RU2464505C2 - Refrigerating device - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: refrigerating device includes cooled cavity with heat-insulated covered walls, in which there provided is chamber for laying of cooled objects, cold air source from which cold air is supplied to the chamber through air-distributing channel and outlet hole, and at least two plates which are installed in air-distributing channel so that they cover the outlet hole. Plate has holes through which the air can be discharged. Refrigerating device includes at least one fastening element that allows installing the plate into the air-distributing channel. Fastening element is spread from air-distributing channel to the plates and contacts the plates so that the plates are fixed by means of that element.

EFFECT: use of the proposed group of inventions allows production of air-distributing structure the size of which will suit the size of outlet hole of air-distributing channel in refrigerators with chambers of various size.

23 cl, 5 dwg

Description

Technical field

The present invention relates to refrigerators, which, according to the restrictive part of paragraph 1 of the claims, create forced air circulation in the chamber in which the refrigerated objects are stored using various elements connected to the chamber.

The invention relates, in particular, to refrigerators equipped with channels with plates installed in them, which, in accordance with a given aerodynamics, ensure the distribution of cold air inside the chamber.

State of the art

The outlet openings of the air distribution channels inside the chamber are located in these refrigerators at different heights and have different outlet cross-sectional areas. The reason for this arrangement is that it is desirable to distribute cold air from the evaporator through the chamber in various streams and thereby ensure the creation of a predetermined thermal distribution profile. This profile is determined for the refrigerator according to the position of the compartment for vegetables, shelves and breakfast products, which require different storage temperatures.

The air velocity, depending on the forced circulation, and the irregular pressure drops that occur during the passage of the channels cause the formation of turbulence, especially at the outputs of wide channels. Turbulence leads to the fact that air with a fixed area of the outlet cross section moves faster in some areas, and slower in some areas. This circumstance negatively affects the desired, pre-installed profile of the dynamics of air circulation inside the chamber. However, in the calculations, which are based on the cross section of the air distribution channel, the air exit rate per unit area is considered constant, and the flow directions are considered uniform.

In order to avoid problems associated with turbulence and to obtain a given profile of the air distribution in the chamber, separators are installed in the channels located in the chamber parallel to the direction of air flow, and the chamber itself is divided into compartments. The compartments help to deflect the air in the direction of the air flow to the desired area and ensure the air outlet in the right proportion to the number of compartments throughout the volume of the compartment. With an increase in the number of compartments, a relatively uniform flow is achieved. However, this occurs due to increased air friction during circulation in the channel and due to pressure drops. In addition, in chambers of various sizes, which are produced for refrigerators with chambers of various sizes, it is necessary to repeat the analysis and place the compartments at different distances. However, this is associated with significant costs for molding tools and other investments.

To eliminate the aforementioned negative circumstances, perforated plates are installed in the outlet openings of the air distribution channels. The plates are fixed on the edges of the holes by sliding. However, in cases where the length of the plate is less than the width of the hole, very many plates cannot completely cover the hole.

Disclosure of invention

Based on the current state of the art, the object of the invention is to provide the desired dynamics of air circulation in refrigerators with various types of chambers that require different cooling parameters, using uniform plates that can be easily mounted on the outlet openings of the air distribution channels.

In addition, the object of the invention is the manufacture on the basis of uniform elements of the air distribution structure, which will fit the size of the outlet of the air distribution channel in refrigerators with chambers of various sizes.

In addition, the object of the invention is to provide the possibility of rigid fastening in the ventilation ducts of refrigerators of plates with exhaust control elements suitable for the size of the ducts in various combinations.

The aforementioned problems are solved by a new refrigeration apparatus with insulated closed walls, in which there is a chamber for laying cooled objects, containing a source of cold air, from which cold air is supplied to the chamber through the air distribution channel and at least one plate, which is installed in the air distribution channel in such a way that it overlaps the outlet, and which has many holes through which is located in the air distribution channel cold air.

The novelty of the selected embodiment of the invention lies in at least one fastening element allowing the plate to be installed in the air distribution channel, the fastening element extending from the air distribution channel to the plate and in contact with the plate so that the plate is fixed by means of this element.

A possible embodiment of the invention is characterized by the presence of a mounting surface for mounting the plate, which, on the one hand, touches the open side of the plate, and on the other hand, touches the side of the plate opposite to the open side. Thus, despite the flow of air and contact inside the chamber, a rigid landing of the plate is ensured.

A possible embodiment of the invention is characterized in that in the air distribution channel there is at least one recess forming the mounting surface.

