CN205351925U - Refrigerator - Google Patents

Abstract

The utility model discloses a refrigerator is provided with insulated box (21) of foaming and filling thermal insulation material (24) and having preceding opening (21a) between outer container (23) and inner box (22), preceding opening (21a) has the inner box front portion (22a) of the outer container anterior (23a) and inner box (22) of outer container (23). In addition, outer container anterior (23a) has the outer container plane portion (23b) of extending with the opening face of insulated box 's (21) preceding opening (21a) parallelly. It is further, utilize rigid coupling part (28) with the thermal insulation material side rigid coupling of inner box anterior (22a) with outer container plane portion (23b), set for the width direction's that makes rigid coupling part (28) before rigid coupling part (28) the rigid coupling coating scope.

Description

Freezer

Technical field

This utility model relates to the structure of the heat insulating box of freezer.

Background technology

In prior art, in order to simplify the structure of the heat insulating box of freezer, have and utilize bonding agent or binding agent by technology affixed to outer container and interior case.(with reference to such as Patent Document 1)

Fig. 6 is the schematic configuration axonometric chart of the freezer of prior art, and Fig. 7 represents the 7-7 line sectional view of Fig. 6.

As shown in Figure 6, Figure 7, the heat insulating box 2 of freezer 1 is by constituting foam filled for foamed heat-insulating material 5 between outer container 3 and interior case 4.In outer container 3, outer container front flange 3a is turned back to the inside and forms return portion 3b.Additionally, interior case 4 has interior case front flange 4a, utilize affixed dose 6 outer surface by interior case front flange 4a such as bonding agent or affixed dose affixed with the inner surface of the outer container front flange 3a except return portion 3b.

But, in the structure of this existing freezer, by affixed with the inner surface of outer container front flange 3a except return portion 3b for the outer surface of interior case front flange 4a affixed dose 6 affixed before coating scope (L1), applied thickness (T1) indefinite.And, there is the narrow situation of coating scope (L1) and applied thickness (T1) and the technical problem of affixed intensity when little, cannot be guaranteed.

This utility model is about anterior affixed with outer container planar portions of interior case, it is ensured that the affixed intensity of regulation.

Prior art literature

Patent documentation

Patent documentation 1: Japanese Utility Model discloses clear 58-111893 publication

Utility model content

Freezer of the present utility model is provided with by foam filled for heat-barrier material between outer container and interior case and have the heat insulating box in front openings portion, and the interior case that front openings portion has the anterior and interior case of outer container of outer container is anterior.Additionally, outer container front portion includes the outer container planar portions that the opening surface in the front openings portion with heat insulating box extends parallel to, interior case front portion is arranged in than outer container front portion by heat-barrier material side.Further, utilize affixed parts by anterior for interior case affixed with the heat-barrier material side of outer container planar portions, the coating of the width of affixed parts ranges for 8mm～10mm, interior case front portion includes the interior case planar portions extended parallel to outer container planar portions, and the end face of outer container planar portions is arranged near the storeroom side end of interior case planar portions.

Thus, about anterior affixed with outer container planar portions of interior case, it can be ensured that the affixed intensity of regulation.Therefore, heat insulating box can have the rigidity of regulation, it can be ensured that the safety of freezer.

Accompanying drawing explanation

Fig. 1 is the front view of the freezer of the 1st embodiment of the present utility model.

Fig. 2 is the main portion sectional view of the 2-2 line of Fig. 1.

Fig. 3 indicates that the coating scope of the affixed parts of the freezer in the 1st embodiment of the present utility model and based on the graph of a relation of the relation between the affixed intensity of applied thickness.

Fig. 4 is the main portion sectional view of the freezer in the 2nd embodiment of the present utility model.

Fig. 5 is the main portion sectional view of the freezer in the 3rd embodiment of the present utility model.

Fig. 6 is the schematic configuration axonometric chart of existing freezer.

Fig. 7 is the 7-7 line sectional view of Fig. 6.

