CN104344624A - Soft-freezing chamber of refrigerating plant and refrigerating plant with soft-freezing chamber - Google Patents

Abstract

The invention discloses a soft-freezing chamber of a refrigerating plant. The soft-freezing chamber comprises a liner and an evaporator matched on the liner, and is characterized in that the liner comprises a top wall, a bottom wall, a left side wall, a right side wall, a rear wall and a tilted wall at least connected to one of the top wall, the left side wall, the right side wall and the rear wall, and the evaporator is arranged on the tilted wall. Compared with the prior art, the soft-freezing chamber of the refrigerating plant, provided by the invention, has the advantages that through the arrangement of the tilted wall and the evaporator matched with the tilted wall on the liner, the refrigerating capacity of the evaporator can sink along the tilted wall and the side walls, the vertical natural convection of the refrigerating capacity is formed, the problem that the temperature difference among subzones of the soft-freezing chamber of the refrigerating plant is too large due to excessively concentrated refrigerating capacity is solved, the structure is simple and can adapt to different sizes of spaces, and the cost can be further reduced.

Description

The soft freezing chamber of refrigerating plant and there is its refrigerating plant

Technical field

The invention belongs to field of domestic appliances manufacture technology, be specifically related to a kind of soft freezing chamber of refrigerating plant and there is its refrigerating plant.

Background technology

The soft freezing chamber evaporimeter of refrigerating plant, is all generally tube sheet evaporimeters of rule (square or rectangle), attaches and indoor courage back or top.The evaporimeter of this form is set up too to concentrate at a room cloth and causes low-temperature receiver to be concentrated, and then causes the excessive temperature differentials of each subregion in a room when freezing, and the too high region of such temperature does not reach the food preservation effect wanted.More seriously, if sensor mounting areas temperature is too high, the compressor operating time also may be caused to increase, energy consumption increases.

Especially be divided into upper and lower two-part design for room between handle, the setting of this kind of evaporimeter, except there is above problem equally, also further will increase cost; Concrete, in order to make cold air sink, need to do a some holes at a parts for room upper part, or other setting, make cold can sink to the lower part of a room by the parts such as passing hole, even but this set, same exist because low-temperature receiver concentrates the upper part temperature caused low, the problem that lower part temperature is high, user is caused to complain, and upper and lower two-part design is divided into for a room, also will increases technology difficulty, increase cost.

Summary of the invention

For solving the problems of the technologies described above, the object of the present invention is to provide a kind of soft freezing chamber of refrigerating plant, it comprises inner bag and is matched with the evaporimeter on described inner bag, it is characterized in that, described inner bag comprises roof, diapire, left side wall, right side wall, rear wall and is at least connected to the inclined wall of one of them of described roof and described left side wall, right side wall and rear wall, and described evaporimeter is arranged on described inclined wall.

As a further improvement on the present invention, described inclined wall is be connected to described roof and described left side wall, the left skew wall of right side wall, right skew wall;

Described evaporimeter comprises two sub-evaporimeters be arranged in parallel, and two described sub-evaporimeters are only arranged on described left skew wall, right skew wall.

As a further improvement on the present invention, described inclined wall is be connected to described roof and described left side wall, the left skew wall of right side wall, right skew wall;

Described evaporimeter comprises two sub-evaporimeters be arranged in series, and two described sub-evaporimeters are only arranged on described left and right skew wall; And connecting the tube connector of two described sub-evaporimeters, described tube connector is arranged in one of them of described roof, diapire, left side wall, right side wall and rear wall.

As a further improvement on the present invention, described left skew wall, the first angle that between right skew wall with described roof, angulation is identical, the span of described first angle is 130 degree to 150 degree.

As a further improvement on the present invention, the value of described first angle is 150 degree.

As a further improvement on the present invention, the second angle that described left skew wall, right skew wall are identical with angulation between described left side wall, right side wall, the span of described second angle is 120 degree to 140 degree.

As a further improvement on the present invention, the value of described second angle is 120 degree.

As a further improvement on the present invention, described left skew wall and right skew wall width reduce gradually on the direction that described rear wall extends from the opening of described inner bag.

