KR19980028266A - Condenser and evaporation name of the refrigerator machine room - Google Patents

Abstract

The present invention has a structure in which the evaporation name is inserted into the condenser to increase the space efficiency inside the machine room as much as the space where the evaporation name is installed, and the condenser, the evaporation name, and the blower are simply coupled to the machine room bottom plate by a simple coupling structure. It is to provide a condenser and evaporation name installation structure of the refrigerator machine room to reduce the number of parts and the assembly process to improve the assembly, the configuration is a condenser 20 formed by winding the heat radiation pipe 22 in the form of a coil; A blower (30) for generating a flow of air to the condenser (20); Fixing means for fixing the blower 30 on the upper one side of the container, and fixing means for fixing the front and rear portions of the condenser 20 on the bottom and at the same time coupled to the machine room bottom plate 14 is provided with the condenser 20 Evaporation name 40 is installed inside the; A hot pipe (11) piped through the upper portion of the evaporation name (40) to be transferred to the condenser (20) while dissipating the high temperature and high pressure refrigerant in the compressor (10); Machine room bottom plate 14 for mounting and fixing the evaporation name 40 and the condenser 20 is characterized in that it is configured.

Description

Condenser and evaporation name of the refrigerator machine room

The present invention relates to an installation structure of a condenser and an evaporation name installed in the machine room of a refrigerator, and more particularly, to reduce the installation space of the condenser and the evaporation name by being located inside the condenser, and simplify the assembly structure of the condenser and the evaporation name. The present invention relates to a condenser and an evaporation name installation structure of a refrigerator machine room that reduces the number of parts and the number of assembly operations to facilitate assembly work.

In general, a refrigerator includes a compressor for compressing a refrigerant at a high temperature and high pressure, a condenser for dissipating the refrigerant sent from the compressor and converting the refrigerant into a liquid refrigerant at a low temperature and high pressure state, and a low temperature and low pressure liquid phase as the refrigerant passes through the condenser. It consists of a capillary tube which converts into a refrigerant, and an evaporator which heat-exchanges with air in a refrigerator while vaporizing the refrigerant sent to a low temperature low pressure state through a capillary tube.

The evaporator is installed at the rear of the freezer because it must be kept at low temperature by being blocked from the outside and easy to contact with the air inside the compressor. However, the compressor generates a high heat of compression while compressing the refrigerant. By dissipating the heat of the refrigerant, a machine room is provided in the lower rear side of the refrigerator to facilitate the discharge of the generated heat to the outside. At this time, the machine room is provided with a blower for generating a flow of air inside the machine room in order to effectively discharge the heat of the compressor and the condenser.

Referring to the conventional machine room in which the condenser, the compressor, and the blower 30 are installed, as shown in FIG. 1, the compressor 10 and the heat dissipation pipe 22 seated and fixed on the upper part of the machine room bottom plate 14 on both sides of the machine room as shown in FIG. 1. ) Is a coiled condenser 20 of the structure is installed, the blower 30 is fixed to one side of the condenser 20 toward the compressor 10 by the bracket 32, the condenser 20 and Between the compressor 10, the evaporation name 12 which collects the defrost water produced | generated from the evaporator which is not shown in figure is provided. In the evaporation name 12, a hot pipe 11 for preliminarily cooling a part of heat is piped in a process of sending a refrigerant compressed at high temperature and high pressure from the compressor 10 to the condenser 20.

When the refrigerator is operated by the structure as described above, the blower 30 is operated to blow air toward the compressor 10. Therefore, the air cools the blower 30 while passing through the inside of the blower 30, and then cools the compressor 10. At this time, since the evaporation name 12 between the condenser 20 and the compressor 10 is installed, the air cooled by the condenser 20 is collected in the evaporation name 12 while passing through the upper part of the evaporation name 12. The defrosted water of the evaporation name 12 is quickly evaporated by the high temperature refrigerant because the hot pipe 11 is piped into the evaporation name 12 because the defrosted water is evaporated. . On the other hand, the defrost water evaporated in this way is delivered to the compressor 10 by the wind of the blower 30, the cooling efficiency of the compressor 10 is further improved.

However, the inside of the machine room having such a structure has a disadvantage that the installation space is narrow because the blower 30, the condenser 20, the evaporation name 12, and the compressor 10 are rolled up on the top of the bottom plate 14 in a row. In addition, all of them are coupled to the bottom of the machine room by the number of parts, there is a disadvantage that the number of assembly increases.

Therefore, the present invention has been made to solve such a conventional waste.

