DE1523316C - Temperature controller with a medium that expands when heated - Google Patents

Description

1 "■■■■■■ ^; ■ ■■ 2. · ■ · ■ - '

The invention relates to a temperature sensor and temperature controller as the main and additional expansion element with the interior of the temperature sensor, two concentric spring tube bellows precommunicating with the interior of the temperature sensor Main expansion element seen 5. which telescope into one another, are biased by a return spring against the pressure of the interconnected chambers medium and left over an actuation for the expansion medium, the element is connected to an actuator that controls one of the two spring tube bellows at one end of the heating means that with a certain one common support plate on one side of the lower temperature of the temperature sensor the same attached, penetrates the with the inner regulating temperature increased and with a certain bellows at its opposite movable end upper temperature as well as in the case of the leaky connected, below Pre-tensioned ■■ the main becoming 'of the actuating element containing the temperature sensor to act on the control line system with relaxation of the return organ is the support plate and is lowered concentrically to the spring. . 15 the main control element arranged rohrföf-Such a temperature controller works in general additional control element by means of a web in such a way that the z. B. by means of a bellows a movable housing enclosing the bellows or a diaphragm operated actuator connected at temperature, with which the movable end of the temperature increase is connected a stroke in the one (positive) outer bellows.
Direction, when the temperature drops, a stroke in 20. In an already known temperature controller, runs in the opposite (negative) direction, so its safety device has an effective so that z. B. forms in connection with a boiler system unit with the temperature controller, a microswitch operated by the Fhib movement spring tube bellows is acted upon by the expansion medium of a temperature sensor with a positive stroke movement of the boiler system. Which, on the other hand, switches on when the stroke movement is off. A 35 expansion or contraction positive or negative such temperature controller has the disadvantage, tive caused transverse movement is by means of a that when the line system breaks, z. B. of the vem transmission belt and a cable drum i; Tiine temperature sensor to the controller leading capillary rotational movement converted, the. ^ By a tube, z. B. by vibrations or other levers connected to the cable drum for influencing effects, a negative lifting movement is carried out or switching off two in a control circuit, since the suddenly falling pressure in the line is used, switched on contact lamellas, system in the sense of a Lowering the temperature works. The spring tube bellows is in the control range of the tem- The microswitch switches on as a result, and the boiler system runs through under the effect of a pre-tensioned temperature controller. Return spring, so that when it suddenly falls, temperature regulators are already known- 35 pressure in the line system of the temperature sensor, which are equipped with an additional device for lowering the temperature of the contact, which this erroneous effect between the slats by the temperature regulator in the negative direction cancels and in the event of a break device acting return spring and the resulting from or a leaking of the line system in the released rotation of the actuator with the rope sense of a temperature increase at the sensor or drum is solved.

a decrease in temperature acts on the control element, the disadvantage of the known controller is that so that z. B. the case of a pressure failure in the temperature sensor from the temperature controller controlled boiler system switches off. the actuator is just in the opposite-previous Temperature controller with such an added direction of rotation, namely clockwise, additional device that moves in a disconnecting sense 45 as with a regulation in normal operation, rules, but are relatively complex and. where the actuating element is to lower itself counter to the clockwise, a separate clockwise direction from the temperature regulator. The well-known regulator separates, for switching off in the event of sudden Druckab- thus requires an actuator in the manner of a fall in the line system serving additional regulating body. Clockwise, which has a central position in which In contrast, the object of the invention is that a temperature-increasing effect is exerted, Temperature regulator, its on the leaking as well as two on opposite sides of the middle layer of the line system appealing device a located side positions in which a temperature ' the effect that requires the least possible structural effort is brought about. With this changer effective unit with the temperature order as a result of the variable lever temperature regulator forms. 55 poor of the actuating element and the unequal forces to achieve this object, moderate angular position according to the invention a temperature controller of the type mentioned at the beginning of the contact blade of the actuator. Because of proposed in which an opposite to the very different leverage of the Actuate main expansion element The known temperature control element is suitable via a further actuating element Light regulator acting on the actuator, not for direct actuation of actuators compress the main expansion element, such as B. a slide, the large Reibares Additional expansion element with return spring have exercise resistances and where provided in closing is, both expansion elements of the position relatively large actuating forces of the the same temperature sensor are applied and the return spring must be applied. That has the displacement of the movable side of the auxiliary 65 results in unreliable operation of the regulator, expansion element to the lower temperature. The temperature controller according to the invention has this rature-determining value by a stop does not have disadvantages and is also for the direct is limited. Control of such actuators, such as slide or

^: ■ ³ - ⁴

Valves, suitable because the actuators are straight in a more constructive representation and in; "zero position ·

linear travel between two limit positions of the same,: '■ "··' i '

lead, one of which is the lower, the other F i g. 3 shows the same partial section as FIG. 2 at

corresponds to the upper temperature limit. normal response of the temperature controller

