RU2539940C1 - Thermostatic valve, in particular radiator valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: radiator valve contains valve body, input hole, output hole, valve seat between the input and output holes, valve element connected with rod. The specified valve element is made with possibility of movement to and from the specified valve seat. The specified valve contains a connecting geometrical element to connect the bellows element and valve body. The specified bellows element is made with possibility of activation of the specified rod. The valve seat is made in form of a insert part located between the input and output holes. At that the specified insert and specified rod are made with possibility if installation in the specified valve body from the same side.

EFFECT: increased reliability and efficiency of valve.

15 cl, 5 dwg

Description

The present invention relates to a thermostatic valve, in particular to a radiator valve comprising a valve body having an inlet, an outlet, a valve seat located between said inlet and said outlet, a valve element connected to a rod, said valve element being the ability to move to the specified valve seat and from the specified valve seat, as well as a connecting geometric element for connecting the bellows element and the specified valve body, and the specified bellows element is configured to actuate the specified rod.

Such a thermostatic valve is known, for example, from document WO 92/20945 A1.

This valve is a mass product. However, some parts of the valve must be precision machined so that the valve can control the flow of fluid. This is the reason for the high cost of producing such a valve.

An object of the present invention is to provide a valve that can be produced at low cost.

This problem is solved by means of the thermostatic valve described above, in which said valve seat is part of an insert located between said inlet and said outlet, said insert and said shaft being made to be inserted into said valve body from the same side.

Since the valve seat is part of the insert, it is no longer necessary to process the valve body to form the valve seat. The valve seat can be manufactured separately from the housing, which greatly facilitates the formation of the valve seat and, therefore, reduces the cost of its manufacture. Since the insert and the stem are adapted to be inserted into the valve body from the same side, the use of the insert does not complicate the assembly of the valve itself. In any case, a valve insert is required to assemble the valve. Before inserting the rod, it is only necessary to perform one small additional step, namely, insert the insert into the housing.

The specified connecting geometric element is preferably located on the specified side. The advantage of this arrangement is that it is possible to maintain the position of the housing relative to the processing tools when preparing the installation of the bellows element.

Said insert preferably comprises a section protruding from said valve body on the opposite side of said connecting geometry. Such a protruding section is intended to verify that the insert is correctly placed in the housing. If the section is not visible enough or shows an offset, the valve can be reassembled or rejected.

The specified section preferably contains a geometric element that transmits torque. Such a torque transmitting geometric element is designed to rotate the insert in the housing. A particular advantage of this design is manifested when the insert is used for pre-installation. In this case, the insert contains an inlet channel having an opening that overlaps the inlet of the valve body. By turning the insert inside the housing, the overlap area between the inlet and the inlet is thereby changed. The rotation of the insert in the housing is not limited. In other words, the insert can be rotated 360 ° or more.

The opening spring is preferably located inside said insert, said opening spring being configured to act on said shaft in the direction from said valve seat. In most radiator valves controlled by a bellows element, an opening spring is provided to move the valve element away from said valve seat if the bellows element does not act on the shaft in the opposite direction. If the opening spring is located in the insert, it can be inserted into the valve body on the same side as the insert with the stem. There is no need for additional holding means for the opening spring. There is no need for extra space for the opening spring. This simplifies the design.

In a preferred embodiment of the invention, said insert comprises a guide section, wherein said guide section is configured to guide said rod or part connected to said rod. Such a guide section, a guide rod, or a part connected to the rod, is an advantage for a valve controlling a sufficiently large fluid flow. In this case, the rod can be supported in two positions. One position is the guide section. Another position is provided at a certain distance from said guide section, that is, on the other side of the valve member. In this case, even an even greater fluid flow is not able to displace the rod in a direction perpendicular to the direction of its movement, and thus, the correct position of the valve element relative to the valve seat can be maintained with sufficiently high accuracy.

According to a preferred embodiment of the invention, said valve body comprises a cylindrical bore hole, wherein said insert is adapted to be positioned inside said bore hole, said inlet hole opens into said bore hole in a first position, said outlet hole opens into said bore hole in a second position, wherein said first position is offset from said second position in a direction parallel to m the direction of movement of said rod, wherein said insert comprises a first sealing means forming a sealing element between said first position and said second position. The insert is intended not only to provide a valve seat, but also to provide a sealing element between an inlet and an outlet. However, such a sealing element can be realized by fairly simple means, for example, by means of an O-ring.

