DE7418564U - Thermostatic valve, in particular radiator valve - Google Patents

Description

Junkers 725 PLl 1-Pu / Vo 28th of May

JUNKERS & CO. GMBH, in Vernau / Neckar

Thermal static valve, in particular radiator valve

The invention relates to a thermostatically controlled Valve of the type listed in the preamble of claim 1.

Radiator valves of this type are usually arranged in a horizontal position on the radiator to ensure good ventilation at the same time designed as a temperature sensor thermostatic working element of the valve by the rising room air au achieve. For the thermal influence of the temperature sensor or the working element, the setting handle in the known Designs radial air passage openings distributed over its outer circumference, through which the room air enters at the bottom of the handle and exits at the top of the same. The generally hood-like or cylindrical adjustment handle is mounted on the working element and also serves at the same time as a protective cap. However, air cushions form in the cavities between the protective cap and the temperature sensor or working element,

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which prevent intensive rinsing around the temperature sensor, and thereby reduce the sensitivity of the thermostatic control valve, but r ^ in particular disadvantage results from this., that about half of the room air flowing through the handle from the lower inlet openings to the upper outlet openings passes the temperature sensor without it at all to touch. Likewise, in the known designs, air slots are provided in the intermediate piece ues working element connection. The air flow entering and exiting at the top should be the same as that emitted by the valve housing in the direction of the temperature sensor Dissipate heat as it falsifies the operation of the temperature sensor. This ventilation is sufficient to the from Heat radiated from the valve housing, but not that via the valve stem and other material parts of the working element Dissipate the amount of heat.

The invention is based on the object of a more intensive flushing of the temperature sensor or the temperature-sensitive area with simple means To achieve working element and the influence of the heat given off by the valve housing effectively to prevent.

This object is achieved according to the invention by the features cited in the characterizing part of claim 1.

This ensures that a larger amount of room air to the Temperature sensor or the working element arrives, because except through the radial air passage openings of the adjustment handle In addition, there is room air through those in the front wall in and out. The influence of the room air on the temperature sensor is significant due to the concentric air ducting ribs in the adjustment handle reinforced. The air guide fins have a double effect. They bring more room air to the temperature sensor,

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because, on the one hand, their design creates a certain chimney effect that sucks in room air, and on the other hand, it becomes entire on the lower outer urea catch half of the handle during buoyancy impinging room air is directed concentrically to the temperature sensor in a collecting effect. The air guide ribs on the outer circumference of the intermediate piece of the working element have the same effect. There will be more room air rising into the tubular The intermediate piece is introduced and its flow rate is also increased, resulting in more intensive cooling of the valve stem and other parts is reached. Such a radiator valve enables sensitive control of the room temperature, their deviations from the set temperature setpoint as a result of intensive exposure to the temperature sensor and the prevented falsification of the regulation by the heat given off by the valve body are only slight.

The feature of claim 2 offers an arrangement of the air passage soff openings in the front wall of the rotary handle, in which the temperature sensor or the working element through the central Part of the front wall is shielded against damage and promotes the flow of room air.

An advantageous arrangement and design of the air guide ribs of the rotary handle offer the features of claims 3 and 4-, which direct the air flow towards the temperature sensor and achieve an intensive exposure to it.

A simple, detachable bracket for attaching the rotary handle to the control attachment of the thermostatic system for setting of the temperature setpoint is designed according to the features of claims 5 to 7.

A particularly good ventilation of the temperature sensor or working element results when the features according to the claims are used 8 and 9

Junkers 725

In the case of valves with an overstroke spring, it is advantageous if this according to the invention between the adjusting pin of the working element and the tappet of the valve is arranged. As a result, the temperature-sensitive working element is free from the twist grip exposed to the air flow passing through, so that a high response sensitivity of the valve is guaranteed.

The overstroke spring can advantageously be positioned between two plastic existing and preferably interlocked flange parts be clamped. This results in a problem-free assembly of the parts and also contributes to the fact that a heat flow impairing the control accuracy from the valve housing to the Work element is largely avoided.

The features of claims 12 to 15 offer an advantageous design and arrangement of the air guide ribs of the intermediate piece, through which an intensive air flow is achieved through the intermediate piece to dissipate the heat given off by the valve housing is.

The thermal shielding of the temperature sensor from the heat-emitting valve housing is provided by the feature of the claim 16 completed, so that the falsification of the temperature control by undesired secondary influences is insignificant per se.

In the drawing, an embodiment of the subject matter of the invention is shown schematically.

