RU62501U1 - Heated towel rail and air vent - Google Patents

Abstract

A group of utility models relates to plumbing equipment and can be used in residential premises for drying clothes.

The heated towel rail contains a housing made in the form of two pipes placed in parallel, interconnected by means of straight or curved tubular elements, and an air exhaust element made in the form of a housing having an external threaded surface and installed using a threaded connection in the sleeve. The height of the external threaded surface of the body of the element for air exhaust is selected from a range from 3 to 20 mm, while the outer diameter of the threaded surface is selected from a range from 16 to 26.5 mm. The sleeve is made of stainless steel and combined with the inner surface of the pipe over the entire area of its side surface. The body of the heated towel rail is equipped with two collectors placed in a plane located at an angle to the plane of two parallel pipes, and interconnected by tubular inserts.

The air exhaust element is made in the form of a housing having an external threaded surface. The height of the external threaded surface of the body of the element for air exhaust is selected from a range from 3 to 20 mm, while the outer diameter of the threaded surface is selected from a range from 16 to 26.5 mm.

A group of utility models is aimed at achieving a technical result consisting in increasing the area of the heat-transfer surface for drying clothes, reducing the cost of manufacturing a heated towel rail by reducing the number of parts and their unification, increasing the reliability, strength and durability of heated towel rails, facilitating installation and dismantling. 2. n.p. crystals, 1 tab., 8 fig.

Description

A group of utility models relates to plumbing equipment and can be used in residential premises for drying clothes.

Various types of towel warmers are currently known.

From the patent of the Russian Federation RU 2170540 (IPC A 47 K 10/06, publ. 07/20/2001), a heated towel rail is known that includes a body including two pipes placed in parallel, interconnected by means of tubular elements.

In the known heated towel rail, the space between the tubular elements is blocked by a flat surface of the body, which significantly limits the surface for accommodating laundry.

In addition, the design of the known heated towel rail does not provide a means for venting air, which creates the likelihood of air congestion and its failure.

From the patent of the Russian Federation RU 36075 U1 (IPC A 47 K 10/06, publ. 02.27.2004), a heated towel rail is known that includes a body made in the form of two pipes placed in parallel, connected by direct tubular elements, and an air exhaust element.

A disadvantage of the known heated towel rail is the complexity of manufacturing associated with the need to install an internal U-shaped tube.

The closest analogue of the claimed heated towel rail is the heated towel rail described in the patent of the Russian Federation RU 53872 U1 (IPC A 47 K 10/06, publ. 10.06.2006), comprising a housing made in the form of two pipes placed in parallel, interconnected by straight or curved tubular elements, and an element for venting air, made in the form of a housing having an external threaded surface, and installed using a threaded connection in the sleeve.

In the known technical solution, the bushings are installed in the cavity of the pipe and have a significant wall thickness compared with the diameter of the pipe channel. Therefore, in the places of their installation, the bore of the pipe channel is substantially narrowed, and protrusions are formed in it by the surface of the bushings. As you know, the protrusions and sharp fluctuations in the area of the bore of the pipe channel

the cause of the formation of turbulent flows, which can lead to dynamic shock and entail the destruction of the heated towel rail.

Various elements for venting are also known.

From the patent of the Russian Federation RU 2148199 C 1 (IPC F 16 K 24/00, publ. 04/27/2000) there is known an element for air exhaust, made in the form of a housing having an external threaded surface.

From the patent of the Russian Federation RU 2154229 C1 (IPC F 16 K 24/00, publ. 04/27/2000) also known element for air exhaust, made in the form of a housing having an external threaded surface.

A disadvantage of the known elements for air exhaust is their complex design and significant dimensions, which do not allow their use in the design of heated towel rails.

The closest analogue of the claimed element for venting is an element for venting described in the above patent RF RU 53872 U1.

A disadvantage of the known element for air exhaust is that its diameter is selected so that to install it in a pipe of standard diameter requires the use of a thick-walled sleeve difficult to manufacture.

In addition, the sleeve is fixed in the pipe so that its upper part together with the upper end of the air exhaust element is located outside the pipe cavity and is closed by a cap. In this case, only a small part of the outer side surface of the sleeve is connected to the pipe. This design is due to the need to install a towel rail holder.

The known design cannot provide the necessary strength of the connection between the sleeve and the towel rail due to the small surface area of their connection. Another disadvantage of the known heated towel rail is the need to include in the design of additional parts, in particular, the second sleeve and cap, which increases the cost of the product.

A group of utility models is aimed at achieving a technical result consisting in increasing the area of the heat-transfer surface for drying clothes, reducing the cost of manufacturing a heated towel rail by reducing the number of parts and their unification, increasing the reliability, strength and durability of heated towel rails, facilitating installation and dismantling.

The specified technical result is achieved when using a heated towel rail, comprising a housing made in the form of two pipes placed in parallel, interconnected by straight or curved tubular elements, and an air exhaust element made in the form of a housing having an external threaded surface, and installed using a threaded connection in the sleeve.

