two groups of seats 6, designed to install a heat exchanger (not shown). Moreover, each group of seats 6 includes mainly two seats 6. Each group of seats 6 can also include three, four, five, or more seats, depending on the design of the heat exchanger (the number of its pipes). The seats 6 are made in the form of grooves formed in each partition 5, moreover, the groups of seats 6 are formed in each partition 5 symmetrically to each other with respect to a plane perpendicular to the bottom 2 and located at an equal distance from the long walls 3, i.e. passing through the middle (centers) of the short walls 4 (also symmetrically with respect to the center of the partition 5). Also, each partition 5 may have two additional seats 6 (not shown in the drawings), which are also formed symmetrically with respect to the indicated plane farther than the extreme main seat 6 from the specified plane. Additional seats can be formed, mainly, at the same distance from the extreme main seat 6, which is one seat 6 from another from the same group of seats 6. Each partition 5 is installed inside the box 1 parallel to the walls 4 (and parallel to each other friend), while each partition 5 is fixed with its edges on opposite walls 3, as well as on the bottom 2. Each partition 5 can be installed inside the box 1 and fixed on the walls 3 and on the bottom 2 or with the possibility of removal , for example, with threaded connections, or without such a possibility (one-piece), for example, by spot welding. Partitions 5 with seats 6 are made and installed inside the box 1 so that each seat 6 of each group of seats 6 and each additional seat 6 of one partition 5 is aligned with the corresponding opposite seat 6 of the corresponding group of seats and the corresponding additional seat 6 of the other partitions 5 (a line connecting the center of one seat 6 of one partition 5 with the center of the corresponding opposite seat 6 of another partition 5, parallel to the long walls 3). In this case, partitions 5 can be installed inside the box 1 so that the distance between one short wall 4 and one partition 5 located closer to this wall 4 is equal to the distance between the other short wall 4 and another partition 5. It is also possible to make the box 1, when the distance between one short wall 4 and one partition 5 located closer to this wall 4 is not equal to the distance between the other short wall 4 and another partition 5 (i.e. one partition 5 is located at the same distance from the nearest wall 4 and the other partition 5 is located at a different distance from the wall closest to it 4).

Each short wall 4 has two groups of technological holes 7 for supplying communications, while each group of technological holes 7 of each short wall 4 includes mainly two technological holes 7 (a pair of holes 7). Also, each group of technological openings 7 of each short wall 4 may include three, four, five, or more holes 7 depending on the design of the heat exchanger (the number of its pipes). Groups (pairs) of technological holes 7 are formed in each wall 4 symmetrically to each other with respect to a plane perpendicular to the bottom 2 and located at an equal distance from the long walls 3, i.e. passing through the middle (centers) of the short walls 4 (also symmetrically with respect to the center of the wall 4). Also, each short wall 4 may have two additional technological holes 7 (not shown in the drawings), which are also formed symmetrically with respect to the indicated plane farther than the extreme main technological hole 7 from the specified plane. Additional technological holes can be formed, mainly, at the same distance from the extreme main technological holes 7, which is one hole 7 from another from the same group of technological holes. Holes 7 can be formed directly in the manufacture of the duct 1, or places can be prepared for the formation of technological holes 7, for example, by perforation around the perimeter of the proposed technological holes 7. It is also possible that part of the holes 7 are already formed in the manufacture of the duct 1, and part of the holes 7 is prepared for their formation by removing the plates 8 (plugs), breaking the jumpers formed during perforation. Technological holes 7 may have a square shape, or a circular shape, or a rectangular shape. It is possible that part of the holes has one shape, for example, round, and part - another, for example, square. Moreover, each technological hole 7 of each group of technological holes 7 and each additional technological hole in one wall 4 is aligned with the corresponding opposite hole 7 of the corresponding group of holes 7 and the corresponding additional hole in the other opposite wall 4. The axis of each pair of coaxial holes 7 from each group of technological holes coincide with the axes of the corresponding coaxial seats of the partitions 5 (i.e., lie on a line connecting the centers of the corresponding coaxial oppositely seats 6 opposite walls 5).

Each long side wall 3 has two technological holes 9, while the holes 9 are formed on opposite edges of the walls 3 adjacent to the walls 4. The holes 9 in each wall 3 are formed symmetrically to each other with respect to a plane perpendicular to the bottom 2 and located at an equal distance from short walls 4 (i.e., passing through the centers (midpoints) of the walls 3). Moreover, each technological hole 9 of one wall 3 is aligned with the opposite hole 9 of the other wall 3. Also, each long wall 3 may have two or more additional technological holes 9 (not shown in the drawings) formed symmetrically relative to the specified plane closer to the main hole 9 to given plane. Moreover, each additional technological hole 9 of one wall 3 is aligned with the corresponding additional technological hole 9 of the other wall 3.