Said insert is preferably fixed inside said valve body by means of retaining means acting on said insert from said side. The advantage of this arrangement is that there is no need for pairing between the valve body and the insert. Both the insert and the valve body can have a fairly simple geometry. The insert is fixed in the housing by means of a holding means. This holding means can be used to guide the rod during its movement.

The specified holding means preferably contains a second sealing means, creating a seal on the specified rod. The holding means comprises a bore hole configured to guide the rod through it. This bore hole is sealed by a second sealing means.

According to a preferred embodiment of the invention, said sealing element is located in the holder of the sealing element, which makes it possible to position the sealing element with sufficiently high accuracy.

On the outside of the specified holder of the sealing element is preferably located another holder of the sealing element, made with the possibility of access to it from the specified external side. An advantage of this embodiment of the invention is that the sealing element in yet another holder of the sealing element can be replaced if necessary.

According to a preferred embodiment of the invention, said holding means is fixed to said valve body by means of a bellows element holder. The bellows element is configured to be fixed to the holder of the bellows element. Since the bellows element must be connected to the valve body by means of a sufficiently stable connection, this connection can also be used to maintain the insert and retaining means inside the valve body.

A sealing ring is preferably located between said holding means and said holder of the bellows element. This sealing ring may form the second sealing means mentioned above.

According to a preferred embodiment of the invention, said rod comprises a stopper, said stopper being capable of abutting in a fully open state of said valve against said holding means and with the possibility of sealing a hole in said holding means configured to pass through said opening of said rod. If it is necessary to replace the sealing ring, this stopper seals the bored hole or hole in the holding means, thereby reducing the likelihood of leakage. The sealing agent can be replaced, for example, without emptying the heating system.

According to a preferred embodiment of the invention, at least one part is made of plastic material, said part being selected from the group consisting of said insert, said holding means, said holder of the sealing element and said rod. Part of the plastic material can be made at low cost and with fairly high accuracy. As a result, valve manufacturing costs can be kept low.

Preferred examples of the invention are described below in more detail with reference to the accompanying drawings, in which:

figure 1 schematically shows a section of a thermostatic valve made in accordance with the first embodiment of the invention;

figure 2 shows a perspective view of the assembled parts intended for the manufacture of the valve shown in figure 1;

figure 3 shows a cross section of a valve made according to the second variant of the invention;

figure 4 shows a cross section of a valve made according to the third variant of the invention;

figure 5 shows a cross section of a valve made according to the fourth variant of the invention.

Figure 1 shows a view in section of a thermostatic valve, which in this embodiment of the invention is a radiator valve. The valve 1 comprises a valve body 2 having an inlet 3 and an outlet 4. In addition, the valve body contains a cylindrical bore 5. An insert 6 is inserted into the bore 5 of the valve body 2, which abuts against a ledge 7 formed on the lower end of the bore 5.

The insert 6 contains a section 8 protruding from the valve body 2. This section 8 contains a geometrical element transmitting a torque, for example a polygon, forming a tool application surface in such a way that the insert 6 can be rotated inside the valve body 2.

On the opposite side, the insert 6 forms a valve seat 10. The valve seat 10 surrounds the opening of the channel 11, and the specified channel 11 runs parallel to the bored hole 5.

Channel 11 includes an inlet 12 connected to the annular channel 13 surrounding the wall 14 of said insert 6, which is located around the channel 11. The inlet 3 of the valve body 2 is connected to the annular channel 13 through an opening 15 located in the first position.

In addition, the outlet 4 of the valve body 2 is connected to the bored hole 5 by means of an opening 16 located in the second position. The first position and the second position, that is, two holes 15, 16 are offset relative to each other in a direction parallel to the middle axis of the bored hole 5.

The fluid leaving the channel 11 and flowing through the valve seat 10 enters the open annular channel 17, surrounded by an additional circumferential wall 18 of the insert. The circumferential wall 18 of the insert contains an opening 19 adapted to be brought into an overlapping position relative to the opening 16, connecting the bored hole 5 with the outlet 4.

The wall 18 contains on its radial outer side a groove 20. This groove 20 forms, together with the wall of the bore hole 5, a channel having a variable cross section. By turning the insert 6 inside the valve body 2, the flow resistance through the valve 1 can be changed. The insert 6 can be used as a preset means.

The insert 6 is fixed in the valve body 2 by means of the holding means 21. The holding means 21 comprises a central bore hole 22 configured to pass through the rod 23. At its lower end, the rod 23 contains a valve element 24, interacting with the valve seat 10.

The rod 23 includes a stopper 25. If the valve element 24 has a maximum distance from the valve seat 10, the stopper 25 rests on the inside of the holding means 21. In this position, the stopper 25 seals the bored hole 22 of the holding means 21 so that the outside of the valve does not leaks occur, or only a small leak occurs.

