COMBINED FLUID TANK OBTAINED BY MEANS OF USAGE OF CORE IN CONICAL FORM IN ROTATIONAL METHOD AND THE PRODUCTION METHOD THEREOF

Abstract

A combined fluid tank used in diesel engine vehicles using AdBlue is provided, wherein the AdBlue is a urea-based chemical and the combined fluid tank is manufactured using a rotation technology from a polymer-based material. The combined fluid tank includes a first chamber for diesel and a second chamber for AdBlue positioned next to the first chamber, a double-walled impermeable chamber constructed between the first chamber and the second chamber, and a baffle located in at least one of the first chamber and the second chamber and the baffle provides sound and vibration damping, and to a production method of the combined fluid tank.

Claims

1. A combined fluid tank used with at least one partition, wherein the combined fluid tank is manufactured from a polymer-based material, the combined fluid tank comprises a first chamber and a second chamber positioned next to the first chamber, a double-walled impermeable chamber constructed between the first chamber and the second chamber, and a baffle located in at least one of the first chamber and the second chamber, wherein the baffle provides sound and vibration damping; wherein the baffle and a wall comprise at least one core housing configured in a conical form.

2. The combined fluid tank according to claim 1, wherein core housings are in multiple numbers and are structured to be reverse-straight to each other respectively.

3. The combined fluid tank according to claim 1, wherein connection zones obtained by a kiss off method are structured on the wall and the baffle.

4. The combined fluid tank according to claim 1, comprising at least one passage gap, wherein the at least one passage gap allows a movement of a liquid between two baffles and the at least one passage gap is defined between the baffle and at least one side surface of the combined fluid tank.

5. The combined fluid tank according to claim 1, wherein a wall thickness of surfaces of the combined fluid tank obtained by transferring an ambient temperature to inner surfaces of a core with a use of heat pipes is equalized within a technology tolerance.

6. A production method of the combined fluid tank of claim 1, comprising the following steps using a rotational method: (a) placing cores side by side on a mold, and the cores are positioned reverse-straight to each other, (b) taking the polymer-based material to be shaped into the mold and applying heat to the mold and plastering the polymer-based material on mold walls, (c) cooling the mold and removing the combined fluid tank from the mold.

7. The production method according to claim 6, wherein in step (a), a heat pipe is placed on the cores as a tight fit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] FIG. 1 is a representative sectional view of the fluid tank.

[0030] FIG. 2 is a sectional view of the core housings.

[0031] FIG. 3 is a representative top section view of the fluid tank.

[0032] FIG. 4 is a representative view of the fluid tank.

[0033] FIG. 5 is a sectional view of the core housings.

[0034] FIG. 6 is a representative view of the alternative structuring of the baffle.

REFERENCE NUMBERS GIVEN IN THE FIGS

[0035] 10 Fluid Tank [0036] 11 First chamber [0037] 12 Second chamber [0038] 13 Baffle [0039] 131 Passage gap [0040] 15 Partition indent [0041] 16 Wall [0042] 17 Connection point [0043] 20 Core Housing [0044] 21 Core

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0045] In this detailed description, the invention is explained by examples of a fluid tank (10) formed by rotational molding, which does not constitute any limiting effect for a better understanding of the subject. The fluid reservoir (10) can be used for the fuel tank, water tank, or storage of any fluid.

[0046] Referring to FIG. 3; the fluid reservoir (10) includes a first reservoir (11) and a second reservoir (12). Said first chamber (11) and the second chamber (12) are in the form of a rectangular hollow prism-like. A double-layer wall (16) is constructed between the said first chamber (11) and the second chamber (12) to prevent leakage. Between the first chamber (11) and the second chamber (12) there is a partition recess (15), which is formed as a recess from the outside along at least two opposite surfaces, and between these two opposing recesses, said wall (16) extends.

[0047] The baffle (13) built on the fluid tank (10) and the wall (16) is obtained with cores (21) that are placed in multiple core housings (20) that are structured in accordance with rotation technology.

[0048] A single core (21) is placed in each core housing (20). Cores (21) and core housings (20) are configured in a conical-like form. The cores (21) are correctly placed at the tip of the core housings (20) where the diameter is narrower than the other larger diameter portion.