The bottom 2 of the box 1 is equipped with adjusting screws 10 located in each corner of the bottom 2 with the possibility of changing the position of the corresponding angle of the bottom 2 in the vertical plane. Adjusting screws allow when installing the box 1 in the floor to adjust the horizontal position of the entire box 1 relative to the base of the floor on which the box is located during installation.

Box 1 has a frame 11 (flanging) for installing a decorative protective grille (not shown) on it.

The execution of the box 1 according to the proposed solution allows, without thinking about the correct location of the box 1 when it is installed on the floor, to mount the box 1 as you like, on either side, and only after that carry out the assembly, i.e. installation of a convector, fan and other necessary devices.

Due to the implementation of the box 1 with the specified set of features, it is possible to install (install) the box 1 on either side of the enclosing structure, in any position, without thinking about the correct location of the box 1 when it is mounted on the floor (it does not matter which side it was mounted on the floor) . Also, subsequently, it is possible to install devices (heat exchanger, fan, etc.) inside the duct 1 on either side, regardless of the sides (places) of the supply of communications, while providing both right and left supply of communications, as well as the possibility of placing the heat exchanger closer to the glazing or further from it when the duct 1 is already mounted in the floor 1. This possibility is provided due to the fact that the seats 6 in the partitions 5, as well as the technological holes 7 and 9 in the walls 3 and 4 are made completely sim etrichnymi. Moreover, on the "path" of the axes of the seats 6, it is necessary to ensure the location of the holes 7 in the short walls 4. This ensures equally convenient installation conditions for any location of the duct 1 and the heat exchanger in it. Both the heat exchanger and the fans can be installed in the device after mounting the box 1 itself.

Claims (15)

1. The box of the floor convector, containing the bottom, two long side walls and adjacent two short side walls with technological holes, internal partitions installed inside the box parallel to the short walls and having seats for the heat exchanger, characterized in that each partition has two groups seats, and each short wall has two groups of technological holes, while two groups of seats of each partition and two groups of technological holes of each short Enki formed symmetrically with respect to a plane perpendicular to the bottom and situated at equal distance from the long side walls and each wall has two long technological holes formed along the edges of the long side symmetrically with respect to a plane perpendicular to the bottom and situated at equal distance from the short side walls. 2. Box under item 1, characterized in that each group of seats includes at least two seats. 3. A box according to claim 1, characterized in that each partition has two additional seats formed symmetrically with respect to a plane perpendicular to the bottom and at an equal distance from the long side walls, with each additional seat of one partition aligned with the opposite opposite additional landing the place of another partition. 4. Box according to claim 1, characterized in that each group of technological holes of each short wall includes at least two technological holes. 5. Box according to claim 1, characterized in that each short wall has two additional technological holes formed symmetrically with respect to a plane perpendicular to the bottom and located at an equal distance from the long side walls, with each additional technological hole of one short wall aligned with the opposite additional technological hole of another short wall. 6. The box according to claim 1, characterized in that each hole of each group of technological holes of one short wall is aligned with the corresponding opposite hole of the corresponding group of technological holes of the other short wall. 7. A box according to claim 1, characterized in that each seat of each group of seats of one partition is aligned with the corresponding opposite seat of the corresponding group of seats of another partition. 8. Box according to paragraphs. 6 and 7, characterized in that the axis of each pair of coaxial holes from each group of technological holes coincide with the axes of the corresponding coaxial seats of the partitions. 9. Box according to claim 1, characterized in that each technological hole of one long wall is aligned with the corresponding opposite technological hole of the other long wall. 10. Box under item 1, characterized in that each long wall has at least two additional technological holes formed symmetrically with respect to a plane perpendicular to the bottom and located at an equal distance from the short side walls, with each additional technological hole one long wall coaxial with the corresponding additional technological hole of another long wall. 11. Box under item 1, characterized in that the bottom is equipped with adjusting screws located in each corner of the bottom with the ability to change the position of the corresponding corner of the bottom in a vertical plane. 12. Box according to claim 1, characterized in that the distance between one short wall and one partition located closer to this wall is equal to the distance between the other short wall and another partition. 13. A box according to claim 1, characterized in that the distance between one short wall and one partition located closer to this wall is not equal to the distance between the other short wall and another partition. 14. The box under item 1, characterized in that the partitions are installed inside the box with the possibility of removal. 15. The box under item 1, characterized in that the partitions are installed inside the box one-piece.

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