On the outside of the holding means 21, there is a sealing ring 26 surrounding the shaft 23. The sealing ring 26 is held by the holder 27 of the bellows element. The bellows element holder 27 is threadedly screwed into the valve body 2 while holding the holding means 21. However, other connections, such as a snap-in connection, are possible. The sealing ring 26 is slightly compressed between the holding means 23 and the holder 27 of the bellows element.

The bellows element 28, containing the filler 29, is located inside the rotary handle 30. The rotary handle 30 is screwed into the holder 27 of the bellows element. However, any other connecting means may be used.

The bellows element 28 comprises a corrugated membrane 31, which contracts as the filler 29 expands. The filler 29 expands with increasing temperature.

An auxiliary element 32 is located inside the corrugated membrane 31. The auxiliary element 32 acts on the valve stem 23. Auxiliary element 32 can be used to adapt the bellows element 28 to different lengths of the rods 23.

A sealing ring 33 is located between the insert 6 and the wall of the bore hole 5, sealing the holes 15, 16 from each other.

Near the step 7 is another sealing ring 34. Between the holding means 21 and the valve body 2 there is another sealing ring 35, preventing leakage from the valve body 2 in the area of the holder 27 of the bellows element.

In the channel 11, an opening spring 36 is arranged to act on the shaft 23 in the opening direction, that is, the valve element 24 moves until the force created by the bellows element 29 exceeds the force created by the opening spring 36.

Figure 2 in an exploded view shows a perspective view of the majority of the details of the valve 1 described in connection with figure 1. Obviously, all the details can be inserted into the housing 2 or mounted on the housing 2 from the same side. This greatly facilitates the assembly of valve 1.

An insert 6 containing sealing rings 33, 34 is inserted into the valve body 2 to a position where the section 8 protrudes from the valve body 2, and in which the position of the insert 6 inside the valve body 2 can be checked. Further, an opening spring 36, a valve stem 23, a holding means 21 with a sealing ring 35 and a sealing ring 26 can be installed. Finally, a holder 27 of the bellows element is screwed into the valve body 2 by screw, after which the assembly of the valve 1 is almost completed. The bellows element 28 and the rotary handle 30 can be installed at this stage or at a later stage.

FIG. 3 is a sectional view of a valve 1 according to a second embodiment of the invention. Identical elements are denoted by the same reference numbers as in FIGS. 1 and 2.

The main difference between the valves shown in FIG. 3 and FIG. 1 is that the valve seat 10 and valve element 24 shown in FIG. 3 have a larger diameter, so valve 1 can control a larger flow than the valve shown in figure 1.

The insert 6 contains a guide section 37. The guide section 37 is made in the form of a continuation of the channel 11. However, the guide section 37 has a diameter that is less than the diameter of the channel 11.

The valve stem 23 comprises a guided portion 38 which is guided in the guiding section 37.

Obviously, the rod 23 is guided in two positions that are separated from each other. One end of the rod 23, that is, the guided portion 38, is guided in the guide section 37. The second direction of the rod 23 is made by a bore hole 22 in the holding means 21. Thus, the rod 23 cannot be offset perpendicular to the direction of movement in which the bellows element 28 acts to the rod 23.

The two valves shown in FIGS. 1 and 3 have integrated overpressure protection. Such protection is necessary if the valve is completely closed, that is, the valve element 24 is in contact with the valve seat 10. If in this situation the volume of the filler 29 increases even more due to an increase in ambient temperature, then the valve element 24 is pushed into the channel 11. The valve element 24 contains an O-ring as a sealing agent. This O-ring is compressed in the radial direction, maintaining pressure contact with the circumferential restriction of the channel 11. The channel 11 has a cylindrical shape, that is, its circumferential wall runs parallel to the direction of movement of the valve element 24 so that it is possible to move the valve element, which requires only slight radial compression of the O-ring of the valve element 24.

4 is a cross-sectional view of a valve according to a third embodiment of the invention. The same parts are indicated by the same reference numbers as in FIGS. 1-3.

In the embodiment of the invention shown in FIG. 4, the structure of the valve seat 11 is more like a conventional structure. The valve element 24 comprises a plate containing an elastic ring 39, wherein the elastic ring 39 can be brought into contact with the valve seat 10 to close the valve. The rod 23 is connected to the guided part 38, which is guided in the guide section 37 of the insert 6.

