JPH11311477A - Door-sealing structure of cooling storehouse - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the sealing property of a packing. SOLUTION: The surface of a heater plate 40 becomes a contacting surface 41 where a contacting part 16 of a packing 15 comes into contact. A curved surface part 43 where the center of a width is inflated toward a surface side is formed on the contacting surface 41. Recessed grooves 20A-20C are formed at the center and both sides of the width at the contacting part 16 of the packing, and at the same time raised parts 23A and 23B are formed at both the ends. A partition wall 21 is formed at the position between the recessed grooves 20A-20C. The packing 15 is strongly glued since the part of the central recessed groove 20B is pressed first, contacting parts 25A and 25B at both sides are subjected to a bending force toward the side of the curved surface part 43, and the restoration elastic force of the partition wall 21 is also added. Further, both the ends of the packing 15 are subjected to the bending force toward the side of the curved surface part 43 and the raised parts 23A and 23B are pressed. The contacting part 16 of the packing 15 is glued so that the contacting surface 41 of the heat plate 40 is enclosed, thus improving a sealing force.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sealing structure for a door in a cooling storage.

[0002]

2. Description of the Related Art Conventionally, as a door seal structure of this kind,
The one shown in FIG. 7 is known. That is, a door c is swingably opened / closed at an entrance / exit b opened at the front surface of the main body a of the cooling storage, and a packing e is mounted on an inner surface of a flange d formed at a peripheral edge of the door c. On the other hand, a heater plate g equipped with a heater f on the back side is mounted on the edge of the entrance b, and when the door c is closed, the packing e is elastically deformed and adheres to the heater plate g. The seal is to be taken. Further, freezing is prevented by heating the packing e by the heater f. Here, in the conventional device, a protrusion h is formed on the surface of the heater plate g, and this is made to bite into the surface of the packing e in order to further enhance the sealing property.

[0003]

However, in the conventional structure, when the inside of the refrigerator is cooled to a low temperature of, for example, -30.degree. C. or less, the packing e is hardened by the cold heat.
It contracts, and a gap is formed in the part where the protrusion h bites,
There was a possibility that cold air might leak out of the refrigerator. The mounting structure of the heater f and the heater plate g is as shown in FIG. 8 in detail. That is, a mounting groove i is formed at the edge of the entrance b, and two housing grooves j are formed on the bottom surface thereof. After the heater f is housed in the housing groove j, the heater plate g is attached to the mounting groove i. Fitted to the heater f
Is covered. In this structure, the diameter of the heater f varies, and for example, if the diameter of the heater f is small, heat cannot be transmitted well because the heater f cannot be in close contact with the back surface of the heater plate g, and conversely, the diameter of the heater f is large. In an extreme case, the heater plate g may be detached. Furthermore, the capacity of the heater f increases as the inside of the refrigerator is cooled to a lower temperature. However, in consideration of the case where the door c is opened and the heater plate g is exposed, the heater plate g Measures to prevent heating were also required.

[0004] The present invention has been completed based on the above circumstances, and an object thereof is to improve the sealing property of a packing. Another object is to increase the adhesion of the heater to the heater plate. Yet another object is to prevent overheating of the heater plate.

[0005]

According to the first aspect of the present invention, there is provided a door seal structure for a cooling storage, wherein a door is provided at an entrance and exit opening to the storage main body so as to be openable and closable, and is provided at a peripheral edge of the door. The seal of the packing comes into contact with the rim of the entrance, and the surface of the entrance at which the packing comes into contact has a curved surface shape which gradually expands toward the center in the width direction, and the contact part of the packing It has a feature in that a concave groove is formed on the surface along the length direction. According to a second aspect of the present invention, in the first aspect of the present invention, the gap between the contact portion and the back surface of the packing is displaced from the concave groove and from the center in the width direction of the contact portion. The feature is that a partition wall is formed at a position. A third aspect of the present invention is characterized in that, in the first or second aspect of the present invention, raised portions are formed at both ends in the width direction on the surface of the contact portion of the packing.

A fourth aspect of the present invention is characterized in that, in the first, second or third aspect of the present invention, raised portions are formed at both ends in the width direction on the surface of the contact portion of the packing. Having. The invention according to claim 5 is characterized in that, in the invention according to claim 4, the heater plate is mounted in a state in which a part thereof is in contact with a panel on the outside of the storage constituting the storage main body.