An object of the present invention has a structure in which the evaporation name is inserted into the condenser, thereby increasing the space efficiency inside the machine room as much as the space where the evaporation name is installed, and the condenser, the evaporation name, and the blower are simply coupled to the machine room floor plate by a simple coupling structure. It is to provide a condenser and evaporation installation structure of the refrigerator machine room to improve the assembly ability by reducing the number of parts and the assembly process.

1 is a perspective view illustrating main parts of an internal structure of a machine room showing a condenser and an evaporation name according to the related art.

Figure 2 is an exploded perspective view of the main part of the machine room showing a state in which the condenser and the evaporation name is installed in the present invention.

3 is a longitudinal sectional view of a machine room showing a state in which a condenser and an evaporation name according to the present invention are installed.

* Explanation of symbols for the main parts of the drawings

10 compressor 14 bottom plate

16a, 16b: fixed hole 20: condenser

22: heat dissipation pipe 30: blower

36: clamp 40: evaporation name

42: plate 44: guide groove

46: support 47: fixing groove

48, 49: coupling sphere 48a: coupling groove

48b, 49b: bracket 49a: snap-fit

Means of the present invention for achieving the above object, the heat dissipation pipe is formed in a coil form wound condenser; A blower for generating a flow of air to the condenser; Fixing means for fixing the blower on the upper side of the container, and fixing means for fixing the front and rear portions of the condenser on the bottom and the coupling means for coupling the container to the machine room bottom plate and the evaporation name is installed in the condenser; A hot pipe piped through the upper portion of the evaporation name to transfer the high temperature and high pressure refrigerant from the compressor to the condenser while radiating heat; A machine room bottom plate is provided to seat and secure the evaporation name and the condenser.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figure 2, Figure 2 is an exploded perspective view of the main part of the machine room showing a state in which the condenser 20 and the evaporation name is installed in the present invention, reference numeral 20 is a condenser made of a heat radiation pipe 22 wound in the form of a coil.

As shown, the bottom plate 14 is laid down in the lower part of the machine room, and a compressor 10 (see FIG. 3), a condenser 20, an evaporation name 40, and a blower 30 are installed on the upper surface thereof. . The compressor 10 and the condenser 20 are installed at both sides of the machine room, and the evaporation name 40 is built into the condenser 20, and the blower 30 is fixed to the upper side of the evaporation name 40 by a fixing means. ) Is installed.

The condenser 20 is fixed to the machine room bottom plate 14 by a coupling means to be described later of the evaporation name 40 imparted, so that the inner space formed by winding the heat dissipation pipe 22 in the form of a coil is directed toward the compressor 10. The blower 30 provided in the evaporation name 40 is installed so that the direction of the blade 32 may face the compressor 10 through the inside of the condenser 20.

In addition, the evaporation name 40 is coupled to the machine room bottom plate 14 while fixing the condenser 20 on both sides and the fixing means for fixing the blower 30 in the upper portion as shown in Fig. 2, 3 Means are installed, the fixing means for fixing the blower 30 is first installed on the upper side of the support 46 is spaced apart from the front and rear on one side where the end of the condenser 20 is positioned, the upper portion of the support 46 A clamp 36 for fixing 30 is provided. At this time, the fixing groove 47 is formed in the front and rear surfaces at the upper end of the support 46, and the ring 37 bent to fit in the fixing groove 47 is formed at both ends of the clamp 36. In addition, the coupling means provided under the evaporation name 40 forms fixing holes 16a and 16b on both sides of the bottom plate 14, respectively, and the machine room bottom plate 14 on both sides of the bottom surface of the evaporation name 40. Coupling holes 48 and 49 are respectively provided in brackets 48b and 49b which are inserted into fixing holes 16a and 16b formed therein, and which support lower and lower ends of the condenser 20 on the surfaces facing each other. . In addition, one end of the coupling hole 48 is spaced apart by the thickness of the bottom plate 14 at the lower end of the side opposite to the surface on which the bracket 48b is installed, and one end of the fixing hole 16a of the bottom plate 14 is fitted. The coupling groove 48a is formed, and the other fitting hole 49 is fitted into the fixing hole 16b of one side of the bottom plate 14 at the lower end of the surface opposite to the surface on which the bracket 49b is formed. ) Is formed.

In addition, the evaporation name 40 is formed with a diaphragm 42 for dividing the interior into a plurality of sections, the guide groove 44 is formed in the upper center of the diaphragm 42, through which the hot pipe 11 is piped The refrigerant passing through the hot pipe 11 is cooled by the collected defrost water.

