CZ14110U1 - Connecting part of a thermostatic valve - Google Patents

Abstract

In a radiator hot water enters a lower installation assembly (B) through a right hand spherical connector (10) and passes along a pipe (2) to an upper installation assembly (A). The water passes from the pipe (2) through a valve box and distributor (5) for a thermostatic valve (13) into the upper part of the panel radiator (1). The hot water then passes through the panel radiator (1) to a valve housing assembly (9) at the lower left hand side of the panel radiator and into a return pipe (3). The return water passes through the return pipe (3) to a left hand spherical connection (10) and thence into a conventional return pipe to the overall central heating system.

Description

Thermostatic valve connection piece

Qblast techniques

The technical solution deals with the connection part of the centrally connectable thermostatic valve, which forms the connection of the connection to the plate radiator from the bottom and the center of the radiator. This connection allows hot water to enter the panel radiator and to circulate it in the panel radiator. The connecting part is designed especially for central connection to a panel radiator, which enables easy assembly from left and right, it consists of two parts, the lower group and the upper group. Due to the necessity of adapting the hot water pipe to different lengths of the modular structure, the assembly can be welded to simplify storage and transport, thereby minimizing the cost of storage.

By replacing the two-pipe version with the one-pipe version when installing the bottom group, additional savings in material costs are achieved.

Since the pipe passages are spherical and are bent at a radius, a smooth flow is obtained.

BACKGROUND OF THE INVENTION

Due to the manufacturing method and the possibilities of the combinations, the parts used to connect the water inlet and return while ensuring the circulation of hot water in the radiators by means of the combined pipes cause low productivity of the units during production. Whereas, since two separate pipes are used for the inlet and outlet of the lower installation group, no excess material is used. Because of these reasons, installation costs are high.

In addition, storage costs are increased due to the installation of valves of various sizes required for panel radiators of a particular height and length.

The essence of the technical solution

The essence of the technical solution is a thermostatic valve connection part comprising an inlet connected to a plate radiator from below in the middle for supplying and circulating hot water to the radiator, which comprises a lower installation group and an upper installation group with spherical segments connected at least by an internal VCP connection tube and optionally the HCP inner connection tube and, depending on the length of the panel radiator, modular inner connection tubes connected to the VCP inner connection tube and HCP inner connection tube to extend them to the required length.

Advantageously, the upper installation group at the end of the inner connecting pipe VCP is provided with a valve seat of the thermostatic valve and the sealing is performed by an outer O-ring.

It is also advantageous if the upper installation group at the end of the inner connecting pipe VCP is provided with a valve seat of the thermostatic valve, wherein the valve seat at the top presses against the rubber plug and thereby performs a sealing.

According to a further preferred embodiment of the connection part, the upper installation group at the end of the inner connecting pipe VCP is provided with a valve seat of the thermostatic valve, the sealing being performed by an inner O-ring.

According to another preferred embodiment of the connection piece, the valve seat is welded to the winding part 40, wherein a ring is formed at the end of the inner connecting tube VCP, which is welded to the insertion part.

According to yet another preferred embodiment of the thermostatic valve connection piece, the inner connecting tube VCP is formed into a ring which is connected to the valve housing by welding.

-1 CZ 14110 Ul

According to a further preferred embodiment of the thermostatic valve connection piece, the inner connecting pipe VCP is formed into a ring which is connected to the valve seat by welding.

It is also advantageous to provide a thermostatic valve connection piece in which the inner connecting pipe VCP and the inner connecting pipe HCP are connected to the modular connecting pipes by welding.

According to a further preferred embodiment of the thermostatic valve connection piece, the inner connecting pipe VCP is arranged on a support provided on the plate radiator.

BRIEF DESCRIPTION OF THE DRAWINGS

Giant. 1 shows a cross-section of an embodiment of a version with a plate radiator with a connecting piece with two internal connecting pipes.

Giant. 2 shows a connection piece with two inner connecting tubes.

Giant. 3 is a cross-sectional view of a version with a plate radiator with a connection piece with a simple internal connection tube.

Giant. 4 shows a connection piece with a simple inner connection tube.

Examples of technical solution

Fig. 1 shows a plate radiator with two inner interconnecting tubes VCP 2 and HCP 3. These inner interconnecting tubes VCP 2 and HCP 3 are further illustrated in Fig. 2. This version of the thermostatic valve installation part 13 thus comprises two inner interconnecting tubes VCP 2 and HCP 3, whose position on the radiator 1 is shown in Fig. 1. The radiator 1 includes an inner connection tube VCP 2 for hot water flow to the upper installation part A and an inner connection tube HCP 3 for return cold water from the radiator 1 through the valve group 9 to the lower installation group B. The connection between the upper installation group A and the lower installation group B is thus effected by means of the inner connecting pipe VCP 2 and the inner connecting pipe HCP 3. The modular connecting pipes 12 are connected to the inner connecting pipes VCP 2. and HCP 3 according to the length of the radiator 1 such that j The small spherical segments 10 contained in the lower installation group B ensure a smooth flow of the incoming hot water and the exiting cold water. Since there is no turbulence throughout the process, there is no noise from the panel radiator 1. The upper installation group A further comprises an inlet portion 6, a valve housing 5 and a valve seat 7 of the thermostatic valve 13. The ball segments 10 of the lower installation group B are provided with sleeves 11 for connection to the supply and return branches of the heating system.

