TR201615622A2 - Fast response wax based actuator - Google Patents

Abstract

A wax based actuator (1), which is used in cooling circulation of internal combustion engines, comprising a piston (2), a cover (3) which at least partially covers said piston (2), a vessel (7) embodied in a hollow cylindrical form whereon said cover (3) is positioned, a wax compound pellet (5) placed to the inner side of said vessel (7) and a diaphragm (4) extending into the cover (3) from one end and extending into the said wax compound pellet (5) from the other end; characterized by comprising a cylindrical core filler (6) placed in a manner providing positioning of the wax compound pellet (5) between the vessel (7) and the core filler (6). Figure 1

Description

DESCRIPTION VAKS-BASED ACTUATOR WITH FAST REACTION TIME TECHNICAL FIELD The present invention has a fast reaction time for the cooling circulation of internal combustion engines. relates to a wax-based actuator having PRIOR ART In internal combustion engines, engine temperature, combustion efficiency and increasing emission rates It is important to keep it around the designed value in terms of More reaction time long, the stabilization time required to reach the target engine temperature means longer, which results in inefficient fuel combustion and more results in high emissions.

In the state of the art, wax-based actuators are cooled by a liquid coolant. are the basic control devices of the circulation units and thermal actuators are the basic control devices. are devices. The wax compound pellet is filled into a cylindrical chamber and inside this chamber through an elastomeric seal and a cover. is imprisoned. All the amount of wax trapped inside, circulating in the engine It must be heated or cooled from outside by the refrigerant. This heating and cooling, wax- as the reaction time of the wax compound, which affects the reaction time of the actuator based takes a so-called amount of time (all wax compound must be at the same temperature).

BRIEF DESCRIPTION OF THE INVENTION The present invention is aimed at eliminating the above mentioned disadvantages and providing the relevant technical field. relates to a wax-based actuator to bring new advantages.

It is an object of the invention to provide a wax-based actuator in which the reaction time is shortened.

Another object of the invention is to provide a wax-based actuator with increased productivity.

Another object of the invention is to provide an easily applicable wax-based actuator.

All the above-mentioned purposes that will emerge from the detailed description below. In order to realize the present invention, it is used in the cooling circulation of internal combustion engines. a piston, a cap used to at least partially enclose said piston, a hollow cylindrical structure on which said cover is positioned. The hopper consists of a wax composite pellet placed on the inside of the hopper and one end into the lid. a wax-based diaphragm extending from the other end to the wax composite pellet. is the actuator. Accordingly, the present invention is to reduce the reaction time of the wax-based actuator. The wax compound pellet will be positioned between the hopper and the core filler for It is characterized in that it contains the cylindrical core filler, which is placed in such a way. This Therefore, a thickness equal to the distance between the core filler and the hopper, and A wax compound pellet with manson structure is obtained and the wax compound pellet thickness is reduced. In this way, the thermal reaction time of the wax compound pellet is reduced, thereby reducing the reaction time.

In a preferred embodiment of the invention, the core filler is the diaphragm facing core. includes a diaphragm seat configured on the upper end point of the filler.

In another preferred embodiment of the invention, the diaphragm housing is a hemispherical hole. format is configured.

In another preferred embodiment of the invention, the core filler is the base of the lateral surfaces. and at least two centering teeth provided on the base endpoints. Like this, the core filler is mounted coaxially in said chamber.

In another preferred embodiment of the invention, the core filler is the base of the lateral surfaces. and six centering teeth provided on the base endpoints.

In another preferred embodiment of the invention, the core filler is polymeric or metallic. It is made of thermally conductive material selected from the material.

In another preferred embodiment of the invention, the wax compound pellet is subject to temperature change. from a thermally sensitive material that can expand or contract depending on is being done.

In another preferred embodiment of the invention, the diaphragm is made of an elastomeric compound. is produced.

In another preferred embodiment of the invention, the diaphragm is made of a rubber material. is produced.

In another preferred embodiment of the invention, the cap is placed on the base end point of the cap. has a protrusion, which is a gradually growing diameter.

In another preferred embodiment of the invention, the receptacle is at the end of the receptacle. a gradually growing diameter that is configured and bent over the overhang of the lid contains. Thus, the wax-based actuator is sealed.

In another preferred embodiment of the invention, there is a circumferential geometry for the piston. a diaphragm with compression ribs BRIEF DESCRIPTION OF THE FIGURES Figure 1 shows an overall representative view of the fast-acting wax-based actuator.

Figure 2 shows a cross-sectional view of the fast-acting wax-based actuator.