Description of reference numerals

1 freezer

2,21,101,201 heat insulating box

3,23,103,203 outer container

3a outer container front flange

3b return portion

4, case in 22,102,202

Case front flange in 4a

5 foamed heat-insulating materials

6 affixed doses

20,100,200 freezer main body

21a, 101a, 201a front openings portion

In 22a, 102a, 202a, case is anterior

Case planar portions in 22b, 102b, 202b

Case stage portion in 22c

23a, 103a, 203a outer container is anterior

23b, 103b, 203b outer container planar portions

24,104,204 heat-barrier material

26 cold rooms

27 refrigerating chambers

28,105,205 affixed parts

The convex stage portion of case in 102c

The recessed stage portion of case in 202c

Case recess in 202d

203c outer container rising portions

Detailed description of the invention

Hereinafter, with reference to accompanying drawing, embodiment of the present utility model is illustrated.It addition, this utility model is not limited by this embodiment.

(the 1st embodiment)

Fig. 1 is the front view of the freezer of the 1st embodiment of the present utility model.Fig. 2 is the 2-2 line main portion sectional view of Fig. 1.Fig. 3 indicates that the coating scope of the affixed parts of the freezer of the 1st embodiment of the present utility model and based on the graph of a relation of the relation between the affixed intensity of applied thickness.

In Fig. 1, Fig. 2, the heat insulating box 21 of freezer main body 20 is formed by thermal wall, and this thermal wall is formed by foam filled heat-barrier material 24 between the interior case 22 such as ABS sheet carrying out the vacuum forming of formpiston and formed and the outer container 23 formed by metal magnetic bodies such as steel plates.Heat insulating box 21 has a front openings portion 21a, and has and formed cold room 26 on top by what partition wall about 25 separated and formed the refrigerating chamber 27 in bottom and multiple storeroom.

Heat insulating box 21 has the kind of refrigeration cycle (not shown) in the running freezer main body 20 cooled down, and the preservation design temperature of cold room 26 is set as refrigerated storage temperature territory, and the preservation design temperature of refrigerating chamber 27 is set as cryogenic temperature territory.

Additionally, the front surface at each storeroom has refrigerating-chamber door 26a, refrigerating chamber door 27a, this refrigerating-chamber door 26a, refrigerating chamber door 27a link with heat insulating box 21 by covering front openings portion 21a when complete closure, form insulated space respectively.Front openings portion 21a includes interior case front portion 22a and outer container front portion 23a.

The appearance side bending integratedly of outer container front portion 23a and the heat insulating box 21 formed by outer container 23 is formed, having the outer container planar portions 23b that the opening surface of the front openings portion 21a with freezer main body 20 extends parallel to, the end face of outer container planar portions 23b is arranged in each storeroom space.It addition, the outer container front portion 23a of the freezer in present embodiment is only made up of outer container planar portions 23b.

Interior case front portion 22a is arranged in heat-barrier material 24 side compared with the 23a of outer container front portion.

Interior case front portion 22a is one-body molded with the top and bottom of interior case 22 and two sides and is formed, and has the interior case planar portions 22b extended parallel to outer container planar portions 23b and the interior case stage portion 22c linked in the interior case planar portions 22b top and bottom with interior case 22 and two sides.That is, interior case stage portion 22c is step-like formation from the end of the storeroom side of interior case planar portions 22b to the depth direction of freezer main body 20.

Additionally, interior case planar portions 22b by bonding agent at the complete cycle of front openings portion 21a or employs the affixed parts 28 of the binding agents such as double faced adhesive tape and is fixed in heat-barrier material 24 side of outer container planar portions 23b.

Now, the end face of outer container planar portions 23b is positioned at roughly the same position or the position that the storeroom side end than interior case planar portions 22b is somewhat in the outer part with the storeroom side end of interior case planar portions 22b.Therefore, it does not have be configured to not expose at interior case stage portion 22c by the outer container planar portions 23b that affixed parts 28 are affixed.

Additionally, the coating scope (L2) of the width of affixed parts before making affixed parts 28 affixed is set as that 8mm, applied thickness (T2) are set as 0.2mm.

To freezer as constructed as above, its action of following description, effect.

First, at the complete cycle of front openings portion 21a, utilizing affixed parts 28 by affixed to interior case front portion 22a and outer container front portion 23a, even if therefore foam filled heat-barrier material 24, heat-barrier material 24 is without leakage.

