KR101800754B1 - Oven cabinet gasket - Google Patents

Abstract

Disclosed is a cabinet gasket used for sealing an oven. The oven cabinet gasket comprises: a gasket mounted between an oven cabinet and a door to seal cavity of an oven; a contact unit in which a body of the gasket is in contact with the door of the oven; and a fixing unit in which an opposite side of the contact unit is fixated to the cabinet. The contact unit is divided into an internal room unit heading for a cavity direction of the oven and an external room unit heading for an external side of the oven based on the center of the body. Moreover, the internal room unit and the external room unit are configured for a thickness thereof to become thicker in the fixing unit. Therefore, when compressing the door of the oven, a decline in durability, caused by stress concentration of a high temperature portion in the cavity, can be prevented to improve quality of the oven and product reliability and solve a product claim problem.

Description

OVEN CABINET GASKET < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cabinet gasket used for sealing an oven, and more particularly, to an oven cabinet gasket that solves the problem of durability being reduced due to concentration of stress in a high temperature portion in a cavity during a door pressing.

The oven is a mechanism for sealing, heating and cooking the cooking material. Generally, it is divided into electric, gas and electronic depending on the heat source. Electric ovens use electric heaters as heat sources, gas ovens use gas heat, and microwave ovens use frictional heat of water molecules by high frequency.

In a food cooking apparatus using dry hot wind or electromagnetic wave, the cooked product is discolored to a great extent and the moisture escapes a lot during the cooking and heating process. In contrast, the steam convection oven using hot air and steam as the heat fluid can reduce the drying of the cooking material by replenishing steam moisture particles when the moisture is drained. The steam convection oven, which is widely used for commercial purposes, has a function of spraying steam to the inside of the cavity by using high temperature steam and adjusting the humidity by the amount of steam, thereby reducing the drying of the cooking material and using the trolley Not only the multi-stage cooking can be performed but also the taste and flavor of the cooking material can be relatively well preserved.

The cabinet gasket, which is installed inside the door of the steam oven to prevent the exhaust of the cavity and the steam from being discharged, is manufactured by using a rubber material having restoring elasticity, and is made to maintain the closed state by restoring elasticity when closed. The durability drops sharply as the high temperature stress in the cavity concentrates.

If the durability of the cabinet gasket is lowered in the oven, the restoring elasticity of the sealing material itself is weakened, and a gap may be generated between the door and the cabinet due to the steam pressure inside the cavity, resulting in the occurrence of leakage and leakage. If there is a gap between the cabinet and the door, and there is a shortage of heat and leakage, the energy efficiency is lowered and the cooking quality is deteriorated, which may adversely affect the reliability of the product and cause the cremation.

Patent Document 1: Korean Patent Laid-Open Publication No. 10-2015-0118860

Patent Document 2: Korean Patent Laid-Open Publication No. 10-2013-0106026

Patent Document 3: Korean Utility Model Publication No. 1998-035591

It is an object of the present invention to improve the durability of a cabinet gasket installed between a cabinet of an oven and a door.

It is another object of the present invention to provide a cabinet gasket that reduces crevices between a door and a cabinet due to steam pressure inside the oven cavity.

Another object of the present invention is to reduce the leakage and leakage of heat between the oven cabinet and the door.

According to the present invention, the above objects are achieved by a gasket comprising: a gasket mounted between an oven cabinet and a door to seal a cavity of the oven; The body of the gasket has a contact portion that makes contact with the door of the oven, and a mating portion of the contact portion has a fixing portion fixed to the cabinet. The contact portion includes an inner seal portion facing the cavity of the oven and an outer seal portion facing the outer side of the oven. The inner and outer chambers are divided by the center of the body, and the inner chamber and the outer chamber are thickened by the oven cabinet gasket.

Further, according to an embodiment of the present invention, the body of the gasket includes a hollow portion formed between the contact portion and the fixed portion. As a result, the restoration after the deformation of the contact portion and the sealing force of the door are increased.

According to the embodiment of the present invention, the hollow portion includes the primary hollow portion formed at the contact portion and the secondary hollow portion formed with respect to the center of the body, so that after the contact portion deforms, the inner seal portion cooperates with the secondary hollow portion The inner hollow portion is elastically restored by the primary hollow portion and the outer hollow portion is elastically restored by the secondary hollow portion, thereby improving the problem that the contact portion collapses in one direction.

Further, according to the embodiment of the present invention, since the supporter that divides the first and second hollow portions between the primary hollow portion and the secondary hollow portion is included, the stability after the deformation of the contact portion is improved.

Further, according to the embodiment of the present invention, the supporter is disposed between the inner seal part and the outer seal part to firmly support the inner seal part and the outer seal part, and contact the inner seal part and the outer seal part after the deformation by the pressing force to the door side, .