As a further improvement on the present invention, any point on the intersection of described left skew wall, right skew wall and described left side wall, right side wall, to the distance of described roof place plane, is less than the distance that it arrives described diapire place plane.

As a further improvement on the present invention, the disengagement area of two described sub-evaporimeters is identical.

As a further improvement on the present invention, the disengagement area of two described sub-evaporimeters is identical, and the disengagement area of described tube connector is less than the disengagement area of described sub-evaporimeter.

Accordingly, the invention provides a kind of refrigerating plant, described refrigerating plant comprises the soft freezing chamber of refrigerating plant as above.

Compared with prior art, the soft freezing chamber of a kind of refrigerating plant provided by the invention, by within it courage, inclined wall is set, and with the evaporimeter that described inclined wall agrees with, the cold of described evaporimeter can be sunk along inclined wall, sidewall, form the free convection up and down of cold, can solve refrigerating plant soft freezing chamber because of cold too concentrated, the problem of each subregion excessive temperature differentials caused, and this kind of structure is simple, can adapt to the space varied in size, can also be cost-saving.

Accompanying drawing explanation

Fig. 1 is the structural representation of an embodiment of the soft freezing chamber of refrigerating plant of the present invention;

Fig. 2 is the inner-tube structure schematic diagram in Fig. 1;

Fig. 3 is the structural representation of the evaporimeter in Fig. 1;

Fig. 4 is the structural representation of another embodiment of the soft freezing chamber of refrigerating plant of the present invention;

Fig. 5 is the structural representation of the evaporimeter in Fig. 4.

Wherein, Reference numeral is: soft freezing chamber, 100; Inner bag, 10; Right side wall, 103b; Left skew wall, 105a; Right skew wall 105b; Roof, 107; Rear wall, 109; Left intersection, 111a; Right intersection, 111b; Evaporimeter, 30; Sub-evaporimeter, 31; Heat exchanger plates, 311; Evaporation tube, 313; Tube connector, 33; First angle, α; Second angle, β.

Detailed description of the invention

Describe the present invention below with reference to detailed description of the invention shown in the drawings.But these embodiments do not limit the present invention, the structure that those of ordinary skill in the art makes according to these embodiments, method or conversion functionally are all included in protection scope of the present invention.

Coordinate with reference to shown in Fig. 1, Fig. 2, Fig. 3, introduce a detailed description of the invention of the soft freezing chamber of refrigerating plant of the present invention, in the present embodiment, the soft freezing chamber 100 of refrigerating plant comprises the open inner bag 10 in front end; Agree with described inner bag 10 to arrange, and for controlling the evaporimeter 30 of soft freezing chamber 100 temperature.Wherein, inner bag 10 can be fixedly installed in soft freezing chamber 100, also can along the fore-and-aft direction pull of soft freezing chamber 100; Evaporimeter 30 can be separately set in soft freezing chamber, also can arrange with the evaporator series in refrigerating chamber and/or refrigerating chamber; Due to inner bag in soft freezing chamber 100 10 and the annexation of soft freezing chamber 100, with the annexation of the evaporimeter 30 in soft freezing chamber 100 with the evaporimeter in refrigerating chamber and/or refrigerating chamber, do not relate to technical essential of the present invention, therefore repeat no more in the present embodiment.

It should be noted that, refrigerating plant mentioned here can comprise the common refrigerating plant such as refrigerator, refrigerator-freezer, refrigerated storage wine cabinet.

Described inner bag is the body shape structure that front end opens, it comprises diapire (sign), left side wall, right side wall 103b, roof 107, rear wall 109, roof 107 at least with left side wall, right side wall 103 b and rear wall 109 one of them between be connected with inclined wall (sign), evaporimeter 30 is arranged on inclined wall.

In the present invention one preferred embodiment, above-mentioned inclined wall comprises, be connected to left skew wall 105 a between roof 107 and left side wall and be connected to the right skew wall 105b between roof 107 and right side wall 103 b, form left intersection 111a between described left side wall and left skew wall 105 a, between right side wall 103b and right skew wall 105b, form right intersection 111b.