A possible embodiment of the invention is characterized in that between the point of contact of the front side of the plate and said recess, as well as between the point of contact of the recess and the reverse side of the plate, a predetermined equilibrium distance is left to eliminate the moment acting on the plate.

A possible embodiment of the invention is characterized by the presence of a dividing element, which is simultaneously in contact with the back of the plate and with the front side of the next plate, in order to ensure the fixation of more than one plate. If air must pass through the openings of more than one plate, then subsequent plates can be fixed at a distance equal to the length of the separation element.

A possible embodiment of the invention is characterized in that one of the sides of the fastening element and the air distribution channel together form a rigid shaped element. Thus, it is possible to manufacture a fastener at the same time as the air distribution channel using, for example, a molding tool making holes for the air distribution channel.

A possible embodiment of the invention is characterized in that the width of the fastener does not exceed the distance between the holes on the plate. Thus, the negative effect of the fastener is minimized due to the fact that it does not resist air flow.

A possible embodiment of the invention is characterized in that the fastener has a rectangular shape. A possible embodiment of the invention contains at least one latch that provides contact of the fastener with both the front and the back of the plate, and the latch contains at least one groove into which the plate enters.

A possible embodiment of the invention is characterized in that the fasteners are parallel to each other. Thus, more than one plate can be sequentially fixed to form a row.

Brief Description of the Drawings

The structural and characteristic features of the invention, as well as all its advantages, become more apparent on the basis of the attached figures and a detailed description of the invention, taking into account the figures. Thus, it is necessary to perform an analysis taking into account these figures and a detailed description. The figures depict:

Figure 1: A perspective view of the refrigerator as an object of the invention in the existing design.

Figure 2a: A perspective view of an embodiment of a plate which is an object of the invention according to Figure 1 and shown separately from the air distribution channel.

Figure 2b: Perspective rear view of the air distribution channel with two rows of plates mounted therein, according to an embodiment of the invention.

Figure 3a: A perspective view of the fasteners shown in figure 2a in an air distribution channel without plates.

Figure 3b: Front view of an embodiment of the invention, fragment.

The implementation of the invention

In the embodiment of the invention shown in FIG. 1, an evaporator (6) located in the refrigerator (1) supplies cold air to the lower chamber (2) through an outlet (34) located in the air distribution channel (3). In the area of the bottom of the chamber (2) there is a ledge (21), protruding into the chamber (2) and acting as a niche for the compressor (not shown in the figure). Between the opposite side walls of the chamber (2) there is an L-shaped air distribution channel (3) with a rounded corner. The upper surface of the said step (21) protruding into the chamber (2) serves as a supporting surface (35) of the air distribution channel. On the side of the air distribution channel (3) facing the chamber (2), there is an elongated outlet (34) in the shape of a rectangle. The plate (4) is fixed perpendicular to the direction of the air flow (A) so that it overlaps the outlet (34), that is, one side of the plate faces the air distribution channel (3), and the opposite side to the inner cavity of the chamber (2).

As shown in figure 2A, the L-shaped protruding air distribution channel (3) has a U-shaped section with shortened sides. The surface between the two side walls of the U-section serves as a cover (32) of the air distribution channel (3). The outer surfaces of the opposite parallel side walls of the air distribution channel (3) are supported by the supporting surface (35) formed by the upper side of the ledge (21), so that they face the side walls of the chamber (2). On the lower surface of the short side of the L-shaped element, the protrusion (33), which is a cylindrical extension, is in contact with its tip with the rear wall of the chamber (2). Thus, the air inlet opening (36) is connected to the evaporator (6).

The inner surfaces of the opposing short walls of the air distribution channel (3) in the region of the outlet (34) form fixing surfaces (31).

Thin, rectangular plates (4) made of prism-shaped plastic, on which a plurality of cylindrical holes (41) form a matrix, are fixed in the air distribution channel (3) parallel to the outlet (34) along the surface between opposite short sides, in contact with the fixing surfaces (31).

The fastener is used for fastening (7), which consists of a rectangular-prismatic front mounting jumper (71), insert (72) and rear mounting jumper (73) and is oriented in the direction of the air distribution channel (3) perpendicular to its bottom; its vertices in figure 2a are located on the cover (32) of the air distribution channel (3), and in figure 2b - on the bottom (35), and the wide sides extend parallel to the fixing surfaces (31).

As shown in FIG. 3a, the front and rear mounting bridges (71, 73) are arranged one after another in the airflow direction and are oriented along the same axis (Y). The insert (72), in contrast, is oriented along the axis of the insert (72), which is spaced from the axis of the fastener (Y). In addition, the intermediate space (37) is left across the width of the plate (4, 5) between the insert (72) and the front and rear mounting bridges (71, 73), also perpendicular to the axes. The intermediate space (37), when looking at the outlet (34) in front, is located between the front mounting jumper (71) and the support, i.e. the mounting surface (711), forming its rear region, and the front mounting surface (721) of the insert (72), and also between the rear mounting bridge (73) with the supporting, i.e. mounting surface (731), forming its front region, and back surface of the insert (72).

