DE3740500C1 - Thermostatically actuable valve - Google Patents

Abstract

A thermostat valve for cooling water circuits, which is arranged in a housing with a coolant inlet and a coolant outlet, has an expansion element which acts on a closure member of the valve. Means are present, by which the valve closure member is held in the opening position in the event of a maximum stroke being exceeded.

Description

The invention relates to a thermostatically actuated Valve, especially for cooling water circuits, the in Preamble of claim 1 specified genus.

These are so-called integral thermostats tile arranged in a lid-like housing part and for mounting on an internal combustion engine are provided. Such a thermostatic valve is described for example in DE-GM 86 23 574.

In addition, the brochure "Wahler-Dehnstoff- Safety Thermostat "a thermostatic valve known which is actuated by an expansion element. At the It is envisaged that in the event of an ent softening the filling mass of the expansion element the Ven til occupies an open position. The same Execution is described in DE-OS 19 18 769.

Triggered by disturbances affecting the most varied of primal things, for example loss of cooling water or insufficient cooling water flow through the cooler, Situations can arise through which the coolant reached a higher temperature than the maximum allowable cooling water temperature. While the Internal combustion engine cools the cooling water again and  the valve picks up when a predetermined one is exceeded Temperature threshold again its closed position. There when operating the internal combustion engine again the flow of cooling water through the cooler is blocked is, the previously occurring overheating will not be notices and he heats up the cooling water quickly enough - if the error is not in the meantime was fixed - quickly overheating the Cooling water and thus damage to the burner engine can lead.

It is therefore the object of the invention to provide a thermosta To create table-operated valve in which after exceeding a maximum permissible temperature - regardless of the further temperature profile - a closure of the valve is automatically prevented.

This task is operated with a thermostatic ble valve of the type mentioned according to the invention the characterizing features of claim 1 solved. The main advantage of the invention is therein see that from the time of overheating, too if this occurred only temporarily, the maximum passage cross section through the valve is maintained and thus the cooler always is acted upon by the entire cooling water flow. If the engine is switched off and after the Cooling water put into operation again, that flows Cooling water from the start through the radiator, which makes egg ne relatively long time to reach operation temperature of the motor is required. That affects for example in a motor vehicle so that the heating is only very slow, what serves the driver as an indication of a fault. To  Unlocking and thus for returning the valve in the closed position requires the thermo statventil or the housing cover in which it is arranged is to unscrew from the engine, which however due to the simple attachment is possible without difficulty. Before or immediately after, however, you become the Ursa Check for overheating and correct the fault to lift.

A preferred embodiment of the invention Standes is that the device at least at least one of the overlapping the expansion element Arms or is provided on the second abutment. On this way there are no additional components as supports the locking means required. Furthermore no additional installation space is required by these means speaks.

A particularly inexpensive configuration of the Arre tierungsmittel consists in that it consists of at least there are two resilient pawls that are symmetrical are arranged on one of the arms. This lock can latch for example by screws, rivets, Spot welding or other suitable means to be attached to the poor.

A further embodiment of the invention consists in that the locking means include locking hooks on the resilient tongues movable with the closing member are arranged and through openings in the second Widerla are movable. This embodiment has the front part that a particularly good accessibility for the Unlocking the locking means is given.  

So that the return spring the closing member in the ver locked position not unevenly loaded and possibly leading to jamming, it is advantageous liable that the locking means at least two rest include hooks that are diametrically opposite or on a circular area are evenly distributed. The ledge behind which the pawls reach can be done easily by a on the locking member arranged bracket or pot can be realized. This The bracket or pot partially extends parallel or concentric to the axis of movement of the valve and points at its end adjacent to the second abutment NEN radially outward collar or angled parts. If there is a pot on the closing element seen, this can possibly be the liquid current, especially near the surface of the strain material element, so that the control cha characteristic of the thermostatic valve delayed, d. H. becomes sluggish. To avoid this, in the Mantle surface of the pot openings for liquid passage may be provided. The arrangement of a pot with the outward-facing collar, however, has the be significant advantage that when installing the locking member in the housing not to a certain angle of rotation posi tion of the locking member compared to the housing Sharing must be respected.