In the event of a leak in the pressure system, a certain increased operating temperature will be 5, however

the actuator in the subject matter of the invention in the same before the main actuator takes effect; ■ '

Senses moved as in normal operation when on F i g. 4 shows the same partial section as FIG. 2 and 3,

Due to an excessive temperature, a tempe-

temperature reduction should be initiated. limb, and '

This fact has, inter alia, the advantage that io F i g. 5 a temperature-displacement diagram of the

that the temperature controller according to the invention lers.

easily retrofit anywhere there. The temperature controller 10 according to the invention is how lets where a temperature between two values in FIG. 1 is indicated schematically, with a controllable actuator is present. The known temperature sensor 11 through a capillary line 12 Arrangement, on the other hand, would initially be associated with special dimensions. The temperature sensor 11 is z. B. somehow for the formation of the actuator or a heating medium such as a boiler system intermediate forming device set. The controller acts z. B. via one in the scheme require. indicated actuator 13, which the heating,

In another. Known temperature controller z. B. the boiler system, increased or decreased

in combination with a safety device 20 or completely. The heating system can

is the through the transmission medium of any, z. B. electric or non-electric

Temperature sensor controlled metal bellows over a kind.

The temperature regulator 10 is fastened by means of a bearing that a control valve (actuator) in the fuel plate 14 to any suitable, relatively fixed supply line for the burner of a heating system 25. With the plate 14 is a controls. The contact between the adjusting bellows and the housing 15 is firmly connected, the return spring causing a main bellows 16 actuating member. and an additional bellows 17 which are fastened with their one end to the transverse wall 18 of the housing 15 on the actuating air valve member and are locked with their other end on one by two pawl levers sealed from the inside to the outside Abutment from. In the event of a leak in the control system through an opening 19 in the partition wall, the return chambers 20 and 21 which are connected to one another can form, spring oppositely directed pressure of the transmission line 12 connected to the temperature sensor 11. Ratchet lever the abutment, so that the metal bellows The free end of the main bellows 16 carries a and the actuating member come out of contact 35 stop plate 22 which is closed against the housing supporting spring 23 under the action of a control valve which controls the fuel supply. A significant disadvantage of this one z. B .. collar-shaped counter-stop 24 on the fixed temperature controller consists in the complexity of the standing housing is pressed, as well as the main pawl construction and in that the abutment actuating member 25 in the form of a pin, which for the actuating spring after each notch 40 in the direction of the arrow .X ₁ , .v ₂ adjustable actuator 13 must be latched again, so z. B. also when cooperates. In a similar way, the transport helps at low outside temperatures. oppositely directed free end of the additional bellows 17

Another known temperature regulator with safety - a stop plate 26, which works by a spring 27 of the unit, although it works directly on a counter-stop 28 on the housing 15 working between two positions actuator; he 45 is. It protrudes by means of individual webs through opening, however, for the effectiveness of the safety gene 29 in the housing 15 and by means of a device carries a preload through vacuum in an outer movable housing 30, individual pressure system, which webs or the like an additional actuating element at the start of operation 31, e.g. B. must first be set in a defined manner and in the form of a main operating element 25 then maintained 50 closing sleeve, one or more pins or the like., Must be. A decrease in the vacuum preload that would also be possible over long periods of time, which would also be reduced together with the actuator 13. acts or can work together,
lead to failure of the known temperature controller The mode of operation of the device described. In contrast to this, the controller works according to the following: The position of the temperature of the invention with overpressure and should therefore be a controller shows the position that it assumes with the lowest greater safety in the event of a leak in the pressure operating temperature / _{0 of} the boiler system and ensure the system. in which the burner is set to the lowest possible power

With the invention, the disadvantages of these are thus. The stop plate 22 of the main bellows 16

known temperature controller avoided. is supported by the spring 23 on

The invention and the mode of operation are in the 60 counter-stop 24 with bias on, while

The following description of two embodiments, the stop plate 26 of the additional bellows 17 by the

Examples are explained in more detail with reference to the drawings. Spring 27 is pressed off its counter-stop 28

tert. will.