According to this utility model, the height of the external threaded surface of the body of the element for air exhaust is selected from a range of 3 to 20 mm, while the external diameter of the threaded surface is selected from a range of 16 to 26, 5 mm, the sleeve is made of stainless steel and aligned with the inner surface of the pipe over the entire area of its lateral surface, while the heated towel rail body is equipped with two collectors placed in a plane located at an angle to the plane of two parallel pipes, and connected by a pipe tymi inserts.

The above technical result is also ensured by using an air exhaust element made in the form of a housing having an external threaded surface.

According to the present utility model, the height of the external threaded surface of the body of the element for air exhaust is selected from a range of 3 to 20 mm, while the external diameter of the threaded surface is selected from a range of 16 to 26.5 mm.

Next, a group of utility models is illustrated with specific implementation examples and proposed drawings, which depict the following.

Figure 1 is a front view of the heated towel rail.

Figure 2 is a side view.

Figure 3 is a top view.

Figure 4 is a partial frontal section of a heated towel rail with an element for venting air.

Figure 5 is a partial top view of a heated towel rail.

Figure 6 is a vertical section of an element for venting air.

7 is a top view of an element for venting air.

On Fig is a partial frontal section of a heated towel rail with an element for venting in the second embodiment of the utility model.

The heated towel rail shown in FIG. 1 comprises a housing made in the form of two pipes placed in parallel (1), interconnected by means of tubular elements (2).

In the considered embodiment of the utility model, the tubular elements (2) are made curved in the shape of an arc. In other embodiments of the utility model, the tubular elements may be straight or curved with straight sections angled to each other.

Each pipe (1) is equipped with a telescopic holder (3). At the upper ends of the pipes (1) in the area of the holders (3), there are elements for venting air (4) (see Figs. 3, 4), each of which is made in the form of a body (5) having an external threaded surface (6) ( see Fig.6).

The air exhaust element (4) is installed with a threaded connection in the sleeve (7). An axial hole (8) is made in the housing (5) of the air exhaust element (4), in which a locking screw (9) is installed (see Figs. 4, 6, 7).

In the considered embodiment of the utility model, the housing (5) of the air exhaust element (4) has an upper part (10) located above the external threaded surface (6). The upper part (10) of the housing (5) of the air exhaust element (4) is located outside the pipe cavity (1) and is made with an annular recess on the side surface, which serves to install a rotary ring (11) intended for mounting the telescopic holder (3) ( see figure 4).

In the considered embodiment of the air exhaust element (4), the height H of the external threaded surface (6) of its body (5) is selected to be 7.5 mm, i.e. is in the range from 3 to 20 mm according to the formula of the utility model (see Fig. 4, 6).

The outer diameter D of the threaded surface (6) is selected equal to 26.4, i.e. within the range from 16 to 26.5 mm, according to the formula of the utility model (see Fig.6).

The sleeve (7) is combined with the inner surface of the pipe (1) over the entire area of its side surface and is made of stainless steel AIS304 (08X18H10) DIN 17457, TIG welding.

In other embodiments of the utility model, it is possible to provide a heated towel rail with one element for venting, mounted on the upper end of only one of the pipes. At the same time, a plug is installed on the upper end of the other pipe, made in the form of a housing, which in shape and size fully corresponds to the housing of the element for air exhaust. Its only difference is the lack of a hole for installing the locking screw.

The heated towel rail body is equipped with two collectors (12) (see Figs. 1-3) located in a plane located at an angle α equal to 90 ° to the plane of two parallel pipes (1) and interconnected by tubular inserts (13) (see Fig. 2, 3).

In other embodiments of the utility model, the angle α may vary from 20 ° to 90 °.

On Fig shows a partial frontal section of a heated towel rail with an element for venting in the second embodiment of the utility model.

In the considered embodiment, the external threaded surface (15) is formed over the entire area of the side surface of the housing (14) of the air exhaust element.

In the considered embodiment of the air exhaust element, the height H of the external threaded surface (15) of its body (14) is chosen equal to 20 mm, i.e. is in the range from 3 to 20 mm according to the formula of the utility model.

The outer diameter D of the threaded surface (6) is selected equal to 26.4, i.e. within the range of 16 to 26.5 mm, according to the formula of the utility model.

Assembling a heated towel rail is as follows.

By welding, the pipes (1) are connected to the tubular elements (2) and then to the collectors (12) previously welded with the tubular inserts (13). Using argon welding, a sleeve (7) is installed in the cavity of one of the pipes (1), into which an element for air exhaust (4) is then screwed into the axial hole (8) of which the locking screw (9) is pre-installed.

On the upper part (10) of the housing (5) of the air exhaust element (4) located outside the pipe cavity (1), a rotary ring (11) is installed in the annular recess in which the telescopic holder (3) is mounted.