When affixed, in order to make interior case planar portions 22b and outer container planar portions 23b stably affixed, therefore, to assure that respective flatness.

Outer container 23 utilizes steel plate, thereby, it is ensured that the flatness of outer container planar portions 23b is easier.

On the other hand, the vacuum forming of formpiston the interior case 22 formed, in the speciality of molding, fluctuation when interior case planar portions 22b has the tendency becoming the thinnest, interior case planar portions 22b to be susceptible to molding, warpage.

But, in the present embodiment, by arranging interior case stage portion 22c, make the contraction in length of interior case planar portions 22b, become fluctuation, warpage are less likely to occur.

Additionally, by arranging interior case stage portion 22c, 2 squares in the cross section of interior case front portion 22a increase, and the rigidity of interior case front portion 22a improves.It is as a result, it is possible to prevent the fluctuation of interior case front portion 22a, warpage further, and makes the interior case front portion 22a based on affixed parts 28 and the affixed of outer container planar portions 23b become easy.

Additionally, the end face of outer container planar portions 23b not configure in the way of interior case stage portion 22c exposes, therefore user is not easy to touch the end face of outer container planar portions 23b.

As it has been described above, in the present embodiment, even if not using complicated mold structure and equipment to carry out the molding of interior case 22, it is also possible to guarantee the flatness of interior case planar portions 22b, it is possible to the appearance design of storehouse main body 20 that stably Keep cool.

Additionally, interior case planar portions 22b and outer container planar portions 23b's becomes easy based on the affixed of affixed parts 28, it is further able to improve the stability of appearance design.

Further, owing to the probability that user touches the end face of outer container planar portions 23b can be reduced, it is possible to guarantee the safety of freezer main body 20.

Fig. 3 is coating scope and the applied thickness that inventor changes the affixed parts of various bonding agent and double faced adhesive tape etc., verifies the result that affixed intensity obtains.

Accordingly, first known coating scope (L2) from 8mm be altered to 5mm time the decline degree of affixed intensity big.

Even if additionally, expand coating scope (L2) to 15mm, without the affixed intensity being close to 2 times when obtaining coating scope (L2) for 8mm, it is taken as that coating scope (L2) is about 8mm, is sufficient for up to 10mm.

The rigidity of heat insulating box 21 is had a significant impact by the affixed intensity based on affixed parts 28 of interior case front portion 22a and outer container planar portions 23b, by having the affixed intensity of regulation, it can be ensured that the safety of freezer main body 20.

On the contrary, although the coating scope limiting affixed parts 28 exists the probability of affixed decrease in strength, but certainly can suppress the fee of material of affixed parts 28 and apply the increase in man-hour.And, reduce coating scope (L2) as far as possible and can shorten the length of outer container planar portions 23b, freezer main body 20 can be made to seem slender, it may be said that preferred from the viewpoint of the appearance design of freezer main body 20.

Therefore, coating scope (L2) can be described as utilizing affixed parts 28 by very important parameter time affixed to interior case front portion 22a and outer container planar portions 23b.

On the other hand, it is known that when applied thickness (T2) becomes to be thinner than 0.2mm, affixed intensity dramatic drop-off.

It is believed that its main cause is: the warpage or small concavo-convex produced during due to interior case front portion 22a molding, being not readily available enough affixed areas when applied thickness (T2) is thin, the deviation of further affixed intensity becomes big.

On the other hand, even if thickening, affixed intensity does not also increase, therefore to suppress the fee of material of affixed parts 28 and apply the increase in man-hour, as long as considering the thinnest selected affixed parts 28 on the basis of deviation of affixed intensity.

In the present embodiment, owing to namely order applied thickness (T2) is more than 0.6mm, affixed intensity is without significantly changing, and therefore the upper limit of applied thickness (T2) is preferably 0.6mm.Additionally, the result according to Fig. 3, in order to ensure affixed intensity, it is preferable that the lower limit making applied thickness (T2) is 0.2mm.

(the 2nd embodiment)

Fig. 4 represents the 2-2 line main portion sectional view of Fig. 1 of the freezer in the 2nd embodiment of the present utility model.It addition, to the structure mark same reference numerals identical with the 1st embodiment of the present utility model, omit detailed description.