Preferably, described inner bag 10 is arranged along its axis mirror image.

Accordingly, roof 107 be arranged in parallel relative to described diapire, and the area of roof 107 is less than the area of described diapire, is beneficial between roof 107 and described diapire, form band angled left skew wall 105a, right skew wall 105b.

Accordingly, described left side wall and mirror image parallel relative to right side wall 103b is arranged, and the angle that the plane at described left side wall, right side wall 103b place perpendicular to the plane at roof 107 and described diapire place, is beneficial to left skew wall 105a simultaneously, right skew wall is formed is identical.

Accordingly, between described left side wall and left skew wall 105a, form the first angle α, between right side wall 103b with right skew wall 105b, form the angle identical with the first angle α angle.

Accordingly, between left skew wall 105a and roof 107, form the second angle β, right skew wall 105b with form the angle identical with the second angle β angle between roof 107.

Accordingly, the first angle α and the second angle β is two obtuse angles, and then formation top is isosceles trapezoidal structure inner bag 10.Be understandable that, agree with the evaporimeter 30 of this kind of vibrational power flow, rise according to hot-air, the principle that cold air sinks, its cold given out can along left skew wall 105a to described left side wall, described diapire, inner bag storage area, finally arrive roof 107, and along right skew wall 105b to right side wall 103b, described diapire, inner bag storage area, finally arrive roof 107 and form closed cold air switching loop, reach refrigeration by the free convection of cold.

Preferably, from the visual experience of operator, and consider the space availability ratio of inner bag 10, and evaporimeter 30 coordinate inner bag 10 structure is set, the span of the first angle α is 130 degree to 150 degree, and the span of the second angle β is 120 degree to 140 degree.

Preferably, the value of the first angle α is 150 degree, and the value of the second angle β is 120 degree, so, maximumly can utilize inner bag 10 space, is unlikely to because arrange left skew wall 105a, right skew wall 105b, and causes the interior storage space of inner bag 10 too much to be wasted.

Preferably, left intersection 111a, right intersection 111b are less than to the distance of roof 107 place plane the distance that it arrives described diapire place plane.Be understandable that, stored article is positioned over bottom inner bag 10 by refrigerating plant user ordinary practice, and the less space using inner bag 10 top, therefore left skew wall 105a, right skew wall 105b are arranged at the inner upper position of inner bag 10, can meet operator's use habit, and the inner space of inner bag 10 also well can be utilized.

Be understandable that, in other embodiments of the present invention, consider, also relatively high the closer to the temperature of the part of inner bag 10 opening in soft freezing chamber 100, therefore, can optimally the width of left skew wall 105a and right skew wall 105b be set to reduce gradually on the direction that rear wall 107 extends from the opening of inner bag 10 further, the evaporimeter 30 configured so thereon can have larger disengagement area near opening part, make the temperature in soft freezing chamber 100 more even, ensure the refrigeration of soft freezing chamber 100.

Accordingly, any point on the intersection of described left skew wall 105a, right skew wall 105b and described left side wall, right side wall 103a, to the distance of described roof 109 place plane, is less than the distance that it arrives described diapire 103 place plane.

In the embodiment of the invention, evaporimeter 30 is plate-tube type evaporator, this evaporimeter 30 agrees with and is arranged on left skew wall 105a, right skew wall 105b, and it is comprised between two sub-evaporimeters be arranged in series, 31, two sub-evaporimeters 31 and being connected by tube connector 33; Described sub-evaporimeter 31 comprises heat exchanger plates 311, and this heat sink 311 is for increasing disengagement area; And be attached at heat exchanger plates 311 and arrange, and for the evaporation tube 313 for cold-producing medium circulation, this evaporation tube 313 in the roundabout layout of snake type, to obtain larger disengagement area.

Preferably, the disengagement area of two sub-evaporimeters 31 is identical, identical to ensure inner bag 10 both sides refrigeration.

Accordingly, the material of heat exchanger plates 311 and evaporation tube 313, not special restriction, generally to adopt aluminum, the various material such as copper.