Figure 3 shows an exploded view of a fast-acting wax-based actuator.

Figure 4 shows a cross-sectional view of the core filler.

In Figure 5, a three-dimensional view of the core filler is given.

In Figure 6, a three-dimensional view of the core filler is given.

In Figure 7, a three-dimensional view of the core filler with 6 teeth is given.

In Figure 8a, the cross-sectional view of the core filled wax compound pellet is given.

In Figure Bb, a cross-sectional view of a wax compound pellet with a regular cylindrical shape is given.

REFERENCE NUMBERS IN THE FOLLOWING 1 Va ks-based actuator 2 Pistons 3 Covers 31 Door guide hole 32 ledges 4 Diaphragm 41 Diaphragm guide hole 42 Guide surface Wax compound pellet 6 Core filler 61 Diaphragm housing 62 Centering teeth 7 Chambers 71 Gradually increasing diameter DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the wax-based actuator (1) is only intended for a better understanding of the subject. It is explained with examples that will not have any limiting effect on the subject. The present invention For cooling circulation units of internal combustion engines, fast reaction time can be achieved. It relates to a wax-based actuator (1) realized to

In the present invention, with easy applicability, state of the art revealing reduced wax thickness for the same amount of wax when compared is intended.

Referring to Figure 1, the wax-based actuator (1) essentially consists of a piston (2), said piston (2) at least partially enclosing a cover (3), a wax located under said cover (3) compound pellet (5), extending from one end to the cover (3) and from the other end to the wax compound pellet (5) an extending diaphragm (4), a core placed in a wax composite pellet (5) the filler (6) and a chamber associated with the lid (3) and containing the wax compound pellet (5). (7) includes.

The cap (3) has a vertical cap guiding hole (31) to guide the piston (2). It has a hollow cylindrical geometry. Cover guiding hole (31), piston (2) It has a diameter enough to allow it to pass through. Cover (3) on base end point the chamber (7) has at least one projection (32) for locking it. Cover (3), diaphragm (4) is placed on top of it. The upper end point of the cover (3) has a truncated-cone geometry.

The inner surface of the cover (3) corresponds to the outer surface of the diaphragm (4). Cover (3), cover The protrusion (32) is imprisoned by a gradually increasing diameter (71) overlying it.

Thus, the wax-based actuator 1 is sealed.

The diaphragm (4) has a diaphragm baffle (41) and a guiding surface (42) so that the piston (2) and the core filler (6) are oriented. Said the guiding surface (42) contacts the diaphragm seat (61) of the core filler (6) is doing. The diaphragm (4) has a wrapping geometry and compression ribs. Diaphragm (4) is produced from an elastomeric component and only for wax compound pellet (5) Not only does it seal, it also bends bi-directionally so that the force is It helps with the transfer. Preferably, the diaphragm (4) is made of a rubber material. is produced.

The wax compound pellet (5) is placed inside the chamber (7). Wax compound pellet (5), A thermally sensitive material that can expand or contract with temperature change. is made of material. Wax compound pellet (5), proportional to temperature it can expand and is trapped inside the chamber (7). temperature rise In this case, the wax compound pellet (5) expands and starts to push the piston (2).

For the entire wax mass placed in the chamber (7), it is necessary to determine the appropriate thickness for the wax compound pellet (5). provision should be appropriately determined in relation to efficiency and applicability.

Piston (2), said cover guiding hole (31) and said diaphragm It passes through the routing hole (41) and thus, at one end, into the core filler (6). is seated. The piston (2) is a valve that converts the volumetric expansion into a lifting force. metal cylindrical rod. Thanks to the above-mentioned structure, lifting the piston (2), The force created by the expansion of the wax compound pellet (5) trapped inside the chamber (7) makes it easier. The core filler (6) is placed inside the chamber (7) and the volume inside the chamber (7) is a large amount is filled with said core filler (6). Remaining volume, chamber around this filler as a thin layer between (7) and core filler (8) It is filled by the wax compound pellet (5). This structure consists of the diaphragm (4) and the cover (3) and it is imprisoned by the piston (2) passing through the cover (3). Core filler (6) its diameter is smaller than the inner diameter of the chamber (7). Thus, the hopper (7) and the core filler (6), a wax compound pellet (5) with manson structure is formed. Core the length of the filler (6) is less than the length of the hopper (7). The core filler (6) has a cylindrical geometry. Top of core filler (6) its surface has a diaphragm seat (61) which is a hemispherical hole. Core filler (6), at least three centering discs on the base and base endpoints of the lateral surfaces (62) has. Thanks to these centering teeth (62), the chamber (7) and the core filler are (6) is provided to be coaxial. Preferably, core filler (6), 6 centering It has teeth (62). The core filler (6) is thermally conductive, selected from polymeric or metallic material. is made of one material. In one embodiment of the present invention, the core filler (6) is made of a polymeric material, especially plastic material. present invention In another embodiment, the core filler (6) is made of metallic material.

