RU2406037C1 - Thermal-electric oil radiator - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: thermal-electric oil radiator has: radiating element, having multiple serially connected radiating plates, every of which has hollow and leaf-like, inside each radiating plate there are at least two oil line grooves, at upper and lower ends of each radiating plate there are horizontal hollow connection sleeves, in each connecting sleeve there is a hole for oil supply, which communicates with oil line grooves, and connecting sleeves connected to each other form tight oil chamber filled with heat-conducting oil, electric control unit installed on radiating element, heating element arranged inside radiating element. At the same time between two neighboring radiating plates there is a strengthening radiating plate, having single leaf-like structure and comprises: radiating plate and radiating wall connected to specified radiating plate.

EFFECT: increased capacity of oil radiator radiation.

9 cl, 11 dwg

Description

BACKGROUND OF THE INVENTION

The present invention relates to a heating device, more specifically to an electrothermal radiator filled with oil.

Description of the prior art

The radiation power of an electrothermal oil radiator known from the prior art is proportional to the size of its radiating plates, namely, the greater the radiation power, the larger the size of the radiating plates and, therefore, the overall size of the radiator. Chinese patent ZL 02225717.9, issued February 19, 2003, publication number CN 2536943, describes an oil-filled electric heater having a heating tube, a connecting sleeve, a plurality of oil-filled radiating plates, a control unit in which said connecting sleeve is connected to an adjacent radiating plate , the heating tube is inserted into the connecting arms and radiating plates, and at the same time, the heating tube is immersed in the heat-conducting oil with which the radiating plate is filled, while the radiating plate is connected Naya with a control unit, not filled with oil and is located outside the coupling sleeve. The mentioned patent uses a specific design in which the radiating plate connected to the control unit is not filled with oil and is located outside the connecting sleeve, due to which this secondary radiating plate indirectly conducts heat of other radiating plates to the control unit, and not directly its own heat, and without affecting the overall functioning and shape of the electric heater, it drastically reduces the temperature inside the control unit, and then lowers the temperature of the control devices inside the unit systematic way, such as handles and buttons, to prevent damage from overheating, thereby increasing the service life of the electric heating device. Although some improvements are proposed in the mentioned patent, it still has the disadvantage of a conventional electric heating device, i.e. the greater its radiation power, the larger the size of the radiating plates.

Summary of the invention

The present invention is based on the task of eliminating the disadvantages of the prior art and, accordingly, creating an electrothermal oil radiator having a high radiation power, but smaller and aesthetic appearance.

The present invention provides an electrothermal oil cooler having a radiating element, an electrical control unit mounted on the radiating element, and a heating element located inside the said radiating element, which has a plurality of serially connected radiating plates, each of which is hollow and leaf-shaped, while inside each radiating plate has at least two oil-conducting grooves, at the upper and lower ends of each radiating plate are made or It becomes horizontally extending hollow connecting sleeves, each sleeve has a connecting hole for supplying oil communicating with the oil passage grooves, and joined to each other to form a sealed sleeves connecting the oil chamber filled with heat-conducting oil. A reinforcing radiating plate is installed between adjacent radiating plates.

Said electrothermal oil cooler according to the present invention also has the following features.

The reinforcing radiating plate has a single leaf-shaped structure and consists of a radiating plate and a radiating wall connected to said radiating plate.

A reinforcing radiating plate is attached to the connecting part of the connecting arms between adjacent radiating plates.

A protruding ring is made at one end of the connecting sleeve, which extends through said reinforcing radiating plate and is inserted into the other end of said adjacent connecting sleeve.

Above the radiating wall are many radiating holes.

The radiating holes are in the form of strips.

The reinforcing radiating plate has the same shape as the radiating plate.

The radiating wall has a folded edge.

The width of the radiating wall is 60% -80% of the distance between adjacent radiating plates.

The radiating plate has at least one recess.

The electrothermal oil radiator according to the present invention has the following advantages over radiators known from the prior art: firstly, due to the fact that between each two adjacent oil-filled radiating plates there are non-oil-reinforced reinforcing radiating plates, the radiation effect of the electrothermal oil radiator is enhanced and the radiation power increases sharply without an obvious increase in its size and thereby eliminates the disadvantage of the known technology iki electrothermal oil radiator, which at high radiation power should have large radiating plates; secondly, since a heating tube is installed on the connecting sleeve, which allows to reach the highest temperature in the connecting sleeve, it is able to radiate maximum heat and enhance the radiation effect due to the reinforcing radiating plates mounted on the connecting parts of the connecting sleeves; thirdly, the reinforcing radiating plate has the same overall appearance as the radiating plate, while the radiating wall of the reinforcing radiating plate is able to fill the gap of the radiating plate, and the electrothermal oil cooler proposed in the present invention has an aesthetic appearance.

Brief Description of the Drawings

figure 1 shows a front view of an electrothermal oil cooler according to the present invention,

figure 2 is a top view of figure 1,

figure 3 is a right view of figure 1,

figure 4 is a front view of the radiating element shown in figure 1,

figure 5 is a left view shown in figure 4,

figure 6 is a perspective view shown in figure 4,

in Fig.7 is a perspective image shown in Fig.4, with a spatial separation of the parts,

in Fig.8 is a sectional view shown in Fig.4, with a spatial separation of the parts,

figure 9 is a left view of the reinforcing radiating plate shown in figure 4,

in Fig.10 is an enlarged view of a portion of a reinforcing radiating plate shown in Fig.8,

figure 11 is a perspective image shown in figure 1, with a spatial separation of the parts.