Accordingly, the shape of heat exchanger plates 311 also has no particular limits, and can be square, rectangle, triangle, trapezoidal various shape such as grade.

Accordingly, the shape of described evaporation tube 313 also has no particular limits, and this evaporation tube 313 can be arranged to straight tube, and the advantage of this kind of vibrational power flow is that the making material of evaporation tube 313 is saved most, cost-saving, but the disengagement area simultaneously given out is also minimum; Also evaporation tube 313 can be coiled knot to arrange, such as snakelike, square, triangle, trapezoidally waits various structures, and this kind of structure can use more material compared to being set to straight tube structure, and cost improves, but its disengagement area also can correspondingly increase.No matter adopt which kind of vibrational power flow, as long as ensure that the disengagement area of two parts evaporation tube 313 is identical.

Preferably, two sub-evaporimeters 31 mirror image mutually, and be only arranged on skew wall 105a, 105b.Rise according to hot-air, the principle that cold air sinks, its cold given out can along left skew wall 105a to described left side wall, described diapire, inner bag storage area, finally along arriving roof 107, and right skew wall 105b is to right side wall 103b, described diapire, inner bag storage area, finally arrives roof 107 and forms closed cold air switching loop, reach refrigeration by the free convection of cold, concentrate with the low-temperature receiver that solution provides because of the evaporimeter 30 be arranged in soft freezing chamber 100, and cause each regional temperature problem pockety in soft freezing chamber 100.

Accordingly, be pasted with between the heat exchanger plates 313 of evaporation tube 311 and the plane at roof 107 place and left side wall, right side wall 103b place plane and form angle, be beneficial to sub-evaporimeter 31 and agree with skew wall 105a, 105b and arrange.

Accordingly, heat exchanger plates 313 is identical with the first angle α value with the angle that roof 107 place plane is formed, and the angle that heat exchanger plates 313 is formed with described left side wall 103, right side wall 103b place plane is identical with the second angle β value.

Preferably, the disengagement area of described tube connector 33 is less than the disengagement area of described sub-evaporimeter 31, is beneficial to the free convection forming cold in inner bag memory space.

Especially, described tube connector 33 is arranged on inner bag 10 roof 107, and open side is arranged near inner bag 10 front end; Be understandable that, according to the feature of soft freezing chamber 100 self, when operator opens inner bag 10, take the article placed inside it time, hot-air can enter into open side, inner bag 10 front end at first, therefore the temperature of open side, its front end is high compared with the temperature away from open side, inner bag 10 front end.Tube connector 33 is arranged on inner bag 10 roof 107, and open side is arranged near inner bag 10 front end, establish one deck guarantee in the region that inner bag 10 temperature is high more, reduce the temperature difference of inner bag 10 fore-and-aft direction, and then under the effect of evaporimeter 30, solve the problem that each subregion temperature difference of inner bag 10 is large.

Accordingly, tube connector 33 can be arranged to straight tube, and advantage is that the making material of tube connector 33 is saved most, can be cost-saving, but its disengagement area is also corresponding minimum simultaneously; Also tube connector 33 can be coiled knot to arrange, such as snakelike, square, the various structures such as triangle, this kind of structure can use more material compared to being set to straight tube structure, and cost improves, but its disengagement area also can correspondingly improve.

Ginseng Fig. 4, Fig. 5, introduce another detailed description of the invention of the soft freezing chamber of refrigerating plant of the present invention, different from the embodiment described above is, in the present embodiment, described evaporimeter 30 comprises the described sub-evaporimeter 31 of 31, two, two sub-evaporimeters be arranged in parallel and is independently arranged on left skew wall 105a, right skew wall 105b.Be understandable that, so, can rise according to hot-air equally, the principle that cold air sinks, reach cold that evaporimeter 30 gives out along left skew wall 105a to described left side wall, described diapire, inner bag storage area, finally arrive roof 107, and along right skew wall 105b to right side wall 103b, described diapire, inner bag storage area, finally arrive roof 107 and form closed cold air switching loop, refrigeration is reached by the free convection of cold, concentrate with the low-temperature receiver that solution provides because of the evaporimeter 30 be arranged in soft freezing chamber 100, and cause each regional temperature problem pockety in soft freezing chamber 100.