[0049] In this way, the removal of the cores (21) from the core housings (20) after the polymer material is formed is facilitated and accelerated. This is because, in the removal of the cores (21), only the separation of the tip parts from the narrow diameter part of the core socket (20) will be sufficient for the core (21) to come out, and the friction of the core (21) against the other walls of the core housings (20) is eliminated.

[0050] The core housings (20) are positioned side by side with each other in reverse-straight with each other, that is, next to the end part with a narrow diameter, with a wide outlet part. When the obtained fluid tank (10) is viewed from the outside, an image progressing in the form of a large diameter-narrow diameter-a large diameter-narrow diameter is obtained. Another advantage of using cores in this way is that the impact resistance of both the baffles (13) and the wall (16) is increased. In an application of the present invention, the baffle (13) is in cylindrical-conical form. In an alternative structuring of the invention, the baffle (13) is configured in a diamond-shaped cross-section and conical shape in a longitudinal section. And other alternative structuring of the invention, the baffle (13) can also be configured in different conical geometric forms.

[0051] In the preferred structuring, the diameter or diagonal of the wide mouth part of the cores (21) is in the range of 35 mm-50 mm. The diameter or diagonal of the narrow tip is between 25 mm and 35 mm.

[0052] With at least one heat pipe placed on the cores (21) as a tight fit, the baffle (13) and the wall (16) remaining inside the fluid tank (10) can be obtained. Heat pipes can receive heat by means of convection or radiation from the heat source created in the oven interior air, as well as by means of electrical heaters placed on the heat pipes as their integral parts.

[0053] In a structuring of the invention, in order to reduce the harmful effect of vibrations, at least one connection point (17) is defined at the kissing points called kiss-off in rotation technology between the double-layer wall (16) and the baffles (13). In the preferred structure, said connection points (17) are multiple.

[0054] The wall (16) is connected to the partition recesses (15) at the connection points (17) and thus acts as a monolithic, impermeable barrier between the first chamber (11) and the second chamber (12).

[0055] Although double-layer baffles (13) placed at the required places of the integral plastic fluid tank (10) to damp the acceleration and sound problems are associated with at least one surface of the first chamber (11) and the second chamber (12) it includes a space between at least one surface of the tank chambers (12) or a spacing (131) defining a passage gap between them.

[0056] Preferably, the baffles (13) are associated with at least two opposing surfaces of the first chamber (11) and the second chamber (12) to provide resistance against vibration. With the said passage gap (131), the movement of the liquid between the baffles (13) is provided to spread, thus allowing the suction pump of the tank to get fluid all the time.

[0057] Determining of which baffle (13) and/or intermediate wall that will have a connection point (17) will be made according to the results of the static and dynamic analysis to be made according to the vibration cutting, sound damping and tank volume and geometry.

[0058] When viewed from the outside after shaping, the connection points (17) are in the form of a plurality of conical grooves configured at spacings of a predetermined distance from each other. Between the two conical grooves is filled with polymer material. The grooves are in the geometry of the cores (21) and conical-like forms.

[0059] This structure, which provides sealing between the first chamber (11) and the second chamber (12), also provides damping the vibration, tension and sound occurring in the first chamber (11), the second chamber (12) and the baffles (13).

[0060] With the invention explained above in detail, it will be possible to avoid using two separate tanks for the fluid tank (10) and the Adblue tank, especially in diesel powered motor vehicles. Thus, there will be no need to use separate chassis connection and belt system for the first chamber (11) and the second chamber (12). Besides, space, weight and cost savings will be gained in vehicles. These gains reduce the carbon footprint, environmental pollution, and also provide fuel savings.

[0061] In particular, the invention comprises a first chamber (11) and a second chamber (12) located adjacent to it, which is used in diesel engine vehicles using Adblue (an urea-based chemical) and manufactured using rotation technology from polymer-based material; a double-layer and sealed wall (16) structured between the first chamber (11) and the second chamber (12); it relates to a combined fluid reservoir (10) comprising at least one baffle (13) positioned within at least one of the first chamber (11) and the second chamber (12) and providing sound and vibration damping.

[0062] The scope of protection of the invention is specified in the attached claims and it cannot be limited to what is explained in this detailed description for the sake of example. It is clear that a person skilled in the art can come up with similar structures in the light of the above, without departing from the main theme of the invention.