When assembling a heated towel rail with an air exhaust element in the second embodiment of the utility model, the telescopic holder is attached directly to the pipe using a threaded sleeve (not shown in the drawing).

Next, the telescopic holder (3) is connected to the second pipe (1), the free ends of the telescopic holders are attached to the wall and the heated towel rail is connected to the water heating system or hot water supply (not shown in the drawings). Then, by unscrewing the locking screw (9), air is let out of the cavity of the heated towel rail body through the axial hole (8).

To test the strength and reliability of the design of the heated towel rail, made according to this utility model, an experiment was carried out using elements for air exhaust with different heights of the external threaded surface. Water was supplied to the heated towel rail under a pressure of 50 bar for 72 hours. At the same time, the tightness of the heated towel rail in the area of the air exhaust element was monitored.

During the experiment, it was found that the likelihood of leaks is completely eliminated when performing an element for venting with an external threaded surface height of more than 3 mm.

When using elements for air exhaust with an external threaded surface height of less than 3 mm, thread damage was observed under the influence of fluid pressure, which entailed leaks.

Moreover, in order to save material and ensure compact dimensions, the height of the external threaded surface is selected no more than 20 mm.

In the manufacture of an element for exhaust air with an external diameter of the threaded surface, selected from a range of 16 to 26.5 mm, the most smooth change in the area of the bore of the pipe in the area of the connection between the sleeve and the element for exhaust is ensured, which prevents the possibility of turbulent flows when feeding water into the cavity of the heated towel rail, and as a result, the occurrence of a dynamic shock, which can lead to the destruction of the heated towel rail.

When performing an element for air exhaust with an external diameter of the threaded surface of less than 16 mm, the wall thickness of the sleeve increases, and its lower end surface significantly overlaps the inner diameter of the pipe. Moreover, in the region of the indicated surface, conditions are created for the formation of turbulent flows.

In the manufacture of an air exhaust element with an external diameter of the threaded surface of more than 26.5 mm, it is necessary to produce a sleeve with a small wall thickness, which does not provide the necessary structural strength and is more expensive.

The implementation of the stainless steel sleeve allows you to provide the necessary structural strength due to the prevention of corrosion.

Combining the entire area of the side surface of the sleeve allows you to increase the surface area of the coupling of the sleeve and pipe and thereby increase the reliability

designs. In addition, this design eliminates the need to use additional elements when creating the end surface of the pipe in the vicinity of the mounting of the telescopic holder.

The implementation of the heated towel rail body from two pipes interconnected by means of straight or curved tubular elements, as well as the provision of the heated towel rail body with two collectors placed in a plane located at an angle to the plane of two parallel pipes and interconnected by tubular inserts, makes it possible to increase the area heat transfer surface for drying clothes.

The implementation of the element for air exhaust in the form of a housing without the use of additional devices allows to ensure its compactness and ease of installation and dismantling.

The installation of a patented element for air exhaust using a threaded connection in a sleeve combined with the inner surface of the pipe over the entire area of its side surface allows it to simultaneously perform the function of plugging the end of the pipe without the use of additional elements.

A comparison of the cost of manufacturing a prototype and a patented heated towel rail (see Table 1) showed that in the manufacture of a patented heated towel rail provides a reduction in its cost compared to the prototype.

Table 1 Heated towel rail and air vent Comparison of the cost of manufacturing the prototype and the claimed heated towel rail The cost of the prototype Rub. The cost of manufacturing patentable heated towel rail Rub. Cap Air vent element material costs 10.00 manufacture and material 56.00 lathe cutting 3.00 polishing 3.00 stainless steel nickel 5.00 Swivel ring pintle welding 7.00 manufacture and material 8.00 hole drilling 5.00 Sleeve polishing 3.00 manufacture and material 12.00 chamfering on a lathe 3.00 pipe welding 7.00 Sleeve manufacture and material 40.00 pipe welding 7.00 trimming and chamfering 5.00 Air vent element 12.00 Total 100.00 86,00 r

Claims (2)

1. Towel dryer, comprising a housing made in the form of two parallel placed pipes interconnected by straight or curved tubular elements, and an air exhaust element made in the form of a housing having an external threaded surface, and installed using a threaded connection in the sleeve, characterized in that the height of the external threaded surface of the housing of the element for air exhaust is selected from a range from 3 to 20 mm, while the outer diameter of the threaded surface is selected from a range from 16 to 26.5 mm, ulka made of stainless steel and is aligned with the inner surface of the pipe over the entire area of its lateral surface, said housing is provided with a towel warmer two manifolds arranged in a plane, bred at an angle to the plane of two parallel tubes placed and interconnected by tubular inserts. 2. The element for air exhaust, made in the form of a housing having an external threaded surface, characterized in that the height of the external threaded surface of the housing of the element for air exhaust is selected from a range of 3 to 20 mm, while the outer diameter of the threaded surface is selected from a range of 16 up to 26.5 mm.