In the drawings, this shows the temperature sensor 11, the

1 shows a schematic representation of an outlet 65 capillary tube 12 and the chambers 20 and 21

implementation of the invention,. _/ filling, especially liquid medium as a result

F i g. 2 shows a partial section of a further temperature increase according to the invention at the sensor 11; Embodiment of a temperature controller next because of the lower "resistance

5 6

Spring 27 of the additional bellows 17 expanded until its collar is connected to a sleeve 130ό, the upper one

Änschlagplatte 26 rests on the counter-stop 28, whereby the end 130c acts as a counter-stop from above

with itself the additional actuation element 31 in (negative against the collar 124 of the stationary housing 115

ijver) .direction .v. emotional. The spring 27 stores can apply.

here 'which corresponds to the expansion of the bellows 17 5 With the sleeve 1306 is through the parts 130σ and

speaking energy. The actuator 13 follows the webs forming openings 129 a lower stop

Additional actuation element in the direction of the arrow .V ₂ by connecting plate 126, which is designed as a sleeve

it is z. B. from position a ₀ by the stroke It ₀ in additional actuator 131 carries. Between the

dic position O ₁ moves and thereby the heating set actuating member 131 or the plate 126. and the

or the like. Adjusts to full strength. The spring 127 is the inner main operating member 125

With a further increase in temperature, the main actuating member 125 expands as soon as it is interposed

the bias of the main bellows 16 and the upward pressure (arrow direction X ₂ ) against the collar-shaped

the leather 23 is overcome, also the main bellows 16 extension 124 of the fixed tubular housing

off, whereby the main operating member 25 pushes in 115, while the auxiliary operating member 131

Arrow direction .ν, is moved. When crossing 15 in the opposite direction (arrow direction X ₁ ) from

a predetermined higher temperature, which the spring 127 is loaded and by means of the stop

z. B. the maximum permissible temperature of the boiler plate 126 and the parts 130er, 130ό and

system corresponds, d. H. after a certain stroke 130c existing movable housing 130 also

The main actuating element 25 touches it if it is removed from the collar-shaped stop element 124.

Actuator 13 and takes the latter from the position α za is based.

in the (positive) direction .v, up to a position above the capillary tube 112 is attached to a hole

the position a _n with, whereby the heating closed in the the chamber of the main bellows

or the like. Is turned off again. 116 forming annular space 120 opens, which inside

If the line 12. z. B. due to rupture, or from the bellows 116 and outside of the tubular

one of the chambers 20. 21 leaking, this, 25 housing 115 is limited and by means of a drilling

If only, the main actuating element 25 effectively rests 119 with the chamber 121 of the additional element 7

would have the consequence that because of which is connected by undidit-. " ■, -s ~ ■

are caused by a pressure drop in the iftfiern of The mode of operation of the device.vnaerh 'F i g. 2

iiauplbalges 16 and the movement of Hauptbetäti- to 4 corresponds, as already mentioned, in principle to the

gungsclemcntes 25 in the direction of the arrow .v ₂ the heater 30 those according to FIG. 1. In F i g. 2 is the temperature

Od. The like. Would be set to full strength without a regulator in the unactuated state, z. B. at normal

that when the maximum permissible outside temperature is exceeded. While in the first

temperature the actuator 13 would be operated. described embodiment when increasing the

Due to the arrangement of the additional bellows 17 and the temperature on the temperature sensor 11, both bellows of the additional actuating member 31 actuated by this expand 35, but in the case of the embodiment it is effected that at the moment of the pressure according to FIG. 2 to 4 with increasing temperature drop in the line system 12, 20, 21 including at the sensor 111, i.e. with increasing pressure in the chambers 20, 21 the previously stored energy chambers 120, 121 the inner main bellows 116 in the spring 27 is free w ig and the additional actuation (positive) direction .V ₁ compressed, the outer member 31 to the hub /; ₀ moves in the direction of the arrow .V ₁ , 40 additional bellows 117, however, in the (negative) direction x _2, the actuator 13 is adjusted into the zero position a ₀ (or stretched above. The main bellows 116 is here with the advance). . tension is used in the direction of the arrow x _z , ■ by adding the

In Fig. 2 to 4, another embodiment of the main actuator 125 with the corresponding front-end invention is shown, which, in terms of its effective tension against the counter-stop part 124, is in principle similar to that according to FIG. 1 corresponds. 45 is, in such a way that with increasing temperature. are arranged. Parts attained to those of the first definite higher temper, atur.
The outer additional bellows 117 is denoted without or only with reference symbols, but increased by 100 in each case, 50 relatively low tension. that z. B. the stop collar 13Oc without or

With the fixed bearing plate 114 is only with little pressure against the fixed

with the interposition of the intermediate piece 118 'counter-stop part 124 applies. If the tem-

the tubular housing 115 firmly connected, the temperature on the temperature sensor 111 and increases thereby

at its upper end a collar-shaped counter-pressure 55 the pressure in the chambers 120, 121 remains initially

stop 124 carries. due to the (negative) prestressing of the main

Inside the tubular housing 115, the bellows 116, the main operating member 125, is at rest, on pressure differences due to change in length while the additional bellows 117 is expanding, z. B. undergoes by a slider 116 «, against the action of the spring 127, divided main bellows 116 arranged, the lower end 60 of which is thereby tensioned. The one with the addition the Gchäusc Zwischenstück 118 tightly connected bellows 117 connected collar-shaped stop part 130c and its upper end as a stop which stands out from the counter-stop part 124, imagining Collar 122 of the main actuator rend at the same time-the stop plate 126 the forming the actuator cooperating housing intermediate piece 118 approaches and after a ·. Rod 125 carries. The tubular housing 115 65 stroke /; ,, against the lower end acting as a stop is placed on its outside by the 7, additional bellows 117 Ringliächc 128 of the Gdiäusestückes. The main enclosure. its lower end with the housing connecting member 125 is thus under an additional intermediate piece 118 and its upper end with the. borrowed nei: atiw: n pressure was put on which of the