According to an embodiment of the present invention, the fixing portion of the body has an inner support portion and an outer support portion supported by the cabinet, and the inner seal portion is located outside the inner support portion with respect to the inner and outer support portions, It enlarges the contact area to the wall surface and improves the performance of leakage and leakage.

According to an embodiment of the present invention, the fixing portion of the body includes an inner supporting portion and an outer supporting portion supported by the cabinet, and the outer supporting portion is formed with a gap between the outer supporting portion and the center of the gasket body Located.

According to the embodiment of the present invention, the inner side seal portion and the outer side seal portion are formed at an obtuse angle of 90 degrees or more with respect to the central axis of the body, so that the stress due to the pressing force applied to the contact portion is dispersed in both directions, Improve the problem of falling.

According to the present invention, the stress concentration portion of the cabinet gasket of the oven is moved toward the outer side of the cavity and the stress is dispersed, thereby reducing stress concentration, thereby improving the durability of the cabinet gasket.

In addition, steam pressure inside the oven cavity reduces the occurrence of crevices between the door and the cabinet, thereby reducing the leakage and leakage of heat between the oven cabinet and the door, thereby reducing energy loss, improving cooking quality, There is an effect to be able to prepare for the problem of product creaming due to the leakage and leakage.

1 is a schematic view of a steam convection oven.
FIG. 2 is a perspective view showing a state in which a gasket is installed by extracting a part of a cabinet gasket in FIG.
FIG. 3 is a view showing a modification of the conventional cabinet gasket, wherein FIG. 3 (a) shows a cabinet gasket installed, FIG. 3 (b) shows a state in which an external load is applied to compress the cabinet gasket, Fig.
4 is a perspective view showing a part of the cabinet gasket installed in the oven according to the embodiment of the present invention.
5 is a detailed view showing a cabinet gasket installed in an oven according to an embodiment of the present invention.
FIG. 6 is a view showing a modification of the cabinet gasket according to the embodiment of the present invention. FIG. 6 (a) is a state in which the cabinet gasket is installed, (b) is a state in which the cabinet gasket is compressed by external load, Fig. 5 is a view showing a stress distribution according to a shape deformation.
FIG. 7 is a cross-sectional view illustrating a modified example of the cabinet gasket according to the embodiment of the present invention. FIG. 7 (a) is a modification of the conventional cabinet gasket, and FIG. 7 (b) is a modification of the cabinet gasket according to the present invention.

Hereinafter, an oven cabinet gasket according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a reference view for explaining an example in which a cabinet gasket is installed in a steam convection oven. The cabinet gasket 200 installed in the steam convection oven 100 is installed along the installation groove 111 of the cabinet 110 to provide a means for sealing the space t1 formed between the structures such as the door 120, to be. The cabinet gasket 200 is generally made of a rubber-based material having restoring elasticity to prevent leakage of heat and steam from the cavity or between the cavity and the interior of the cavity. The cabinet gasket is locally exposed to high temperature in the cavity, The stress may be concentrated and the durability may be deteriorated.

Figure 2 is an example of a conventional cabinet gasket installed between an oven cabinet and a door. 2, the conventional cabinet gasket 201 is installed along the installation groove 111 of the cabinet 110 to perform a sealing function. However, as shown in FIG. 3, when the door 120 is pressed by a closing force, A phenomenon of collapse in one direction (F2) may appear. If the cabinet gasket collapses in one direction, the sealing force is deteriorated and the stability is degraded.

Fig. 3 shows a modification of the conventional cabinet gasket. Fig. 3 (a) shows a state in which the cabinet gasket is installed. The two contact portions P1 and P2 can contact the inner wall of the door, and one contact portion is in contact with the contact portion P1 by the gap t1.

3 (b), when the pressing force of the door is increased under the condition (a) and acts as the magnitude of the force F1, the gap interval is narrowed from the initial t1 to t2 and the hollow portion is contracted, Is an example showing the sealing action by forming contact points of P1 and P2.

3 (c) shows a case in which the pressing force applied from the door acts in the F2 direction in the process of forming the contact points P1 and P2 at two places and the contact portion collapses in the F2 direction .

Here, P3 represents a state in which the space of the hollow portion is shrunk and deformed as a stress concentration portion. Even if the pressing force of the door is removed, the restoration ability to be restored to the original position may be deteriorated.

As a result, the existing cabinet gasket of the oven is positively exposed to high heat in the cavity, and the durability of the cabinet gasket can be lowered due to the concentration of high-temperature stress.

The cabinet gasket of the oven according to the present invention is configured to reduce the stress concentration by moving the stress concentration portion from the inside to the outside of the cavity through the change of the structural shape of the gasket and dispersing the stress.

4 is a perspective view showing a part of the cabinet gasket installed in the oven according to the present invention.