Detailed Description of Embodiments

Figure 1-6 shows one of the preferred embodiments of an electrothermal oil cooler that has a radiating element 1, an electrical control unit 2 mounted on said radiating element 1, and a heating element 3 located inside said radiating element 1, which has a plurality of connected radiating plates 11, each of which is hollow and leaf-shaped, at least two oil-conducting grooves 12 are made inside each of the radiating plates 11, on the upper and The lower ends of each radiating plate 11 are provided with horizontally extending hollow connecting arms 13, each connecting arm 13 has a hole for supplying oil communicating with the oil conducting grooves 12, and the connecting arms 13 and oil conducting grooves 12 connected to each other form a sealed oil chamber filled with heat conducting oil. As shown in FIG. 11, a heating element 3 is mounted on the connecting arms. Inside the electrical control unit 2, on the front of which there is a front panel 22 with a switch 23 and a rotary button mounted thereon, a temperature controller 24 and an overheat protection device 25 are installed. The temperature controller 24 is able to control the heating temperature, and the overheat protection device 25 is able to prevent the radiator from overheating. The rear end of the radiator is closed by a rear cover 5 with a handle 51 for convenient movement of the radiator. The lower part of the radiator is installed on the base 6, which makes it easy to install the radiator.

Proposed in the present invention, the connecting sleeve 13 is also designed for installation on the radiating plate 11. Each of the radiating plates 11 is made of two sheets and has the same shape and size. A reinforcing radiating plate 4 is installed between each two adjacent radiating plates, which is a difference from the prior art design. The reinforcing radiating plate 4 can further enhance the radiation effect, but without increasing the volume of the electrothermal oil radiator. Thus, the radiator proposed in the present invention is smaller than the radiator of the same power known from the prior art and can be easily installed in a house.

As shown in Figs. 7-9, the reinforcing radiating plate 4 has a single sheet-like structure and consists of a radiating plate 41 and a radiating wall 42 connected to the radiating plate 41. The radiating plate 41 is not filled with oil and the oblique lining 47 is connected to one side edge of the radiating walls 42. In particular, as shown in FIG. 10, this design not only enables the installation of the radiating plate 41 in the middle of the radiating wall 42, but also allows the production of a reinforcing radiating plate 4 by stamping. At the same time, this design is beneficial for raising heated air.

As shown in Figs. 8 and 10, the reinforcing radiating plate 4 is attached to the connecting part of said connecting arms 13 between adjacent radiating plates 11. Due to the heating element 3 being installed inside the connecting arms 13, the highest temperature is reached in the connecting arms 13, and therefore, the design using the reinforcing radiating plate 4 on the connecting sleeve 13 is beneficial not only from the point of view of installation, but also provides the best radiation effect.

As shown in Figs. 7-10, a protruding ring 131 is formed at one end of the connecting sleeve 13, inserted into the other end of the adjacent connecting sleeve 13 through an opening 46 in the reinforcing radiating plate 4. Thus, the said reinforcing radiating plate 4 can be easily fixed between adjacent connecting arms 13. Each of the connecting arms 13 is hermetically connected to each other, and when installed, the protruding ring 131 is inserted into the other end of the adjacent connecting arm 13, then their other d to a friend, whereby the reinforcing radiating plate 4 is firmly fixed between the ends of adjacent connecting arms 13.

As shown in FIGS. 2 and 6, a plurality of strip-shaped radiating holes 43 are arranged on top of the radiating wall 42, which is advantageous for raising heated air, thereby improving the ventilation effect, and enhancing the radiation effect of the present invention.

As shown in FIGS. 5, 8 and 9, the reinforcing radiating plates have the same shape as the radiating plates 11. The width B of the radiating wall is 60% -80% of the distance C between adjacent radiating plates 11, in this example 74%. The radiating wall 42 has a folded edge 44. Thus, the present invention provides excellent emissivity, and the overall appearance of the present invention is also aesthetic. A folded edge 44 is made on the radiating wall 42 so that the user does not cut about the edge.

As shown in FIG. 9, at least one recess 45 is made in the stamping plate 41 in the radiating plate in order to increase the overall strength of the reinforcing radiating plate 4.

Claims (9)

1. An electrothermal oil cooler having a radiating element (1) having a plurality of serially connected radiating plates (11), each of which is hollow and leaf-shaped, at least two oil-conducting grooves (12) are made inside each of the radiating plates (11), horizontally extending hollow connecting arms (13) are made on the upper and lower ends of each radiating plate (11), in each connecting arm (13) there is an opening for oil supply, communicating with oil-conducting grooves (12), and ug with another connecting sleeves (13) form a sealed oil chamber filled with heat-conducting oil,
an electric control unit (2) mounted on the radiating element (1),
a heating element (3) located inside the radiating element (1), while a reinforcing radiating plate (4) having a single sheet-like structure and containing a radiating plate (41) and a radiating wall (42) is installed between two adjacent radiating plates (11), connected to said radiating plate (11). 2. A radiator according to claim 1, wherein said reinforcing radiating plate (4) is mounted on a connecting portion of said connecting arms (13) between said two adjacent radiating plates (11). 3. A radiator according to claim 2, wherein a protruding ring (131) is formed at one end of the connecting sleeve (13) of said radiating plates (11), inserted into the other end of an adjacent connecting sleeve (13) of said radiating plates (11) through a reinforcing radiating plate (4). 4. The radiator according to claim 1, in which a plurality of radiating holes (43) are made on top of said radiating wall (42). 5. The radiator according to claim 4, in which said radiating holes (43) are in the form of strips. 6. A radiator according to claim 1, wherein said reinforcing radiating plate (4) has the same shape as said radiating plate (11). 7. The radiator according to claim 1, wherein said radiating wall (42) has a folded edge (44). 8. The radiator according to claim 1, wherein the width B of said radiating wall is 60-80% of the distance C between adjacent radiating plates. 9. The radiator according to claim 1, in which at least one recess (45) is made in said radiating plate (41).

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