[0007]

According to the first aspect of the present invention, when the door is closed, the bulging curved contact surface on the entrance / exit side is pressed against the edge of the groove provided in the contact portion of the packing. As a result, a bending force in the direction approaching the contact surface acts on the outer portion of the concave groove, whereby the contact portion of the packing comes into close contact with the curved contact surface so as to improve sealing performance. Is done. <Invention of Claim 2> The partition wall functions to further press the portion against the contact surface without hindering the bending force from acting on the portion outside the concave groove, thereby further improving the sealing performance. Can be. <Invention of claim 3> By providing the raised portions at both ends, the contact portion of the packing can be brought into contact so as to wrap the contact surface over the entire width, and the air chamber is provided between the packing and the contact surface. Is constituted, and the heat insulation effect inside and outside can be improved.

<Embodiment of Claim 4> Even if the diameter of the heater varies, the heater can always be arranged in close contact with the back surface of the heater plate, and the heat of the heater can be efficiently applied to the heater plate and, consequently, the packing. Can be transmitted. <Invention of Claim 5> A part of the heat of the heater plate is released toward the panel outside the refrigerator, and it is possible to prevent the heater plate from being excessively heated.

[0009]

Embodiments of the present invention will be described below with reference to the accompanying drawings. <First Embodiment> A first embodiment of the present invention will be described with reference to FIGS. 1 and FIG.
Is a freezer body composed of a heat insulating box, which is formed in a rectangular box shape with an entrance 2 opened at the front. More specifically, an inner box 4 also opened in the front, inside an outer box 3 opened in the front.
Are stored at an interval, and the space between the opening edges of both boxes 3 and 4 is closed with a frame 5 to form an entrance 2, and a heat insulating material 6 such as urethane foam resin is filled between the boxes 3 and 4. It is formed. A door 7 is provided at the entrance 2 of the freezer body 1.
Are mounted so as to be swingably opened and closed by a hinge 8. The door 7 is connected to the door frame 11 between the opening portions of the inner panel 9 and the outer panel 10, so that the flange portion 1 is formed on the outer peripheral side of the thick body portion 12 as a whole.
3 is provided over the entire circumference, and has a heat insulating structure in which a heat insulating material 6 such as urethane foam resin is filled inside.

[0010] A packing 15 is interposed between the entrance 2 and the door 7 of the freezer main body 1. As shown in FIG. 3, the packing 15 is formed in a hollow shape having a substantially rectangular cross section. The upper surface of the packing 15 is a contact portion 16 and the lower surface 17 is provided with a locking portion 18. Is protruding. On the surface of the abutting portion 16 of the packing 15, concave grooves 20A to 20C having a triangular cross section are formed along the length direction at three convenient locations on the center in the width direction and on both sides thereof. Inside the packing 15, each groove 20 </ b> A
The partition wall 21 is formed so as to connect the contact portion 16 and the back surface portion 17 at a position between 20C, and three air chambers 22 are conveniently formed. In addition, raised portions 23A and 23B are formed at both ends of the surface of the contact portion 16 along the length direction. On the other hand, a fin portion 24 having a bifurcated tip extends from the side surface of the raised portion 23A (inside the refrigerator).

The flange portion 13 of the door frame 11
A packing mounting groove 26 is formed in a portion constituting the inner surface of the, and a locking groove 27 is further formed on the bottom surface thereof.
A door cushion 28 is attached to a corner where the side surface of the main body 12 and the inner surface of the flange 13 are connected. And the packing 15 engages the locking portion 18 with the locking groove 27.
The contact portion 16 of the packing 15 is slightly projected from the inner surface of the flange portion 13 at this time, and the fin portion 24 is inserted into the door cushion 2.
8 and is in contact with the side surface of the main body 12.
On the other hand, on the entrance 2 side, the surface constituting the front edge of the entrance 2 of the frame 5 is the mounting surface 31 of the heater plate 40, and as shown in FIG. Is provided with a step 50. A heater mounting groove 32 is formed in the mounting surface 31, and the heater mounting groove 32 has a cross-sectional shape in which an entrance 33 is narrowed and a rear side is widened. A heater 30 for preventing freezing and a heater cushion 35 (described later) are accommodated in the heater mounting groove 32, and the heater plate 40 is fitted into the heater mounting groove 32 and mounted on the mounting surface 31. .

The heater plate 40 is formed in the cross-sectional shape shown in FIG. 4, and the front side (lower side in FIG. 4) is a contact surface 41 with which the contact portion 16 of the packing 15 comes into contact. At the same time, a pair of insertion legs 42 are formed at a predetermined interval on the back side. The contact surface 41 is formed in a curved shape gradually bulging toward the center position of the width region where the contact portion 16 of the packing 15 abuts, and both outer surfaces are flat surfaces. The raised portions 23A and 23B of the packing 15 are set so as to hit both ends of the protruding curved surface portion 43. Further, one end side (inside of the refrigerator) in the width direction of the heater plate 40 is an inclined surface 5A formed at a corner of the frame 5.
(FIG. 1) is formed obliquely so as to be continuous with FIG.
Are formed.