In the diagram, the heat insulating box 101 of freezer main body 100 has the vacuum forming that such as ABS sheet carries out formpiston and the interior case 102 that formed and the outer container 103 formed by the metal magnetic body of steel plate etc..And, be formed with foam filled heat-barrier material between interior case 102 and outer container 103 and formed 104 thermal wall, heat insulating box 101 has front openings portion 101a at front surface.

Front openings portion 101a has interior case front portion 102a and outer container front portion 103a.

Outer container front portion 103a and the outer container 103 bending integratedly formation of the appearance side as heat insulating box 101, have the outer container planar portions 103b that the opening surface of the front openings portion 101a with heat insulating box 101 extends parallel to.And, the end face of this outer container planar portions 103b is arranged in each storeroom space.

Interior case front portion 102a is arranged in heat-barrier material 104 side compared with the 103a of outer container front portion.

Interior case front portion 102a is one-body molded with the top and bottom of interior case 102 and two sides and is formed, and has the interior case planar portions 102b extended parallel to outer container planar portions 103b.Further, interior case front portion 102a has the convex stage portion 102c of interior case linked in the interior case planar portions 102b top and bottom with interior case 102 and two sides.

The convex stage portion 102c of interior case is from the end of the storeroom side of interior case planar portions 102b first to the front of freezer main body 100 to prominent, identical with the end face of outer container planar portions 103b or prominent slightly towards front, after extending, link with the top and bottom of interior case 102 and two sides storeroom side plane shape on the opening surface direction of freezer main body 100.

Additionally, by the affixed parts 105 that make use of the binding agent such as bonding agent or double faced adhesive tape, heat-barrier material 104 side of interior case planar portions 102b and outer container planar portions 103b is affixed at the complete cycle of front openings portion 101a.

Now, the end face of outer container planar portions 103b is close with the convex stage portion 102c of interior case, and end face configures in the way of user be can't see.

Additionally, the coating scope (L3) by the width of the affixed parts 105 before affixed for affixed parts 105 is set as 8mm～10mm, applied thickness (T3) is set as 0.2mm～0.6mm.

To freezer as constructed as above, its action of following description, effect.

First, utilizing affixed parts 105 by affixed at the complete cycle of front openings portion 101a to interior case front portion 102a and outer container front portion 103a, even if therefore foam filled heat-barrier material 104, heat-barrier material 104 is without leakage.

Additionally, in the present embodiment, by arranging the convex stage portion 102c of interior case, the length making interior case planar portions 102b is Min., it is not easy to fluctuate, warpage.

Additionally, by arranging the convex stage portion 102c of interior case, 2 squares in the cross section of interior case front portion 102a increase, and the rigidity of interior case front portion 102a improves, therefore prevent fluctuation, warpage further, make to become easy based on the affixed of affixed parts 105.

Additionally, the end face of outer container planar portions 103b not configure in the way of the convex stage portion 102c of interior case exposes, therefore user not can be appreciated that the end face of outer container planar portions 103b or touches end face.

As described above, in the present embodiment, even if not using complicated mold structure or equipment to carry out the molding of interior case 102, it is also possible to guarantee the flatness of interior case planar portions 102b, it is possible to the appearance design of storehouse main body 100 that stably Keep cool.

Additionally, interior case planar portions 102b and outer container planar portions 103b's becomes easy based on the affixed of affixed parts 105, further, the stability of appearance design increases.

Furthermore it is possible to prevent user injured because of the end face of outer container planar portions 103b, it can be ensured that the safety of freezer main body 100.

Further, because user can't see the end face of outer container planar portions 103b, even if so the materials'use steel plate of outer container 103, it is also possible to prevent the decline of the appearance design of the freezer main body 100 caused by the rust of outer container planar portions 103b.

Additionally, affixed parts 105 make consumption and embodiment 1 identical, also ensure that the rigidity of heat insulating box 101 and the safety of freezer main body 100, and suppress the fee of material of affixed parts 105 and coating cost to increase.

(the 3rd embodiment 3)

Fig. 5 is the main portion sectional view of the freezer in the 3rd embodiment of the present utility model.It addition, the accompanying drawing labelling that the structure mark identical with the 1st embodiment of the present utility model or the 2nd embodiment is identical, omit the description.