Show it:

Fig. 1 is a longitudinal section through a radiator valve,

FIG. 2 shows a cross section along the line II - II in FIG. 1, and

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Pig. 3 is a plan view of the valve according to FIG. 1.

The valve has a housing 10 with an inlet connection 11, an outlet connection 12 and a holding connection 13. On the inlet connection 11 is a pipeline, not shown, for the supply of the heating medium and the outlet connection 12 can be connected to a radiator. A thermostatic system, generally designated by the reference numeral 14, is provided on the holding stub 13 by means of a union nut 15 attached. In the housing 10, a valve seat 16 is formed, to which a closing member 17 is assigned. That Closing member 17 is connected to a plunger 18, which is secured in an insert 19 screwed into the holding connector 13 by means of O-rings is sealed out. The plunger 18 is acted upon by a compression spring 20 in the opening direction, which on a the plunger 18 seated disc 21 engages.

The thermostatic system 14 has a tubular shape as a supporting body Intermediate piece 23, which means of the union nut 15 on Housing 10 is screwed tight and has an intermediate base 24 with a bore 25 through which the plunger 18 protrudes. In the upper end of the intermediate piece 23 is a cylindrical regulating insert 27 screwed in an adjustable manner. The intermediate piece 23 and the control insert 27 are made of heat-insulating material, preferably made of plastic. In the lower part is the intermediate piece 23 with longitudinal slots 26 for ventilation and removal of the heat radiating from the valve housing.

On an inner collar 28 of the regulating insert 27 there is a temperature-sensitive one Working element 29 with an annular shoulder 30. The working element 29 is as a temperature sensor with wax Expansion medium filled. This acts via a sleeve on an adjusting pin 31, which acts as a displacement sensor in the event of temperature fluctuations executes a relative movement with respect to the housing of the working element 29.

Junkers 725

Between the adjusting pin 31 and the plunger 18 is as a force and path-transmitting means, an intermediate member? 2 is provided, which prevents a flow of heat from the plunger 18 to the adjusting pin JI and by zv / ei in operative connection, counter to spring force tüleskop-like Flange parts 33 »34 which can be slid into one another made of plastic is formed. The two flange parts 33 and 34 are through a surrounding them, zv / ischen their outer shoulders 35 »36 as an overtravel spring clamped compression spring 37 held in a limited stretched position. This is achieved when an annular shoulder 38 on the outer circumference of the cylindrical flange part 34 on an inner collar 39 of the hollow cylindrical flange part 33 rests. The two flange parts 33 and 3 ^ can be split apart, so that the assembly the parts with the compression spring 37 takes place quickly and easily. The flange part 34 has a in its end wall cylindrical recess 40 into which the stud pin 31 of the Working element 29 engages. The flange part 33 facing the plunger 18 has an annular shape on the outside of its bottom Approach 41, in which the plunger 18 engages.

To set a desired temperature setpoint, an adjustment handle 42 is provided, which is described in more detail below is rotatably connected to the control insert 27 described manner. When turning the adjustment handle 42, the control insert is screwed in the stationary intermediate piece 23, the axial distance of the working element 29 from the valve seat 16 being changed will. The adjustment handle 42 is made of plastic and has the shape of a sleeve with an end wall 43 and a jacket 44. An struts 45 are molded onto the inner wall of the rotary handle 42, with which the twist grip 42 is fixed on the control insert 27 so that it cannot rotate is, The free end of the jacket 44 engages with little play Via radial air guide ribs 46 on the outer circumference of the intermediate piece 23 »which lie between the slots 26 and, in addition to good air ducting, an additional guide for the adjustment handle 42 result.

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The adjustment handle 42 engages over the working element 29 »which is thereby protected against contact and damage. That Working element 29 extends close to the end wall 43 of the adjustment handle 42 and is surrounded in a basket-like manner by the struts 45 which come close to its circumference.

The adjustment handle 42 is used to ventilate the working element 29 with openings 48 in the casing 44 lying in a common plane and openings 49 in the end wall lying on a circular line 43 provided. The inner diameter of the openings 49 The ring formed in the end wall 43 is larger than the outer diameter of the working element 29 »so that it is also protected from damage from the front side. With the Openings 48 and 49 in the jacket 44 and in the end wall 43 correspond Slots 50 between the struts 45 - the struts 45 serve as air guide ribs and the slots 50 in between serve as air passage so "openings. On the valve-side inner edge the struts 45 a Hing 51 is attached as a bracket of the rotary handle 42 is designed for fastening the same by locking on the control insert 27, so that the same by turning of the rotary handle 42 can be more or less screwed into the intermediate piece 23 for setting a temperature setpoint is. When the rotary handle 42 is pressed onto the regulating insert 27, the ring 51 interlocks with the outer circumference of the regulating insert 27 and forms a non-positive connection.