The above-described heater cushion 35 is formed of a material having excellent heat resistance and elasticity, such as silicon rubber, and as shown in FIG. The shape is such that a narrow portion 37 is formed at the center, and the entire thickness is equal to the depth of the heater mounting groove 32. An accommodation groove 38 for accommodating the heater 30 is formed at the center of the surface of the narrow portion 37, and the depth thereof is set slightly smaller than the diameter of the heater 30. A relief recess 39 is provided at the center of the back surface of the wide portion 36.
Are formed.

The assembling procedure is as follows. First, the heater cushion 35 is accommodated in the heater mounting groove 32. At this time, the insertion leg 4 of the heater plate 40 is provided between the heater cushion 35 and the inner surface of the heater mounting groove 32.
2, and the surface of the narrow portion 37 of the heater cushion 35 is flush with the entrance 33 of the heater mounting groove 32. Next, the heater 30 is housed in the housing groove 38 of the heater cushion 35, and the heater 30 is in a natural state.
Are protruded forward of the mounting surface 31, that is, a state in which a press allowance is provided. Finally, heater plate 4
0 is attached. In this case, both the insertion legs 42 are inserted into the entrance 33 and are engaged with the side edges on the back side thereof so that the insertion legs 42 are fitted in a retaining state. Along with this, the portion of the heater cushion 35 where the accommodation groove 38 is provided is released, and the heater 30 is pushed in while being resiliently deformed and released to the concave portion 39 side. Held in state.
The extension 44 on the outside of the refrigerator of the heater plate 40 projects so as to cover the front of the opening edge of the outer box 3 constituting the freezer main body 1. The extension 44 of the heater plate 40
And a caulking 46 made of silicon rubber or the like is applied to the gap between the outer case 3 and the outer box 3.

The present embodiment has the above-described structure,
Subsequently, the operation will be described. Door 7 from the state shown in FIG.
Is closed, the contact portion 16 of the packing 15 is brought into contact with the contact surface 41 of the heater plate 40 as shown in FIG. The operation at this time will be described with reference to FIG. First, the vicinity of the central groove 20 </ b> B in the contact portion 16 of the packing 15 is pressed against the most bulged portion of the curved surface portion 43 of the heater plate 40, and the central portion of the contact portion 16 bends the partition wall 21. Pushed. At the same time, when both edges of the central groove 20B are pressed from the heater plate 40, the contact portions 25A and 25B on both sides of the groove 20B receive a bending force in the direction approaching the curved surface portion 43, and the partition wall 21 is pressed.
The contact portions 25A and 25B receive the restoring elasticity of
Pressed on 3. When the packing 15 further approaches the heater plate 40 side, the inner edges of the concave grooves 20A at both ends are pressed from the heater plate 40 and receive a pressing force directed toward the center side of the packing 15.
The raised portions 23A, 23B at both ends of 5 receive a bending force in a direction approaching the curved surface portion 43, and the raised portions 23A, 23B are pressed against both ends of the curved surface portion 43. This allows the packing 15
The contact portion 16 is closely attached so as to surround the contact surface 41 of the heater plate 40. At this time, the central groove 20B
, The raised portions 23A, from the concave grooves 20A, 20C on both sides.
An air chamber 48 is formed by the space up to 23B.

When the door 7 is closed, the door cushion 28 presses the base end of the fin portion 24 of the packing 15 against the inner end of the heater plate 40, and the forked tip comes into close contact with the side surface of the main body 12. I do. Thereby, packing 1
The cold air in the refrigerator is prevented from directly touching the abutment portion 16 of 5, and an air chamber 49 is formed between the fin portion 24 and the inner panel 9 to exhibit a heat insulating function. On the other hand, since the heater 30 is elastically pressed against the back surface of the heater plate 40 via the heater cushion 35, the heat of the heater 30 is efficiently transmitted to the heater plate 40 and the packing 15. Further, the extension 44 on the outside of the refrigerator of the heater plate 40 is connected to the outer box 3 of the freezer main body 1 via the caulking 46.
And the excess heat of the heater plate 40 is released to the outer case 3 side.

As described above, according to the present embodiment,
The following advantages can be obtained. The contact portion 16 of the packing 15 is tightly fitted over a wide area so as to wrap the contact surface 41 of the heater plate 40, and the contact portions 25A and 25B are strongly pressed by the restoring elasticity of the partition wall 21, so that the sealing property is improved. Can be improved. The contact portion 16 of the packing 15 is hardly cooled by cold air in the refrigerator due to the air chamber 49 formed by the fin portion 24 and the like, and the heater plate 40 is provided with a conventional biting projection. There is no packing 1
5 can be prevented from being cut, and its durability can be improved. Further, since three air chambers 48 are formed between the contact portion 16 of the packing 15 and the heater plate 40 and function to insulate the inside and outside of the packing 15, the three air chambers 48 are combined with the air chamber 22 in the packing 15. This is effective for reducing heat loss in the refrigerator.