Thus, the reaction time is shortened.

The chamber (7), which expands at the end points and is bent on it, is locked to the cover (3). It has cylindrical geometry with gradually increasing diameter (71). Hopper (7) with lid (3) does not leak wax compound pellet (5), core filler (8) and diaphragm makes it. It is the end point of the chamber (7) and is slightly larger than the chamber (7). gradually increasing diameter (71), which has a diameter protrusion (32) is bent over it.

This device is the controller of the refrigerant circulation systems of internal combustion engines. This the device, which is formed by the expansion of the wax composite pellet (5) in case of an increase in temperature by lifting any plug-in valve and piston (2) by means of lifting force controls circulation. Similarly, if the temperature decreases, The expanded wax compound pellet (5) contracts and the piston (2) is pushed back. This expansion and shrinkage of the wax compound pellet (5), which directly affects the reaction time of the actuator It takes a period of time called the reaction time. Wax compound pellet (5) they must all be at the same temperature for expansion or contraction to begin. Core By using the filler (6), there is a thin line between the core filler (6) and the hopper (7). wax composite pellet (5) with a layer of In comparison, the reaction time of the wax compound pellet (5) is shortened, because the thick Delays in heat transfer to the wax pellet are avoided.

Thanks to the present invention, the core filler (6) mounted inside the cylindrical chamber (7) A thermal actuator with suitable wax thickness is obtained by means of it. Thus all Suitable heat transfer is provided for the wax compound and the reaction time of the wax compound is is shortening.

The scope of protection of the invention is stated in the attached claims and this detailed for exemplification purposes, it cannot be limited to what is told. Because a technical expert similar in the light of what has been explained above without departing from the main theme of the invention. It is clear that structuring can occur. ..3 __13- 52 i 'La-'I' 'I .__ir' 51;* `ah -- .ag-f .'__il 'th-If.' SekHBb

Claims (1)

REQUIREMENTS A piston (2) used in the cooling circulation of internal combustion engines, a cover (3) that at least partially closes the said piston (2), a chamber (7) configured as an empty cylindrical shape, on which the said cover (3) is located, the chamber ( 7) is a wax-based actuator (1) comprising a wax compound pellet (5) inserted on the inside and a diaphragm (4) extending from one end to the cap (3) and extending from the other end to the wax compound pellet (5). It is characterized by the fact that the actuator (i) contains a cylindrical core filler (6), which is placed between the chamber (7) and itself in such a way that the wax compound pellet (5) is positioned in order to reduce the reaction time. It is a wax-based actuator (1) according to claim 1 and its feature is; the core filler (6) includes a diaphragm seat (61) configured on its upper end point facing the diaphragm (4). It is a wax-based actuator (1) according to claim 2, and its feature is; The diaphragm seat (61) is configured as a hemispherical hole. It is a wax-based actuator (1) according to claim 1 and its feature is; the core filler (6) includes at least two centering teeth (62) provided on the base and base endpoints of the lateral surfaces. It is a wax-based actuator (1) according to claim 1 and its feature is; the core filler (6) includes six centering teeth (62) provided on the base and base endpoints of the lateral surfaces. It is a wax-based actuator (1) according to claim 1 and its feature is; the core filler (6) is made of a thermally conductive material selected from polymeric or metallic material. It is a wax-based actuator (1) according to claim 1 and its feature is; The reason is that the wax compound pellet (5) is made of a thermally sensitive material that can expand or contract depending on the temperature change. It is a wax-based actuator (1) according to claim 1 and its feature is; an elastomeric compound of the diaphragm (4) is produced. It is a wax-based actuator (1) according to claim 7 and its feature is; the diaphragm (4) is made of a rubber material. It is a wax-based actuator (1) according to claim 1 and its feature is; the cap (3) has a protrusion (32) with a gradually growing diameter on the base end point of the cap (3). It is a wax-based actuator (1) according to claim 1 and its feature is; the chamber (7) includes a gradually increasing diameter (71) configured at three points of the chamber (7) and bent over the protrusion (32) of the cover (3). It is a fast-reacting wax-based actuator (1) according to claim 1, and its feature is; the presence of a diaphragm (4) with a geometry and compression protrusions surrounding the piston (2).