RU2344351C1 - Convector - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: invention is designed for heating and can be used in heat-process engineering. The convector contains a casing which incorporates a tubular heater with a supply and discharge site of a bent pipe whereon heat exchange elements of the heater are fixed. The convector further contains a thermoregulating valve and demountable adjusting head connected therewith. The thermoregulating valve case is connected with the pipe supply and discharge sites. The axis the thermoregulating valve case working cavity is arranged along or transverse to the casing longitudinal axis. The adjusting head is located in a wall deepening made around an aperture, both the deepening and the aperture being made either in lateral or in front wall of the casing. The thermoregulating valve case is made of steel and rigidly connected by welding either to the parts of the pipe supply site or to the pipe supply and discharge sites in such a manner that it forms with said pipe sites an integral non-detachable pipe construction formed either by, at least, two parts of the pipe supply site and the pipe discharge site or by the pipe supply and discharge sites interconnected by the thermoregulating valve case.

EFFECT: simplified design of convector, improved compactibility and reliability.

2 cl, 7 dwg

Description

This technical solution relates to room heating means, in particular to means having casing-forming ducts in which predominantly tubular heaters with heat exchange elements are installed.

Convectors are known, each of which contains a casing, a heating element located in it with a thermostatic valve, which is fixed between the inlet and outlet sections of the heater pipe [1-8].

Convectors are known, each of which contains a casing, a heating element located in it with a thermostatic valve, which is fixed between the inlet and outlet sections of the heater pipe, while in these convectors thermostatic valves have bodies made of a non-ferrous metal alloy, the ends of each body of the thermostatic valve are made with a thread through which the valve body is connected to the inlet and outlet sections of the heater pipe using union nuts [9-11].

This embodiment of convectors greatly complicates their design and reduces the reliability of operation in terms of tightness of threaded joints. The valve control head in these convectors significantly extends beyond the casing, and the convector is designed in such a way that for each type of convector it is necessary to use a thermostatic valve corresponding to this type.

Closest to the claimed technical solution is a convector containing a casing in which a tubular heater is located, having a supply section and a discharge section of a bent pipe, on which heat exchange elements of the heater are fixed, a thermostatic valve located in the housing, the working cavity of which is hydraulically connected with the supply and outlet sections of the pipe and it contains the specified valve, a removable adjusting head associated with the valve and located in the hole of the casing, while the housing rmoreguliruyuschego valve connected to the inlet and outlet portions of the pipe, and the casing includes a front wall, side walls and a top wall [11].

This convector is characterized by the above disadvantages.

The objective of the technical solution presented in this description is to simplify the design of the convector, increase its compactness and reliability.

This problem is solved in that in a convector containing a casing in which a tubular heater is located, having a supply section and a discharge section of a bent pipe, on which heat exchange elements of the heater are fixed, a thermostatic valve located in the housing, the working cavity of which is hydraulically connected with the supply and outlet sections of the pipe and it contains the specified valve, a removable adjusting head associated with the valve and located in the hole of the casing, while the body of the thermostatic valve and connected to the inlet and outlet sections of the pipe, and the casing includes a front wall, side walls and an upper wall, the valve body is located in the angular zone of the casing formed by its front and side walls between the longitudinal axis of the casing in the projection onto a horizontal plane and the front wall of the casing, the axis the working cavity of the body of the thermostatic valve is located along or across the longitudinal axis of the casing, the adjustment head is located in the recess of the wall, which is made around the hole, the recess and hole are made In the side or in the front wall of the casing, the body of the thermostatic valve is made of steel and is rigidly connected by welding to parts of the inlet pipe section or to the inlet pipe section and the outlet pipe section in such a way that it forms a single integral pipe structure made of at least at least two parts of the inlet pipe section and the outlet pipe section, or from the inlet and outlet pipe sections connected to each other by the body of the thermostatic valve.

The recess around the hole in the side or front wall of the casing is formed by a perimeter-flanged corresponding flange of the corresponding wall directed inside the casing, while the hole is made on the flanging edge and is located inside the casing.