The plate (4) in the front region enters the intermediate space (37) in the form of a liner. A rear plate (5) of a similar shape is mounted in the intermediate space (37) parallel to the first plate (4), behind the first plate (4) relative to the outlet (34), between the back side (722) of the insert (72) and the rear mounting jumper (73 )

In the case where the intermediate space (37) due to different tolerances is less than the width of the plate (4, 5), the plate (4, 5) fits tightly into the intermediate space (37). Of course, the said intermediate space (37) may equal or exceed the width of the plate (4, 5). In this case, a sealing profile can be used, or the fixing of the plate (4, 5) is ensured by pressure on it from the side of the cover (32). In the case where the axes of the insert and the fastening element (X, Y) differ due to the fact that on both sides of the plate (4, 5) there are different attachment points, with convection directed at them and by means of air coming from direction (A) or external impact prevents the impact of the moment. In addition, the plates (4, 5) shown in the figure consist of two parts. While the first part (4, 5) of the plate is held by the front and rear mounting bridges (71, 73) and the mounting element (7) containing the insert (72), in a parallel position between the locking surfaces (31) on the same axis due to the location in a row of three parts, the second plate (4, 5), which is shorter, is held only by the fastener (7). In the embodiment shown in FIG. 2b, the front and rear mounting bridges (71, 73) extend between the holes (41) on the plates (4, 5); their width is equal to the gap between the holes (41), that is, the holes (41) are not blocked.

Cold air produced by the evaporator (6) is forced to pass in the direction of the air flow (X) of the air distribution channel (3), then meet first with the second plate (5), then with the first plate (4) and pass through the openings located on them ( 41). At the same time, air exerts pressure on the plates (4, 5) in the direction of the air flow (X) and the outlet (34). However, the back surface (722) of the insert (72) of the second plate (5) and the abutment surface (711) of the front mounting bridge (71) of the other plate (4) hold the plates (4, 5) stationary.

In the case of a force exerted from the opposite direction, the front surface (721) of the insert (72) holds the first plate (4), and the supporting surface (731) of the rear mounting bridge (73) holds the second plate (5); thus, they prevent plate displacement. Thus, due to the formation of an intermediate space (37) among several plates (4, 5), the required number of plates (4, 5) can be fixed in the air distribution channel (3). The front side of the first plate (4) faces the outlet (34) when the blower is operating.

The present detailed description considers the invention solely within the framework of a better understanding of the subject of the invention by the example of the attached figures, to which, however, the invention is by no means limited. The protected volume of the application is determined by the claims and in no case can be limited to this detailed description, given as an example. It is clear that the specialist, not deviating from the main idea of the invention, can offer similar versions in the light of the above description.

Claims (23)