The annular space 52 formed between the jacket 44 and the working element 29 is divided by the radial air guide ribs 45, which lie between the openings 48 in the ironer 44. The coat 44 is in the area of the openings 48 by an annular groove reaching up to the inner wall of the jacket and extending over the entire circumference 53 completely interrupted, see that the separated by the annular groove 53 Sections of the jacket 44 are only connected to one another via the air guide ribs 45. This creates the openings 48 in the jacket 44 in the circumferential direction directly through the air

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guide ribs 45 and in the axial direction of the adjustment handle 42 through the two edges of the annular groove 53 are limited. The openings 48 are therefore optimally large and brought close to the working element 29 » so that a good ventilation of this element is guaranteed. The openings 49 in the end wall 43 of the adjustment handle 42 are in the same way directly between the air guide ribs 45 and the edges of the end wall 43 completely penetrating Annular groove 54 is formed so that an optimal ratio of air passage and strength of the rotary handle is achieved here as well is.

The air slots 26 in the intermediate piece 23 are up to the valve side Edge of the intermediate piece 23 extended so that the partitions form resilient struts 46 with which the intermediate piece can be snapped into the union nut 15, with lugs 55 ara Outer circumference of the struts 46 by an inner collar 6 of the union nut 15 are behind. The constriction between the Lugs 55 and the ribs 46 reduce the cross section of the struts of the intermediate piece 23 and inhibit the flow of heat from the valve body to the air guide ribs 46. Three ribs 46 distributed by 120 ° over the circumference are on their outer edge with a knob each 57 provided, which rests on the inside of the jacket of the adjustment handle 42 and is too easy or unintentional as a blocking device Twisting of the rotary handle, for example when dusting or by children, prevented. One of the ribs 46 on the intermediate piece is extended as a stop 58 longitudinally axially, which one on the inner circumference of the rotary handle 42 provided stop 59 is assigned. The two stops 58 and 59 limit the range of rotation of the Adjustment handle 42 and thus the adjustable setpoint temperature range of the valve.

The thermal shielding of the working element 29 is increased by the fact that both the rotary handle 42 and the intermediate piece 23 with its intermediate floor 24 and the standard insert

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are made of insulating plastic.

Starting from one end position, the desired setpoint value of the room temperature can be set by turning the setting handle 42 can be set. The working element 29 is brought into the axial position in which When the set target temperature is reached, the flow of heating medium through the valve is interrupted. In the event of deviations the room temperature from the set value, the valve acts in a known manner, in which it increases the flow of the heating medium Compliance with the setpoint controls. When the room temperature falls below the setpoint, the adjusting pin 31 moves as a result of Contraction of the expansion medium under the influence of the opening spring 20 into the working element 29, the closing member 17 being lifted off the valve seat 16 and releasing the flow of heating medium. ;

If the room temperature exceeds the setpoint, the will move Adjusting pin 31 as a displacement transducer as a result of the expansion of the expansion medium further out of the working element 29. The from the adjusting pin 3I transferred to the plunger 18 and, overcoming the spring force of the opening spring 20, the valve closing member 17 is in Moved towards the closed position. The flow of heating medium is throttled until the setpoint has reached room temperature again is.

If an excess temperature occurs that exceeds a permissible level, will damage the already in the closing T-section reached closing member 17 by an overtravel of the adjusting pin 31 by the buffer effect of the overtravel spring 37 prevented.

After overcoming the spring force of the overtravel spring 37 through the adjusting pin 3I push the two parts 33 »3 ^ of the intermediate link 32 telescopically into one another, as a result of which the closing element 17, which is already in the closed position, is damaged

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is prevented.

V / ie the rising room air through the twist grip 42 via his Air passage openings 48 and 49 flows through and the Arbeitsüeleraent 29 washed around, is indicated in Fig. 2 by arrows. In Fig. 2 the aerodynamic effect of the air flow is ribs 45 illustrated. The working element 29 becomes a lot The room air flows around it more intensively, which is why the temperature is carefully controlled by the control valve. The air flows in. aas intermediate piece 23 from below in and out from above, the air flow through the air guide ribs 46 to the plunger 18 and the insert piece 19 is directed and cools these parts. This cooling is due to the accelerating effect of the air flow Reinforced Luftlejtrippen 46. Since various individual parts of the thermostatic system 14 formed from ivärdämmendem material are, the falsification of the temperature control by the valve body 10 emitted heat is reduced. Particularly beneficial is also that the overtravel spring 37 is not, as in known arrangements

openings arranged around the working element 29: st and this therefore from the space that passes through the openings 48 and 49 air is immediately washed around without hindrance by the overstroke spring.