According to a further embodiment variant, the Locking means also as transverse to the direction of movement of the locking member slidable pins be spring loaded. These pens can be in suitably with radially outwardly directed Fah to be carried by the bracket or pot work together. So that these pens first against the  these stressful springs are pushed back to then snapping behind an edge is advisable sometimes the arm is provided with a chamfer, or the run-up bevel is made by a bevel of the arm reached. As the edge behind which the pawls the plate-shaped locking element can also snap into place serve yourself.

Embodiments of the thermostat according to the invention valves are shown below with reference to the drawing explained. In the drawing shows

Fig. 1 shows a section through a thermostatic valve;

FIG. 2 shows an embodiment variant of FIG. 1;

Fig. 2a is an enlarged view of a section from Fig. 2;

Fig. 2b shows a section along the line II / II in Fig. 2a;

Fig. 3 shows a further embodiment variant of Fig. 1;

Fig. 3a is an enlarged view of the locking elements according to FIG. 3 in the steady position.

In Fig. 1, a housing 1 with a hose connection piece 2 is shown, which is provided with a flange 3 for mounting on a (not shown in the drawing) internal combustion engine. In the housing 1 , a valve seat 4 is provided, on which a valve closing member 5 comes to rest in the closed state of the valve. The closing member 5 is plate-shaped and is loaded by a return spring 6 against the valve seat 4 , which on the other hand is supported on a second abutment 7 in the form of a cross member. The cross member 7 is held by two arms 9 and 9 ' extending over an expansion element. The expansion element 8 is used for movement of the valve closing member 5 in the open position of the valve, with appropriate heating of the cooling water, which flows around the expansion element 8 . A piston 10 protrudes from the expansion element 8 , via which the expansion element is supported on a first abutment 11 . On the arms 9 and 9 ' resilient Sperrklin ken 12 and 12' are arranged, which are fastened by means of an angled fastening plate 13, 13 ' and fastening screws 14, 14' to the arms 9, 9 ' .

To open the thermostatic valve, the closing member 5 is displaceable in the direction of the second abutment 7 and against the force of the return spring 6 . As long as the cooling water does not exceed a maximum permissible temperature, the path of the valve closing member will not be sufficient to get to the pawls 12, 12 ' and to cause the valve closing member 5 to snap behind these pawls. The locking position of the valve closing member behind the Sperrklin ken 12 and 12 ' is indicated by the dashed line 5 * .

FIG. 2 shows a section through a thermostatic valve, which essentially corresponds to FIG. 1. For the same parts, the reference numerals are identical to those in Fig. 1. In contrast to FIG. 1, the arrangement according to FIG. 2 has a different locking device. In the arms 9 and 9 ' each a transversely to the actuation direction of the valve movable pin 15, 15' is arranged, which is explained in more detail below to Fig. 2a and 2b. On the closing member 5 of the thermostatic valve is a plate 16 on which the spring 6 is supported and the closing member 5 is loaded against the valve seat 4 . The plate 16 has two brackets 17 and 17 ' , at the ends of which radially outwardly directed flags 18 and 18' are arranged. These flags 18 and 18 ' are close to the arms 9 and 9' , so that the pins 15 and 15 'are in the path of movement of the flags 18 and 18' .

Fig. 2a shows an enlarged view of the arm 9 and the flag 18 and in the arm 9 transverse to the direction of movement of the valve pin 15 . In this illustration, the flag 18 takes the position in the closed position of the valve. When moving the closing member into its open position, the flag 18 is seen in Fig. 2a moved down.

Fig. 2b shows a section along the line II / II in Fig. 2a. From this illustration it can be seen that the pin 15 is acted upon by the force of a spring 19 which, on the other hand, is supported on a holding element 20 . In the rest position of the arrangement is a radia ler collar 21 of the pin 15 on a stop 22 in the arm 9th The flag 18 is placed obliquely so that there is a run-up slope in the train on the pin 15 , which has a rounded end. If the cooling water reaches a temperature that exceeds the maximum permissible temperature, the flag 18 is moved so far down that it moves the pin 15 against the force of the spring 19 and slides over the pin 15 . If the pin 15 is completely run over by the flag 18 , this takes the position 18 * shown with dashed lines. So that the valve closing member is held in its open position.