1. A refrigerator containing a cooled cavity (1) with insulated closed walls, in which there is a chamber (2) for laying cooled objects, also containing a source (6) of cold air, from which into the chamber (2) through the air distribution channel (3) and the outlet (34) is supplied with cold air, and at least two plates (4, 5), which are installed in the air distribution channel (3) so that they overlap the outlet (34), and located in the air distribution channel ( 3) air can exit through numerous holes (41) of the plate, and the refrigeration unit contains at least one fastener (7) that allows you to install the plate (4, 5) in the air distribution channel (3), and the fastening element (7) extends from the air distribution channel (3) to the plates (4, 5) and is in contact with the plates (4, 5) so that the plates are fixed by means of this element. 2. The refrigeration apparatus according to claim 1, characterized in that the fastening element comprises a mounting surface (711, 721) for mounting the plate (4), while the mounting surface (711, 712) on one side touches the open side of the plate (4), and on the other hand, it touches the side of the plate (4) opposite to the open side. 3. The refrigeration apparatus according to claim 2, characterized in that in the air distribution channel (3) there is at least one recess (71, 72) designed to form the mounting surface (711, 721). 4. The refrigerator according to claim 3, characterized in that between the point of contact of the front side of the plate (4) and said recess (71, 72), as well as between the point of contact of the recess (71, 72) and the back of the plate (4) left a predetermined equilibrium distance (X, Y), designed to eliminate the moment acting on the plate (4). 5. The refrigerator according to claim 1, characterized in that there is a dividing element (72), which is on one side in contact with the back side of the plate (4), and the other side at the same time with the front side of the next plate (5), in order to ensure fixation more than one plate (4, 5). 6. Refrigeration apparatus according to claim 1, characterized in that one of the sides of the fastener (7) and the air distribution channel (3) together form a rigid shaped element. 7. The refrigeration apparatus according to claim 2, characterized in that it contains at least one latch that provides contact of the fastener (7) with both the front and the back of the plate (4), and the latch contains at least , one groove (37) into which the plate (4) enters. 8. The refrigerator according to one of claims 1 to 7, characterized in that the fastening elements (7) are parallel to each other. 9. A refrigerator containing a cooled cavity (1) with insulated closed walls, in which there is a chamber (2) for laying cooled objects, also containing a source (6) of cold air, from which into the chamber (2) through the air distribution channel (3 ) and the outlet (34) is supplied with cold air, and at least one plate (4, 5), which is installed in the air distribution channel (3) so that it overlaps the outlet (34), and located in the air distribution channel (3) air x can exit through the numerous holes (41) of the plate, and the refrigeration unit contains at least two fasteners (7) that allow you to install the plate (4, 5) in the air distribution channel (3), and the fasteners (7) extend from the air distribution channel (3) to the plate (4, 5) and are in contact with the plate (4, 5) so that the plates are fixed by means of these elements. 10. The refrigerator according to claim 9, characterized in that the fastening elements (7) comprise a mounting surface (711, 721) for fixing the plate (4, 5), while the mounting surface (711, 712) is on one side touching the open side plate (4), and on the other hand touches the side of the plate (4), opposite the open side. 11. The refrigeration apparatus according to claim 10, characterized in that in the air distribution channel (3) there is at least one recess (71, 72) designed to form the mounting surface (711, 721). 12. The refrigerator according to claim 11, characterized in that between the point of contact of the front side of the plate (4) and said recess (71, 72), as well as between the point of contact of the recess (71, 72) and the back of the plate (4) left a predetermined equilibrium distance (X, Y), designed to eliminate the moment acting on the plate (4). 13. The refrigerator according to claim 9, characterized in that there is a dividing element (72), which is on one side in contact with the back side of the plate (4), and the other side at the same time with the front side of the next plate (5), in order to ensure fixation more than one plate (4, 5). 14. The refrigeration apparatus according to claim 9, characterized in that one of the sides of the fastener (7) and the air distribution channel (3) together form a rigid shaped element. 15. The refrigeration apparatus according to claim 10, characterized in that it contains at least one latch that provides contact of the fastener (7) with both the front and the back side of the plate (4), and the latch contains at least , one groove (37) into which the plate (4) enters. 16. The refrigerator according to one of claims 9 to 15, characterized in that the fastening elements (7) are parallel to each other. 17. A refrigerator containing a cooled cavity (1) with insulated closed walls, in which there is a chamber (2) for laying cooled objects, also containing a source (6) of cold air, from which into the chamber (2) through the air distribution channel (3) and the outlet (34) is supplied with cold air, and one plate (4), which is installed in the air distribution channel (3) so that it covers the outlet (34), and the air in the air distribution channel (3) can exit through numerous holes (41) of the plate, and the refrigeration unit contains one fastener (7) that allows you to install the plate (4) in the air distribution channel (3), and the fastening element (7) extends from the air distribution channel (3) to the plate (4) and is in contact with the plate (4) so that the plate is fixed by means of this element, and the fastening element (7) contains a mounting surface (711, 721) for mounting the plate (4), while the mounting surface (711, 721) is on one side touching open side plates (4) and, on the other hand touch the plate (4) opposite the open side. 18. The refrigerator according to claim 17, characterized in that in the air distribution channel (3) there is at least one recess (71, 72) designed to form the mounting surface (711, 721). 19. The refrigerator according to claim 18, characterized in that between the point of contact of the front side of the plate (4) and said recess (71, 72), as well as between the point of contact of the recess (71, 72) and the back side of the plate (4) a predetermined equilibrium distance (X, Y), designed to eliminate the moment acting on the plate (4). 20. The refrigerator according to claim 17, characterized in that one of the sides of the fastener (7) and the air distribution channel (3) together form a rigid shaped element. 21. The refrigerator according to claim 17, characterized in that the width of the fastener (7) does not exceed the distance between the holes (41) on the plate (4). 22. The refrigerator according to claim 17, characterized in that the mounting device has a rectangular shape. 23. The refrigeration apparatus according to claim 18, characterized in that it comprises at least one latch providing contact of the fastener (7) with both the front and the back of the plate (4), the latch comprising at least , one groove (37) into which the plate (4) enters.

Images