The heater 30 includes the heater cushion 3.
5, the heater 30 is pressed against the back surface of the heater plate 40, and the heater 30 is held in a state in which the heater 30 is in close contact with the back surface of the heater plate 40 without exerting an excessive force to float the heater plate 40. In addition, the heat of the heater 30 can be efficiently transmitted to the heater plate 40 and the packing 15, and the packing 15 can be prevented from freezing. On the other hand, the extension 44 on the outer side of the refrigerator of the heater plate 40 is brought into contact with the opening edge of the outer box 3 of the freezer main body 1 via the caulking 46 so that excess heat of the heater plate 40 is released to the outer box 3 side. , It is convenient to handle when the door 7 is opened. Further, even if cold air leaks from the packing 15, the outer box 3 is in a warmed state.
Dew is less likely to occur.

<Second Embodiment> FIG. 6 shows a second embodiment of the present invention. In the second embodiment, the heater plate 4
The structure of OA has been changed. That is, on the back surface of the outer end of the heater plate 40A, the close contact portion 5 is filled to fill the step 50 between the mounting surface 31 and the outer box 3.
1 is formed to protrude. The other structure is the same as that of the first embodiment, and the portions having the same function are denoted by the same reference numerals, and the duplicate description will be omitted.

In the second embodiment, the heater plate 4
The close contact portion 51 provided at the outer end of the container of 0A directly adheres to the outer box 3, so that excess heat of the heater plate 40A is released to the outer box 3 side. In addition to the advantages of the first embodiment, there is obtained an advantage that the heater plate 40A can be positioned by using the contact portion 51 and the step 50, and that coking is not required and workability can be improved.

<Other Embodiments> The present invention is not limited to the embodiments described above with reference to the drawings. For example, the following embodiments are also included in the technical scope of the present invention. In addition, various changes can be made without departing from the scope of the invention. (1) The seal structure according to the present invention is more effective as the temperature inside the refrigerator is lower, such as a freezer, but can be similarly applied to a door seal structure of a cooling storage in general.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a door seal structure according to a first embodiment of the present invention.

FIG. 2 is a cross-sectional view when the door is opened.

FIG. 3 is a sectional view of a packing.

FIG. 4 is a sectional view of a heater plate.

FIG. 5 is an enlarged sectional view showing a seal portion in detail.

FIG. 6 is an enlarged sectional view of a seal structure according to a second embodiment.

FIG. 7 is a sectional view of a conventional door seal structure.

FIG. 8 is an enlarged sectional view showing a mounting portion of the heater.

[Explanation of symbols]

1 Freezer body 2 Doorway 3 Outer box 7 Door 1
5 Packing 16 Contact part 17 Back part 20A-
20C ... concave groove 21 ... partition wall 23A, 23B ... raised part 25A, 25B ... contact part 30 ... heater 32 ... heater mounting groove 35 ... heater cushion 40 ... heater plate 41 ... contact surface 43 ... curved surface part 44 ... extension part 4
6 ... Caulking 40A ... Heater plate 51 ... Close contact

Claims (5)

[Claims] A door is provided at an entrance opened to a storage main body so as to be openable and closable, and a hollow packing mounted on a peripheral edge of the door abuts against an edge of the entrance to seal the door. The surface at which the packing abuts at the entrance / exit has a curved surface shape gradually bulging toward the center in the width direction, while a groove along the length direction is formed on the surface of the abutting portion of the packing. The door storage structure of the cooling storage. 2. A partition wall is formed between the contact portion and the back surface of the packing at a position displaced from the groove and at a position displaced from the center in the width direction of the contact portion. The door seal structure of a cooling storage according to claim 1, wherein: 3. The door seal structure for a cooling storage according to claim 1, wherein raised portions are formed at both ends in the width direction on the surface of the contact portion of the packing. 4. A mounting groove for mounting a heater is formed at an edge of the entrance, and a heater plate for covering the mounting groove is provided, and a surface of the heater plate is a surface with which the packing comes into contact. And in the mounting groove,
4. A door seal structure for a cooling storage according to claim 1, wherein a cushion for elastically pressing the heater on the back surface of the heater plate is mounted. 5. The door seal structure for a cooling storage according to claim 4, wherein the heater plate is mounted in a state where a part thereof is in contact with a panel outside the storage constituting the storage main body.