Correspondingly, the present invention also provides a kind of refrigerating plant (not shown), this refrigerating plant is by adopting the soft freezing chamber 100 of the refrigerating plant introduced in the respective embodiments described above, the beneficial effect that in the respective embodiments described above, soft freezing chamber 100 has can be obtained, and, owing to not making improvement to other structures of this refrigerating plant or function, therefore also repeat no more in this other structure to this refrigerating plant.

Compared with prior art, the soft freezing chamber of a kind of refrigerating plant provided by the invention, by within it courage, inclined wall is set, and with the evaporimeter that described inclined wall agrees with, the cold of described evaporimeter can be sunk along inclined wall, sidewall, form the free convection up and down of cold, can solve refrigerating plant soft freezing chamber because of cold too concentrated, the problem of each subregion excessive temperature differentials caused, and this kind of structure is simple, can adapt to the space varied in size, can also be cost-saving.

Be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

A series of detailed description listed is above only illustrating for feasibility embodiment of the present invention; they are also not used to limit the scope of the invention, all do not depart from the skill of the present invention equivalent implementations done of spirit or change all should be included within protection scope of the present invention.

Claims (12)

1. the soft freezing chamber of a refrigerating plant, comprise inner bag and be matched with the evaporimeter on described inner bag, it is characterized in that, described inner bag comprises roof, diapire, left side wall, right side wall, rear wall and is at least connected to the inclined wall of one of them of described roof and described left side wall, right side wall and rear wall, and described evaporimeter is arranged on described inclined wall.

2. the soft freezing chamber of refrigerating plant according to claim 1, is characterized in that, described inclined wall is be connected to described roof and described left side wall, the left skew wall of right side wall, right skew wall;

Described evaporimeter comprises two sub-evaporimeters be arranged in parallel, and two described sub-evaporimeters are only arranged on described left skew wall, right skew wall.

3. the soft freezing chamber of refrigerating plant according to claim 1, is characterized in that, described inclined wall is be connected to described roof and described left side wall, the left skew wall of right side wall, right skew wall;

Described evaporimeter comprises two sub-evaporimeters be arranged in series, and two described sub-evaporimeters are only arranged on described left and right skew wall; And connecting the tube connector of two described sub-evaporimeters, described tube connector is arranged in one of them of described roof, diapire, left side wall, right side wall and rear wall.

4. the soft freezing chamber of the refrigerating plant according to Claims 2 or 3, is characterized in that, described left skew wall, the first angle that between right skew wall with described roof, angulation is identical, and the span of described first angle is 130 degree to 150 degree.

5. the soft freezing chamber of refrigerating plant according to claim 4, is characterized in that, the value of described first angle is 150 degree.

6. the soft freezing chamber of refrigerating plant according to claim 5, is characterized in that, the second angle that described left skew wall, right skew wall are identical with angulation between described left side wall, right side wall, and the span of described second angle is 120 degree to 140 degree.

7. the soft freezing chamber of refrigerating plant according to claim 6, is characterized in that, the value of described second angle is 120 degree.

8. the soft freezing chamber of refrigerating plant according to claim 5, is characterized in that, described left skew wall and right skew wall width reduce gradually on the direction that described rear wall extends from the opening of described inner bag.

9. the soft freezing chamber of the refrigerating plant according to Claims 2 or 3, it is characterized in that, any point on the intersection of described left skew wall, right skew wall and described left side wall, right side wall, to the distance of described roof place plane, is less than the distance that it arrives described diapire place plane.

10. the soft freezing chamber of refrigerating plant according to claim 2, is characterized in that, the disengagement area of two described sub-evaporimeters is identical.

The soft freezing chamber of 11. refrigerating plants according to claim 3, is characterized in that, the disengagement area of two described sub-evaporimeters is identical, and the disengagement area of described tube connector is less than the disengagement area of described sub-evaporimeter.

12. 1 kinds of refrigerating plants, is characterized in that, comprise the soft freezing chamber of the refrigerating plant as described in any one of claim 1 to 11.