Fig. 3 shows a plate radiator 1 with a one-pipe installation part for the thermostatic valve 13. This one-pipe installation part is shown in detail in Fig. 4. As mentioned, the position of the one-pipe installation for the thermostatic valve 13 on the plate radiator I is shown in The most important aspect is that the hot water flow from the lower installation group B to the upper installation group A is carried out using the inner connection pipe VCP 2, while the return of the cold water is carried out by the collector K in the lower installation group B. the interconnecting tube VCP 2 and the modular interconnecting tube 12, which varies according to the length of the radiator 1, are joined by a weld 8, thereby obtaining a single unit. When mounting the thermostatic valve 13 on a plate radiator 1, an easy mounting is made by means of a support 14 to prevent the thermostatic valve 13 from slipping. Two different types of this version are described depending on the lower installation group B, or on the right.

Giant. 4 on the left and FIG. 4 on the right, in all versions, the thermostatic valve 11, arranged in the upper installation group A, has at its end a valve seat 7 which is provided in three different ways. These three different methods are shown in Fig. 2 as variants C, D, E. The valve seat 7 is

14110 U1 provided on the valve housing 5 with three different types of welding, which are shown in Fig. 2 j as embodiments F, G, H.

In the case of variant C in Fig. 2, the thermostatic valve 13 has a valve seat 7 at the end of the insertion part and the seal is provided by an outer O-ring. 4

In the case of variant D in Fig. 2, the thermostatic valve 13 operates by pushing the rubber plug in the thermostatic valve 13 onto the top of the valve seat 7 located at the end of the insertion portion.

In the case of variant E in Fig. 2, the thermostatic valve 13 has a valve seat 7 at the end of the insertion part and the sealing is performed by an inner O-ring.

In the case of the embodiment F in Fig. 2, the valve seat 7 and the insertion portion are connected by a weld 4 and the end of the inner connecting tube VCP 2 is formed into a weld-forming ring 8 and subsequently the shaped section with a ring is welded by welding 8 to the insertion portion.

In the case of the embodiment G in Fig. 2, the end of the inner connecting tube VCP 2 is formed into a ring and this is connected to the valve housing 5 by welding.

In the case of the embodiment H in Fig. 2, the end of the inner connecting tube VCP 2 is formed into a breast 15 thinly and connected to the valve seat 7 by welding.

Claims (10)

Thermostatic valve connection piece comprising an inlet with a connection to a plate radiator from below in the middle for supplying and circulating hot water to the radiator, characterized in that it comprises a lower installation group (B) and an upper installation group (A) with spherical 20 ments (10), which are interconnected by an internal VCP interconnecting pipe (2) and, depending on the length of the panel radiator (1), a modular internal interconnecting pipe (12) connected to the internal interconnecting pipe VCP (2) between the upper installation group (A) and the lower installation group (B) to extend it. Thermostatic valve connection part according to claim 1, characterized in that: 25 further comprises an inner cold water return interconnecting tube HCP (3) which connects the spherical segment (10) of the lower installation group (B) to the valve group (9). The end of the inner interconnecting tube VCP (2) is formed thereon by a ring for joining the weld (8) to the insertion part (F). Thermostatic valve connection piece according to claim 1 or 2, characterized in that the upper installation group (A) is provided with a valve seat (7) of the thermostatic valve (13) at the end of the inner connecting pipe (2) of the VCP (2), O 30 - ring. Thermostatic valve connection part according to claim 1 or 2, characterized in that the upper installation group (A) is provided at the end of the inner connecting pipe VCP (2) with a valve seat (7) of the thermostatic valve (13), the valve seat (7). ) at the top is adapted for sealing by pressing the rubber stopper. Thermostatic valve connection piece according to claim 1 or 2, characterized in that the upper installation group (A) is provided with a valve seat (7) of the thermostatic valve (13) at the end of the inner connecting pipe (2) of the VCP (2). inner O - ring. 5 is connected to the valve housing (5) by welding. Thermostatic valve connection part according to any one of claims 3 to 5, characterized in that the valve seat (7) is welded to the insertion portion by the weld (4), Thermostatic valve connection piece according to any one of claims 1 to 5, characterized in that the inner connecting pipe VCP (2) is formed into a ring which is Thermostatic valve connection piece according to any one of claims 1 to 5, characterized in that the inner connecting pipe VCP (2) is formed into a ring which is connected to the valve seat (7) by welding. Thermostatic valve connection piece according to claim 1 or 2, characterized in that the inner connecting pipe VCP (2) and the inner connecting pipe HCP (3) are connected to the modular connecting pipes (12) by welding (8). Thermostatic valve connection piece according to any one of claims 1 to 9, characterized in that the inner connecting pipe VCP (2) is arranged on a support (14) provided on the plate radiator (1).