At least one of the aerial trippers? 46 is over the support surface • The intermediate piece 23 is formed so protruding that

by engaging in a recess 60 in the contact surface ües holding connector 13 of the valve attachment on the housing 10 against ^; Rotation is secured in position.

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Claims (16)

Junkers 725 .- 11.- Claims: 1. Thermostatic valve, in particular a radiator valve, with a temperature-sensitive work element, which is held in an intermediate piece attached to the valve housing, and a rotary handle that extends over the work element for setting a temperature setpoint, which is provided with radial air passage openings to ventilate the work element, characterized in that the rotary handle (4-2) is designed not only with radial air passage openings (48) on the outer circumference but also with a ring of air passage openings (49) on its end wall (43), and that radially extending air guide ribs (45) as aerodynamic means in the Inside the rotary handle ^: (42) are provided for improved ventilation of the working element (29). 2. Valve according to claim 1, characterized that the inner diameter (d) of the air passage openings (49) formed in the end wall (43) Ring at least equal to the outer diameter of the working element arranged behind the end wall (43) (29) is. 3. Valve according to claim 1 or 2, characterized in that the partitions between corresponding Pairs of air passage openings (48 and 49) are formed by the air guide ribs (45). - 12 - JurikorG 725 -. 12 "" 4. Valve according to claim 1, 2 or 3, characterized g e ken η that the temperature sensor at the same time forming working element (29) surrounded by the concentrically extending air guide ribs (45) like a basket is. 5 · Valve according to one of the preceding claims, characterized in that the air guide ribs (45) wear a ring (51) as a holder of the rotary handle (42) is formed. 6. Valve according to claim 5 »characterized that the inner diameter of the ring (51) for a positive pre-binding is equal to the outer diameter a control insert (27) carrying the working element (29). 7. Valve according to claim 6, characterized that the contact surfaces of the ring (51) and dos control insert (27) for a non-positive connection are interlocked. 8. Valve according to one of the preceding claims, characterized in that the cylindrical Shell part (44) of the rotary handle (42) in the area of the air passage openings (48) one to the inner wall of the shell part reaching, over the entire circumference extending annular groove (53) and the two through the Annular groove (53) separate sections of the casing part (44) only via the air guide ribs (45) as struts with one another are connected. 9 · Valve according to one of the preceding claims, characterized in that the end wall (43) of the rotary handle (42) in the area of the air passage - 13 - 74 Si5S4 Junkers 725 openings (49) one to the inside of the end wall has reaching annular groove (54) and the two through the annular groove (5 * 0 separate sections of the end wall (4-3) only Connected to one another as struts via the air guide ribs (45) are. 10. Valve according to one of the preceding claims, with an overstroke spring, characterized in that that the overstroke spring (37) is arranged between the adjusting pin (31) of the working element (29) and the tappet (18) of the valve and the working element (29) is freely exposed to the air flow passing through the rotary handle (42). 11. Valve according to claim 10, characterized in that the overtravel spring (37) between two FlansehteiIe (33 and 3 * 0, in particular, which are made of plastic and are preferably interlocked with one another) is on which on the one hand the adjusting pin (31) engages and on the other hand the plunger (18) is supported. 12. Valve according to one of the preceding claims, characterized in that the tubular Intermediate piece (23) provided with radial air slots (26) and radially outwardly directed air guide ribs (46) is, of which at least some are on the handle side The slots extend radially and guide the rotary handle (42). 13 · Valve according to claim 12, characterized that at least one air guiding rib (46) on its lateral surface one on the inner lateral surface of the rotary handle (42) has nub (57) resting on it as a movement brake for the rotary handle (42). 14. Valve according to claim 12, characterized in that at least one of the air guide ribs -14- Junkers 725 (46) over the support surface of the intermediate piece (23) in this way is formed protruding that by engaging in a recess (60) in the contact surface of the holding connector (13) the valve attachment on the housing (10) is secured against twisting. 15 · Valve according to one of the preceding claims, characterized in that air slots (26) are extended in the intermediate piece (23) up to its valve-side edge, eo that the partition walls (4-6) of the slots (26) form resilient struts with which the intermediate piece (23) is snapped into the union nut (15). 16. Valve according to one of the preceding claims, characterized in that both the Rotary handle (42) and the intermediate piece (23) with his. Intermediate floor (24) and the control insert (27) made of heat-insulating Material such as plastic are formed. 7411584-5.1.7 *