The holding means 21 is fixed in the valve body 2 by means of the holder 27 of the bellows element. The holder 40 of the sealing element is screwed into the holding means 21 by a thread. The holder 40 of the sealing element contains a sealing ring 26, a sealing rod 23, preventing leakage into the external environment.

If the rotary handle 30 and the bellows element 28 are removed from the bellows element holder 27, the sealing element holder 40 is accessible from the outside so that the sealing ring 26 can be replaced if necessary. During such a replacement, the stopper 25 abuts the holding means 21, sealing the inside of the valve from the external environment.

FIG. 5 is a cross-sectional view of a thermostatic valve according to a fourth embodiment of the invention, the valve being very similar to the valve shown in FIG. 4. The main difference is that on the outside of the holder 40 of the sealing element is another holder 41 of the sealing element containing another sealing ring 42, and the specified sealing ring 42 provides a sealing rod 23. Another holder 42 of the sealing element contains the surface 43 of the application for the tool in such a way that another holder 41 of the sealing element can be screwed out of the holding means 21, if it is necessary to replace another etiziruyuschego ring 42.

The insert 6 may be made of plastic material, for example, by injection molding. The holding means 21 may also be made of plastic material. This also applies to the rod 23 and to the holder 27 of the bellows element. Two holders 40, 41 of the sealing element can also be made of plastic material. All these parts or components can be produced by injection molding with high accuracy.

Claims (15)

1. Thermostatic valve (1), in particular a radiator valve, comprising a valve body (2) having an inlet (3), an outlet (4), a valve seat (10) located between said inlet (3) and said outlet a hole (4), a valve element (24) connected to the rod (23), said valve element (24) being movable to said valve seat (10) and away from said valve seat (10), as well as a connecting geometric element for connecting the bellows element (28) and the specified a valve body (2), said bellows element (28) being capable of actuating said shaft (23), characterized in that said valve seat (10) is part of an insert (6) located between said inlet (3) and said outlet (4), wherein said insert (6) and said rod (23) are configured to be inserted into said valve body (2) on the same side. 2. The valve according to claim 1, characterized in that the said connecting geometric element is located on the specified side. 3. The valve according to claim 2, characterized in that said insert (6) comprises a section (8) protruding from said valve body (2) on the opposite side of said connecting geometric element. 4. The valve according to claim 3, characterized in that said section (8) contains a geometric element (9) that transmits torque. 5. A valve according to any one of claims 1 to 4, characterized in that the opening spring (36) is located inside said insert (6), said opening spring (36) being configured to act on said shaft (23) in a direction from said valve seat (10). 6. A valve according to any one of claims 1 to 4, characterized in that said insert (6) comprises a guide section (37), said guide section (37) being configured to direct said rod (23) or part (38), connected to the specified rod (23). 7. The valve according to any one of claims 1 to 4, characterized in that said valve body (2) comprises a cylindrical bore hole (5), said insert (6) being capable of positioning inside said bored hole (5), said inlet the hole (3) opens into the specified bore hole (5) in the first position, the specified outlet (4) opens into the specified bore hole (5) in the second position, while the specified first position is offset relative to the specified second position in the direction parallel to the direction of movement of said rod (23), said insert (6) comprising a first sealing means (33) forming a sealing element between said first position and said second position. 8. The valve according to claim 1, characterized in that said insert (6) is fixed inside said valve body (2) by means of holding means (21) acting on said insert (6) from said side. 9. A valve according to claim 8, characterized in that said holding means (21) comprises a second sealing means (26), which creates a seal on said rod (23). 10. The valve according to claim 9, characterized in that said second sealing element (26) is located in the holder (40) of the sealing element. 11. The valve of claim 10, characterized in that on the outside of the specified holder (40) of the sealing element is another holder (41) of the sealing element, made with access to it from the specified outside. 12. A valve according to any one of claims 8 to 11, characterized in that said holding means (21) is fixed to said valve body (2) by means of a holder (27) of a bellows element. 13. The valve according to claim 12, characterized in that between the specified holding means (21) and the specified holder (27) of the bellows element there is a sealing ring (26). 14. A valve according to any one of claims 8 to 11 or 13, characterized in that said shaft (23) comprises a stopper (25), said stopper (25) being able to abut said valve in a fully open state against said holding means ( 21) and with the possibility of sealing the hole (22) in the specified holding means (21), made with the possibility of passing through the specified hole of the specified rod. 15. Valve according to any one of claims 1 to 4, 8-11 or 13, characterized in that at least one part is made of plastic material, said part being selected from the group comprising said insert (13), said holding means ( 21), the specified holder (40) of the sealing element and the specified rod (23).

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