'. by the stroke A ₀ certain additional bias of the spring 127 corresponds. The temperature. controller then takes the position according to FIG. 3 a. The Z. B. the actuator mounted on the bearing plate 114 has moved here from position a ₀ to position O _{1 of} the lever arm 113a of the actuator 113 and thereby set the heating or other temperature influencing to the greatest effectiveness. The processes just described are on hand

_{L of} the diagram according to FIG. 5 explained in more detail. In this diagram, in accordance with FIG. 2 over the path χ (or X ₁ , x ₂ ) the temperatures / recorded. Here, Jj denotes the stroke of the main actuating member 125, and S ₂ denotes the stroke of the additional actuating member 131 as a function of the temperature /. At a normal temperature t ₀ , the additional actuator 131 is (based on the top of the stop plate 126) at point A ₀ , the preloaded main actuator 125 z. B. in a point B ₁ . If ao increases the temperature /, the additional actuator 131 moves on the curve s ₂ with increasing. Biasing the spring 127, e.g. B. - corresponding to the stroke A ₀ - to point A ₁ , while the main actuator in the control point .S _{1 has} remained. The point A ₁ is reached, for example, at a temperature I ₁ , which is more or less below ^ - the response temperature t ₂ . As from FTg. 3, the lower end of the main actuating member 125 is still in the position shown there by a stroke A ₁ above the actuator 113, so that still - according to FIG. 5 - a temperature increase to t _{2 is} required for the main actuator to come into contact with the actuator 113; As soon as the temperature / _{a is} exceeded, the main actuator 125 moves along its characteristic curve J ₁ , in which at point B ₂ the lower end of the main actuator

. member 125 protrudes beyond the lower end of the additional actuating member 131 and thus the actuator 113 at point B ₃ in the position a ₀ or possibly also - according to FIG. 4 - is also moved to a position a ₀ ' , whereby the heating power is adjusted to a lower value or switched off completely. -

If the capillary line 112 breaks or there is another leak in the line system, this has the consequence that the main bellows 116 contracts again in the (negative) direction of the arrow X ₂ . However, the fact that the heating is not adjusted to its full effect or remains unregulated at such a value is prevented by the additional bellows 117 and the additional actuating member 131 by the preloading of the spring 127, releasing the previously stored energy and releasing the additional bellows 117 Additional actuator 131 is advanced by stroke A ₀ in the (positive) direction of the arrow Jc ₁ and thereby actuates actuator 113 in the sense of switching off the heating.

Claims (2)

Patent claims: 1.Temperature controller with a temperature sensor containing a medium that expands when heated and a main expansion element communicating with the interior of the temperature sensor, which is preloaded by a return spring against the pressure of the medium and is connected via an actuating element to an actuator which controls a heating medium in such a way that at a certain lower temperature of the temperature sensor the temperature to be controlled is increased and at a certain upper temperature and in the event of the pipe system containing the temperature sensor leaking, the return spring is relaxed, characterized in that an opposite to the main expansion element (16, 116) has a further actuating element (30, 31; 130, 131) acting on the actuator (13, 113), more easily compressible than the main expansion element (16, 116) additional expansion element (17, 117) with return spring (27, 127) is provided that ~ " both Expansion elements (16, 116 ^ Af ^ iT) are acted upon by the same temperature sensor '(11) and that the displacement of the movable side of the additional _{expansion element (17, 117) to a value that determines the lower temperature (Z 1} ) by a stop (28 , 128) is limited. 2. Temperature controller according to claim 1, characterized in that the main and. Additional expansion element two spring tube bellows (16, 17; 116, 117) which are concentric to one another are provided are telescoped into one another, that interconnected chambers between them (120, 121) are left for the expansion medium that the two spring tube bellows (116, 117) attached at one end to a common support plate (114) on one side thereof are that with the inner bellows (116) at its opposite movable end connected, pre-tensioned main control element (125) _to act on the Control element (113) passes through the support plate (114) and that the tubular additional control element arranged concentrically to the main control element (125) (131) is connected by a web (129) to a movable housing (130) enclosing the bellows (116, 117), to which the movable end of the outer bellows (117) is connected. 1 sheet of drawings 109 630/122