Figure 1 shows the first design of the convector with a direct connection of a thermostatic valve in the inlet section of the heater pipe;

figure 2 - the second design of the convector with a heater having a bypass pipe;

figure 3 - the third design of the convector with an angular connection of a thermostatic valve, which is located up to the bypass pipe in the direction of the coolant;

figure 4 is a view of figure 3;

5 is a diagram of the location of the holes of the casing, the inlet portion of the heater pipe and the valve adjusting head;

figure 6 - arrangement of holes in the side and front walls of the casing;

Fig.7 is a view of B in Fig.2 (fragment).

In this description, three structural designs of the convector are presented, the features of which are described below.

The convector in the general design (Figs. 1-3) contains a casing 1 in which a tubular heater is located, having a supply section 2 and a discharge section 3 of the bent pipe 4, on which the heat exchange elements 5 of the heater are fixed, while the heater has a thermostatic valve 6 located in the housing 7. The working cavity 8 of the latter is connected hydraulically with the inlet and outlet sections 2 and 3 of the pipe and the specified valve 6 is located in it. The removable adjusting head 9 is connected to the valve 6 and is located in the hole 10 of the casing 1. The housing 7 is thermo the control valve is connected to the inlet and outlet sections 2 and 3 of the pipe 4. The casing includes a front wall 11, side walls 12 and an upper wall 13 with air outlets therein (not shown). At the bottom of the casing there is an air intake (not shown).

A distinctive feature of the convector is that the valve body 7 is located in the corner zone α of the casing (Fig. 4), formed by its front and side walls 11 and 12, respectively, in particular between the longitudinal axis 14 of the casing in the projection on a horizontal plane and the front wall 11 casing. The axis 15 of the working cavity of the housing 7 of the thermostatic valve 6 is located along (Fig. 4, 5) or across (Fig. 1, 2, 7) of the longitudinal axis 14 of the casing (Fig. 4), the adjustment head 9 is located in the recess 16 of the casing wall 4-6), which is made around the hole 10. The recess 16 and the hole 10 are made in the side wall 12 of the casing (4, 5) or in the front wall 11 of the casing (6), while this embodiment does not exclude when holes 10 and recesses 16 are made around them in the front and side walls 11 and 12 or in the front wall 11 and in two side walls 12 in places where thermostatic valve body 7 may be located close to them.

The housing 7 is made of steel and is rigidly connected by welding 17 to either parts 18 and 19 of the inlet section 2 of the pipe 4, or it is connected to the inlet section 2 of the pipe and the outlet section 3 of the pipe. The specified connection by welding the housing 7 with sections 2 and 3 of the pipe or with their parts 18 and 19 is made in such a way that sections 2 and 3 of the pipe (or the named parts of the sections) together with the housing 7 form a single, solid integral structure of the pipe 4 of the heater that does not have detachable , threaded connections exposed to coolant leaks through them.

The recess 16 around the hole 10 is formed by a perimeter flange closed along the perimeter, located obliquely or at right angles to the wall plane with respect to the corresponding wall. This flanging (and, accordingly, the recess) is directed inside the casing, while the hole 10 is made on the inner edge of the flanging of the recess 16, which faces the inside of the casing. Accordingly, the hole 10 is also located inside the casing.

In the first version of the convector (figure 1), its heater includes inlet and outlet sections 2 and 3 of the pipe connected by a valve body 7 by welding.

In the second embodiment of the convector (figure 2), its heater includes inlet and outlet pipe sections connected by a valve body, as well as a bypass pipe 20 connected and communicated with the pipe inlet and outlet sections. In the first and second versions of the convector, the axis 15 of the working cavity 8 of the valve body 7 is located across the casing or across the longitudinal axis 14 of the casing.

In the third embodiment of the convector (Fig. 3), its heater includes inlet and outlet pipe sections 2 and 3 connected by a valve body 7, as well as a bypass pipe 20 connected and communicated with the pipe inlet and outlet sections, while the pipe discharge section 3 has a rounding 21, the end of which is docked with the end of the valve body 7 in such a way that the body 7 is located in the angular connecting portion of sections 2 and 3 of the heater pipe. A feature of the third version of the convector is the location of the axis 15 of the working cavity 8 of the housing 7 along the casing or along its longitudinal axis 14.

If the recess 16 is made conical, the cone of the recess can serve as a limiter of the axial movement of the control head 9 and its centralizer.