Referring to the structure in which the condenser 20, the evaporation name 40 and the blower 30 by such a structure is assembled as follows.

As shown in FIG. 3, the evaporation name 40 is seated inside the condenser 20, and then the bottom end of the evaporation name 40 is contracted to the brackets 48b and 49b of the evaporation name 40. The bottom of both sides. In this state, the one side coupling hole 48 of the evaporation name 40 is inserted into the fixing hole 16a of the machine room bottom plate 14 and then pushes in the direction in which the coupling groove 48a is formed. One end of the fixing hole 16a of the bottom plate 14 is fitted into the 48a. Then, when the other end coupler 49 is pushed into the other fixing hole 16b of the bottom plate 14, the snap fit 49a formed in the coupler 49 is inserted into the fixing hole 16b to evaporate. 40 and the condenser 20 are firmly fixed to the machine room bottom plate 14.

When the evaporation name 40 and the condenser 20 are fixed to the machine room bottom plate 14 as described above, the blower 30 is installed on the evaporation name 40. The blower 30 is seated on the upper end of the upper side support 46 formed on both sides. Then, the clamp 36 is wound on the upper portion of the blower 30, and then the hooks 37 (see FIG. 2) at both lower ends of the clamp 36 are inserted into the fixing groove 47 formed at the upper end of the support 46. When fixed, the blower 30 is firmly fixed to the support 46 by the clamp 36.

According to the present invention described above, since the evaporation name 40 is installed in the condenser 20, the machine room space efficiency is increased as much as the space where the evaporation name 40 is installed, and also the lower part of the evaporation name 40. Simple assembly on the side plate 14 and the condenser 20 can be fixed at the same time by the coupling holes 48 and 49 of the simple structure formed on both sides, thereby significantly reducing the number of parts and assembly labor, and thus the assembly time. The shortening has the effect of increasing productivity.

Claims (5)

A condenser 20 in which the heat dissipation pipe 22 is wound in a coil shape; A blower (30) for generating a flow of air to the condenser (20); Fixing means for fixing the blower 30 on the upper one side of the container, and fixing means for fixing the front and rear portions of the condenser 20 on the bottom and at the same time coupled to the machine room bottom plate 14 is provided with the condenser 20 Evaporation name 40 is installed inside the; A hot pipe (11) piped through the upper portion of the evaporation name (40) to be transferred to the condenser (20) while dissipating the high temperature and high pressure refrigerant in the compressor (10); Condenser and evaporation name installation structure of the refrigerator machine room, characterized in that the evaporation name 40 and the machine room bottom plate 14 for seating and fixing the condenser 20 is provided. According to claim 1, wherein the blower (30) fixing means is installed upward on one side of the evaporation name (40) installed in the condenser 20, and fixed to the top of the blower (30) seated on the top A plurality of supports 46 having grooves 47 formed therein; Lower ends of both sides are provided with a hook 37 fixed to the fixing groove 47 of the support 46 to wind the blower 30 seated on the upper end of the support 46 and fixed to the support 46. Condenser and evaporation name installation structure of the refrigerator machine room, characterized in that consisting of a clamp (36). The condenser and evaporation name mounting structure of a refrigerator machine room according to claim 1, wherein a plurality of diaphragms (42) are installed to partition the inside of the evaporation name (40) at regular intervals to prevent the flow of collected water. 4. The condenser and evaporation installation structure of a refrigerator machine room according to claim 3, wherein a guide groove (44) is formed at an upper end of the diaphragm (42) to guide and fix the passing hot pipe (11). The machine room bottom plate according to claim 1, wherein the coupling means has fixing holes (16a) and (16b) formed at both sides of the bottom plate (14), respectively, and protrudes downward on both sides of the bottom surface of the evaporation name (40). Coupling holes 48 and 49 respectively formed in the fixing holes 16a and 16b formed in the 14 and facing brackets 48b and 49b for supporting the lower ends of both sides of the condenser 20 are formed. It is provided, but one end of the coupling hole 48 is spaced apart by the thickness of the bottom plate 14 on the lower end of the opposite side of the surface on which the bracket (48b) is installed, one end of the fixing hole (16a) of the bottom plate (14) A snap fit that forms an interference fit coupling groove 48a, and fits into one side fixing hole 16b of the bottom plate 14 at the lower end of the bottom surface 14 opposite to the surface on which the bracket 49b is formed. Condenser and evaporation name installation structure of the refrigerator machine room, characterized in that (49a) is formed.