Fig. 3 shows a section through a further embodiment of a thermostatic valve, the structure of the valve itself corresponding to that in FIGS. 1 and 2 and only the locking means are designed differently. Therefore, for the same parts, numerals agree as to those to Fig. 1 and Fig. 2 match. On the closing member 5 is on the side facing the expansion element 8, a bracket 23 on which the spring 6 is supported. This bracket has two resilient tongues 24 and 24 ' , at the ends of which locking hooks 25 and 25' are arranged. In the trained as a traverse Wi derlager 7 corresponding openings 26 are available through which the locking hooks are moved with a correspondingly large opening travel of the Ven valve, ie when the predetermined maximum temperature is exceeded. The locking hooks 25 and 25 ' are seen with a corresponding bevel ver, so that the resilient tongues 24 and 24' are stressed on bending and the locking hooks 25 and 25 ' after passing through the openings 26 behind an edge 27 of the second abutment 7th to grab.

All locking devices are easy to unlock when the housing 1 is removed from the engine block or a corresponding housing to which it is flanged. It is also possible in all of the described designs to arrange an electrical Schaltele element, which is actuated with the aid of the locking means, namely when they have taken the locking position of the valve. Both mechanically actuated switching elements and contactless switches can be used.

Another embodiment is that of the Locking means an electrical switch contact be is made to activate an acoustic or visual fault detector.

Claims (10)

1. Thermostatically operable valve, in particular for cooling water circuits, which is arranged in a housing ( 1 ) with a coolant inlet and a coolant outlet and an expansion element ( 8 ) comprising a closing element ( 5 ) and a valve seat ( 4 ) seen in the housing, whereby a piston ( 10 ) held in the expansion element ( 8 ) is supported on a housing-side first abutment ( 11 ) and between a radial collar of the closing member ( 5 ) and one on arms ( 9, 9 ' ) which overlap the expansion element ( 8 ), held second abutment ger ( 7 ) a closing spring is arranged, characterized in that the expansion element is assigned a locking means ( 12, 12 '; 15, 15'; 25, 25 ' ) having device which, when a certain stroke is exceeded, in the opening direction the closing member ( 5 ) automatically holds against the action of a closing spring ( 6 ) in the open position, the locking means ( 12, 12 '; 15, 15'; 25, 25 ' ) i assigned projections ( 5; 18, 18 '; 27 ) reach behind. 2. Valve according to claim 1, characterized in that the device ( 12, 12 ' ) is provided on at least one of the arms ( 9, 9' ) or on the second abutment ( 7 ). 3. Valve according to claim 2, characterized in that the locking means comprise at least two resilient pawls ( 12, 12 ' ) which are arranged symmetrically or uniformly distributed over a circumference. 4. Valve according to claim 1, characterized in that the locking means include latching hooks ( 25, 25 ' ) which are arranged on the locking member ( 5 ) movable spring tongues ( 24, 24' ) and through openings ( 26 ) in second abutment ( 7 ) are movable. 5. Valve according to claim 2 or 4, characterized in that the locking means comprise at least two locking hooks ( 25, 25 ' ) which are diametrically opposed or evenly distributed on a circular area angeord net. 6. Valve according to claim 1, characterized in that on the closing member ( 6 ) a bracket ( 17, 17 ', 23 ) or pot is arranged, which extends approximately parallel or concentrically to the axis of movement of the closing member ( 5 ) and on its second abutment ( 7 ) be adjacent end has a radially outward collar or corresponding projections ( 18, 18 '; 25, 25' ). 7. Valve according to claim 6, characterized characterized in that the mantle surface surface of the pot with openings for the passage of liquid occurs. 8. Valve according to claim 6, characterized in that the locking means include at least two transverse to the direction of movement of the closing member ( 5 ) displaceable pins ( 15, 15 ' ) which are spring-loaded. 9. Valve according to claim 8, characterized in that on the bracket ( 17, 17 ' ) or pot one of the number of pins ( 15, 15' ) corresponding number of radially outwardly directed flags is arranged, which in the direction of movement Closing member ( 5 ) seen one of the pins ( 15, 15 ' ) facing bevel. 10. Valve according to claim 3, characterized in that the resilient pawls ( 12, 12 ' ) engage behind a plate-shaped edge of the closing member ( 5 ).