The holes 10 (Fig.6) in the walls 11 and 12 of the casing are located at equal distance s from the adjacent walls of the casing in order to ensure the possibility of using the unified valve body 7 or at least two different structures in the convectors. The execution in the casing at the same time two or three holes 10 is made in order to increase the versatility of the casing. In this case, the casing can be used both with the valve body transversely located in it and with the valve body longitudinally located in it (this refers to the location of the axis 15 of the valve working cavity 8). Since the adjusting head 9 is installed in one hole 10, the second hole 10 or two other holes 10 are closed with flanges flush with the planes of the corresponding walls in which the second holes are made 10. In this case, the recess 16 around the hole 10 contributes to the location of the outer surface of the cap flush with the wall plane casing.

All the above-described versions of the convector work according to the traditional scheme. When the coolant moves along the upper arrow (Figs. 1-3) along the supply section 2 of the pipe, the coolant passes through the working cavity 8 of the housing and enters the discharge section 3 of the heater pipe. When this happens through the elements 5, heat is transferred from the coolant to the casing space, from where heat is removed through the air outlet openings in the upper wall 13 of the casing to the heated room. If necessary, rotate the adjusting head 9 in a predetermined direction, move the valve operating element 6 in the housing 7, open or close the gap between the valve operating element 6 and the valve housing 7 in the working cavity 8 and regulate the flow rate of the coolant, the intensity of its passage through the heater and the temperature of the heated air premises.

Thus, the heater pipe 4, made of at least two parts of the inlet pipe section and the outlet pipe section, or from the inlet and outlet pipe sections that are interconnected by the body of the thermostatic valve, is essentially one structural element that greatly simplifies the design of the convector General and manufacturing technology of the heater. Moreover, this solution excludes the use of threaded valve bodies made of non-ferrous metal alloys, excludes threaded connections of the valve body with sections of the heater pipe and significantly increases the reliability of the convector.

The location inside the casing of the hole 10 and the recess 16 makes it possible to arrange part of the adjustment head inside the casing, which reduces the outer dimension of the convector, increases its compactness and ergonomics.

Information sources

1.JP 701940, 23-03, 06/04/1987.

2. DE 2245484, 10.27.1977.

3. JP 987895, 23-03, 08.20.1997.

4. DE 19507089, 03/01/1995.

5. RU 16306 U1, 12.20.2000.

6. WO 00/55548, 09.21.2000.

7. WO 94/27095, 11.24.1994.

8. DE 10135215, 07.25.2002.

9. Catalog of heating equipment, "SANTEHPROM", 2005. P.4.

10. Passport "Santekhprom Auto", "Santechprom Auto-S", "SANTEHPROM", 2004. P.9.

11. Recommendations on the use of safety steel wall heating convectors, M., OOO "VITATERM", 2001. P.15.

Claims (2)

1. A convector comprising a casing in which a tubular heater is located, having a supply section and a discharge section of a bent pipe, on which heat exchange elements of the heater are fixed, a thermostatic valve located in the housing, the working cavity of which is connected hydraulically with and in and out of the pipe sections the specified valve is located, a removable adjusting head associated with the valve and located in the opening of the casing, while the body of the thermostatic valve is connected to the inlet and outlet sections of the pipe, and the casing includes a front wall, side walls and an upper wall, characterized in that the valve body is located in the corner zone of the casing, formed by its front and side walls between the longitudinal axis of the casing in the projection on a horizontal plane and the front wall of the casing, the axis of the working cavity the body of the thermostatic valve is located along or across the longitudinal axis of the casing, the adjustment head is located in the recess of the wall, which is made around the hole, the recess and the hole are made in the side and and in the front wall of the casing, the body of the thermostatic valve is made of steel and is rigidly connected by welding to parts of the inlet pipe section or to the inlet pipe section and the outlet pipe section in such a way that it forms a single integral pipe structure made of at least two parts of the inlet pipe section and the outlet pipe section or from the inlet and outlet pipe sections interconnected by a body of thermostatic valve. 2. The convector according to claim 1, characterized in that the recess around the hole in the side or front wall of the casing is formed by a flange of the corresponding wall closed along the perimeter, directed inside the casing, the hole being made on the flanging edge and located inside the casing.

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