In Figure 5, the heat insulating box 201 of freezer main body 200 has the vacuum forming that such as ABS sheet carries out formpiston and the interior case 202 that formed and the outer container 203 formed by metal magnetic bodies such as steel plates.Further, being formed with between interior case 202 and outer container 203 foam filled heat-barrier material 204 and the thermal wall that formed, heat insulating box 201 has front openings portion 201a at front surface.

Front openings portion 201a has interior case front portion 202a and outer container front portion 203a.

Outer container front portion 203a and the outer container 203 bending integratedly formation of the appearance side as heat insulating box 201, have the outer container planar portions 203b that the opening surface with heat insulating box 201 extends parallel to.And, there is the storeroom side end from outer container planar portions 203b and erect, to the depth side of freezer main body 200 and to heat-barrier material 204 side to the outer container rising portions 203c being crimped (curling) processing and formed.And, the end face of this outer container rising portions 203c is arranged in each storeroom space.

Interior case front portion 202a is arranged in heat-barrier material 204 side compared with the 203a of outer container front portion.

Interior case front portion 202a is one-body molded with the top and bottom of interior case 202 and two sides and is formed, and has the interior case planar portions 202b extended parallel to outer container planar portions 203b and the recessed stage portion 202c of interior case linked in the interior case planar portions 202b top and bottom with interior case 202 and two sides.Further, the length direction that interior case front portion 202a has with interior case planar portions 202b extends parallel to, the interior case recess 202d from interior case planar portions 202b to heat-barrier material 204 lateral process.

The recessed stage portion 202c of interior case is step-like formation from the end of the storeroom side of interior case planar portions 202b to the depth direction of freezer main body 200.

Additionally, by the affixed parts 205 employing the binding agent such as bonding agent or double faced adhesive tape, heat-barrier material 204 side of interior case planar portions 202b and outer container planar portions 203b is affixed at the complete cycle of front openings portion 201a.

Now, outer container rising portions 203c is incorporated in the recessed stage portion 202c of interior case, and the end face of outer container rising portions 203c configures in the way of user be can't see.

Additionally, in present embodiment make affixed parts 205 affixed before the coating scope of width of affixed parts 205 need to consider that interior case recess 202d does not contact with outer container planar portions 203b.Then, it is necessary to the scope (L4+L5) contacted with outer container planar portions 203b by interior case planar portions 202b is set in 8mm～10mm, and applied thickness (T3) is set in 0.2mm～0.6mm.

To freezer as constructed as above, its action of following description, effect.

First, utilizing affixed parts 205 by affixed at the complete cycle of front openings portion 201a to interior case front portion 202a and outer container front portion 203a, even if therefore foam filled heat-barrier material 204, heat-barrier material 204 is without leakage.

Additionally, in the present embodiment, by arranging the recessed stage portion 202c of interior case, the length making interior case planar portions 202b is Min., it is not easy to produce fluctuation or warpage.

Additionally, by arranging the recessed stage portion 202c of interior case, 2 squares in the cross section of interior case front portion 202a increase, and the rigidity of interior case front portion 202a improves, and prevent fluctuation or warpage further, make to become easy based on the affixed of affixed parts 205.

Further, by arranging interior case recess 202d, 2 squares in the cross section of interior case planar portions 202b increase, more difficult fluctuation or the warpage of occurring, and, make to become easy based on the affixed of affixed parts 205.

Additionally, by having outer container rising portions 203c, 2 squares in the cross section of outer container front portion 203a increase, and the rigidity of outer container front portion 203a improves, and therefore becomes easy further based on the affixed of affixed parts 205.

Additionally, the end face of outer container planar portions 203b is accommodated in the recessed stage portion 202c of interior case, user not can be appreciated that the end face of outer container planar portions 203b or touches end face, and, the goodlooking and interior case front portion 202a and outer container front portion 203a of configuration compactly.

As described above, in the present embodiment, even if not using complicated mold structure and equipment to carry out the molding of interior case 202, it is also possible to guarantee the flatness of interior case planar portions 202b, it is possible to the appearance design of storehouse main body 200 that stably Keep cool.