The oven cabinet gasket according to the present invention is composed of a gasket 202 mounted between the cabinet 110 of the oven 100 and the door 120 to seal the cavity of the oven.

4, the body 208 of the gasket 202 includes a contact portion for contacting the door 110 of the oven 100 and a fixing portion 203 for fixing the mating portion of the contact portion to the oven cabinet. The contact portion is divided by an inner seal portion 207 facing the cavity of the oven and an outer seal portion 204 facing the outside of the oven based on the center S1 of the body 208. [ The inner seal portion 207 and the outer seal portion 204 are formed to have a thicker thickness toward the fixing portion 203.

A specific configuration of the cabinet gasket according to the present invention will be described with reference to FIGS. 4 to 6. FIG.

5 shows a state in which the cabinet gasket is installed according to the embodiment of the present invention. 6 is a view showing a modification of the shape of the cabinet gasket according to the embodiment of the present invention.

5, the arrow f1 direction (right side) with respect to the center S1 axis of the cabinet gasket 202 is the inside facing the cavity of the oven and the inside air through which the inside air flows, and the arrow f2 (left side) .

The body 208 of the gasket is constituted by forming a hollow portion between the contact portion formed of the outer seal portion 204 and the inner seal portion 207 and the fixed portion 203. When the compressive force applied from the door side by the outer seal portion 204 and the inner seal portion 207 acts as the magnitude of the F1 force, the hollow portion first causes shrinkage deformation and the shrinkage deformation amount of the hollow portion does not disappear, and the contact portion is brought into close contact with the wall surface of the door side And acts as a repulsive elastic force. Accordingly, the hollow portion formed in the gasket allows the contact points P1, P2 of the contact portion to be restored and restored after the deformation of the contact portion is elastically brought into close contact with the wall surface of the door, thereby enhancing the sealing force.

The hollow portion has a primary hollow portion 205 formed around a contact portion formed of an inner seal portion 207 and an outer seal portion 204 and is divided into a secondary hollow portion 206 on the basis of the center S1 of the body 203 Respectively. After the primary hollow portion 205 and the secondary hollow portion 206 thus formed are deformed in contact with each other, the inner hollow portion 207 is moved by the primary hollow portion 205 together with the secondary hollow portion 206 And the outer seal portion 204 is elastically restored by the secondary hollow portion 206 so as to prevent the contact portion from collapsing in one direction.

Here, the elastic restoring force of the gasket 202 may be related to the strength of the contact force of the contact points P1, P2 at which the contact portion contacts the wall surface of the door side, or the sealing force of the door by the gasket.

Preferably, the supporter 211 partitioning the primary and secondary hollows 205 and 206 is formed between the primary hollow portion 205 and the secondary hollow portion 206. The supporter 211 is designed so that the primary and secondary hollow portions 205 and 206 after the deformation of the contact portion are given elastic restoring force respectively so that the deformation of the hollow portion and the elastic restoration pattern are constantly displayed, . Thereby improving the stability of the contact portion as a whole.

Preferably, the supporter 211 is configured to be positioned between the inner seal portion 207 and the outer seal portion 204. The supporter 211 formed between the inner seal part and the outer seal part thus firmly supports the inner seal part and the outer seal part and allows the inner seal part and the outer seal part to closely contact the door side after deformation due to the pressing force, So as to support the contact portion.

The fixed portion 208 of the body 203 has an inner support portion 210 and an outer support portion 209 which are supported by the cabinet 110. In this case, it is preferable that the inner seal portion 207 is located outside the inner support portion 210. [ The inner side seal part 207 located further outward than the inner side support part 210 forms a close contact point P2 at the point of view or an enlarged area when the contact point P2 is formed with the side of the door 120, It is advantageous to make elastic deformation by the pressing force F1 easily and quickly.

In contrast, when the fixing portion 208 of the body 203 includes the inner support portion 210 and the outer support portion 209 that are supported by the cabinet 110, the outer seal portion 204 is formed by the outer support portion 209, And the center S1 of the light guide plate 203 as a boundary.

The inner seal part 207 and the outer seal part 204 are formed at an obtuse angle of 90 degrees or more with respect to the central axis of the body so as to disperse the stress externally so as to prevent collapse and the interface forms round curvature R1, And breakage.

Also, the inner wall of the primary hollow portion 205 and the secondary hollow portion 206 is formed as a round curved surface having no angled portion bent by a bent angle and having a curvature value of at least 2 degrees. Likewise, the point where the supporters 211 separating the primary hollow portion 205 and the secondary hollow portion 206 meet and merge is also formed in a round curved surface, and the R value is preferably formed to have a curvature value of at least 2 degrees or more .

The operation of the steam oven cabinet gasket according to the embodiment of the present invention will now be described with reference to FIGS. 6 and 7. FIG.