Additionally, interior case planar portions 202b and outer container planar portions 203b's becomes easy based on the affixed of affixed parts 205, the stability of further appearance design increases.

Additionally, due to it is injured because of the end face of outer container rising portions 203c to be prevented from user, therefore, it is possible to guarantee the safety of freezer main body 200.

Further, owing to user can't see the end face of outer container rising portions 203c, therefore, though the materials'use steel plate of outer container 203, it is also possible to prevent the reduction of the appearance design of the freezer main body 200 caused by the rust of outer container rising portions 203c.

In addition, the coating scope of affixed parts 205 is identical with the 1st embodiment of the present utility model with the consideration of applied thickness, also ensure that the rigidity of heat insulating box 201 and the safety of freezer main body 200, and suppress the fee of material of affixed parts 205 and coating cost to increase.

As described above, freezer of the present utility model is arranged between outer container and interior case foam filled heat-barrier material, has the heat insulating box in front openings portion, and the interior case that front openings portion has the anterior and interior case of outer container of outer container is anterior.Additionally, outer container front portion includes the outer container planar portions that the opening surface in the front openings portion with heat insulating box extends parallel to.Further, utilize affixed parts by anterior for interior case affixed with the heat-barrier material side of outer container planar portions, make the coating of the width of the affixed parts before making affixed parts affixed range for 8mm～10mm.

Thereby, it is possible to have the affixed intensity of the anterior regulation with outer container planar portions of interior case, be there is the rigidity of regulation by heat insulating box, it can be ensured that the safety of freezer.And, the consumption that makes not increasing affixed parts in vain ensures that the affixed intensity of the anterior regulation with outer container planar portions of interior case, therefore, it is possible to suppress the fee of material of affixed parts and apply the increase in man-hour.

Additionally, in utility model, the applied thickness making the affixed parts before making affixed parts affixed is 0.2mm～0.6mm.

Thereby, it is possible to make interior case anterior and stably have the affixed intensity of regulation between outer container planar portions further, the safety of freezer increases.Further, it is possible to suppress the fee of material of affixed parts and apply the increase in man-hour.

Industry utilizes probability

As it has been described above, freezer of the present utility model can suppress making consumption and applying the increase in man-hour of the interior case affixed parts with outer container, and guarantee the rigidity of heat insulating box, therefore, it is possible to be applicable to the various heat insulating boxes with interior case and outer container.

Claims (4)

1. a freezer, it is characterised in that:

It is provided with between outer container and interior case the foam filled heat insulating box having heat-barrier material, this heat insulating box has front openings portion, the interior case of the anterior and described interior case of the outer container that described front openings portion has described outer container is anterior, described outer container front portion has the outer container planar portions that the opening surface in the described front openings portion with described heat insulating box extends parallel to, described interior case front portion is arranged in than described outer container front portion by described heat-barrier material side, utilize affixed parts by affixed for the described heat-barrier material side of anterior for described interior case and described outer container planar portions, the coating of the width of described affixed parts ranges for 8mm～10mm, described interior case front portion includes the interior case planar portions extended parallel to described outer container planar portions, the end face of described outer container planar portions is arranged near the storeroom side end of described interior case planar portions.

2. freezer as claimed in claim 1, it is characterised in that:

The applied thickness of described affixed parts is 0.2mm～0.6mm.

3. freezer as claimed in claim 1 or 2, it is characterised in that:

Described interior case front portion includes:

Forwards highlight from the end of the storeroom side of described interior case planar portions, and by the convex stage portion of interior case of described interior case planar portions with the link of described interior case.

4. freezer as claimed in claim 1 or 2, it is characterised in that:

Described interior case front portion includes:

The interior case planar portions extended parallel to described outer container planar portions；With

It is step-like formation from the end of the storeroom side of described interior case planar portions to depth direction, and by the recessed stage portion of interior case that described interior case planar portions links with described interior case,

Described outer container front portion includes:

The outer container planar portions extended parallel to the described front openings portion of described heat insulating box；With

Erect to depth direction from the end of the described storeroom side of described outer container planar portions, and be incorporated in the outer container rising portions through stample fiber of the described recessed stage portion of interior case.