Fig. 6 is a view showing a modified example of the shape of the cabinet gasket according to the present invention, wherein (a) shows a state in which the cabinet gasket is installed. (b) is a state in which the external load of the door is applied in the F1 direction to seal the cabinet gasket. (c) is an example of the stress distribution in the shape deformation due to the door squeeze.

As shown in FIG. 6A, the cabinet gasket 202 is initially installed so that the two contact portions P1 and P2 can contact the inner wall of the door 120, Respectively. Here, the contact portion of P1 is formed by the outer seal portion 204. [

6 (a), when the load F1 pressing the door 120 acts on the cabinet gasket 202, the clearance between the cabinet and the door is not narrowed, but the cabinet gasket 202 Is contracted and deformed, the outer seal part 204 is sealed while forming a tight contact point P1 with the door side. When the door load of the F1 functioning continuously acts, the primary hollow portion 205 is shrunk and deformed to form a tight contact point P2 with the side of the door 120 and sealed.

At this time, the outer seal portion 204 and the inner seal portion 207 forming the close contact points P1 and P2 are divided into the outer seal portion and the inner seal portion without being deviated in either direction when the load F1 of the door acts. As a result, the stress concentration acting on one of the contact portions does not occur.

As shown in FIG. 6C, in the door sealing process, stress is not concentrated on one of the contact portions based on the closed contact points P1 and P2, and stress is applied to the portion P3, which is a boundary portion between the outer seal portion and the inner seal portion, So that the durability is lowered and the sealing force is not abruptly lowered.

Also, even when exposed to the high temperature in the cavity, high temperature stress is not concentrated on either side of the contact portion, so that the durability can be lowered to attenuate the sealing performance or the sealing performance abnormality.

Fig. 7 is a comparative example for explaining a modified example of the cabinet gasket according to the present invention, wherein (a) is a modification of the shape of a conventional cabinet gasket. (b) is a modification of the shape of the cabinet gasket according to the present invention.

As shown in FIG. 7 (a), the conventional oven cabinet gasket 201 has a problem in durability because the contact portion can be broken down in the F2 direction when the door is closed and the door is closed, and the resilient restoring force is structurally weak.

On the contrary, the oven cabinet gasket 202 according to the present invention has a structure in which the pressing force is dispersed in the F3 direction when the door is closed and the door is closed, as shown in FIG. 7 (b), and the contact portion is not collapsed in any one direction. The elastic restoration property is not weakened and the durability is not problematic.

The cabinet gasket of the oven according to the present invention has an advantage of being able to prepare for the decrease in the durability of the gasket through the stress dispersion by transferring the stress concentration portion from the inside to the outside of the cavity through the shape change of the relatively simple gasket, have.

The cabinet gasket of the oven according to the present invention can be widely used as various types of oven cabinet gaskets for door sealing in a steam oven, an electric oven, a gas oven, and an electronic oven.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but it should be understood that the present invention is not limited to the embodiments, but can be modified and modified without departing from the gist of the present invention. And is included in the technical idea of.

100: Oven 110: Cabinet
111: Home 120: Door
200: gasket 202: cabinet gasket
203: body 204: outer seal part
205: primary hollow portion 206: secondary hollow portion
207: inner seal part 208:
209: outer support portion 210: inner support portion
211: Supporter

Claims (8)

A gasket mounted between the oven cabinet and the door to seal the cavity of the oven, the body of the gasket having a contact portion contacting the door of the oven, and a mating portion of the contact portion having a fixing portion fixed to the cabinet, The inner seal portion facing the cavity of the oven and the outer seal facing the outer side of the oven are divided based on the center of the body and the inner seal portion and the outer seal portion are configured to become thicker toward the fixing portion, Wherein the body of the oven cabinet comprises a hollow portion formed between the contact portion and the fixing portion,
Wherein the hollow portion comprises a primary hollow portion formed on the contact portion and a secondary hollow portion formed with respect to the center of the body, and a supporter for partitioning the primary and secondary hollow portions between the primary hollow portion and the secondary hollow portion, / RTI >
Wherein the fixing part of the body includes an inner supporting part and an outer supporting part supported by the cabinet and the outer supporting part is located between the outer supporting part and the center of the gasket body with respect to the inner and outer supporting parts,
Wherein the inner seal portion and the outer seal portion are formed at an obtuse angle of 90 degrees or more with respect to the central axis of the body, the body of the gasket is inclined more toward the inner seal portion than the outer seal portion with respect to the central axis of the body, Extruded, oven cabinet gasket. delete delete delete The method according to claim 1,
Wherein the supporter is located between the inner seal part and the outer seal part. The method according to claim 1,
Wherein the fixing portion of the body is positioned on the inner and outer support portions, and the inner seal portion is positioned outside the inner support portion. delete delete

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