JPS6224218Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a refrigerating and built-in show case, and in particular, to a heat exhaust structure of a so-called built-in show case that has a built-in refrigerant compressor, a condenser, and a fan for cooling the condenser.

Generally, in a built-in show case, the first
Referring to the figure, a refrigerant compressor 2, a condenser 5, and a cooling fan 5' are installed in a lower machine room of a show case body 1. In addition, 3 is an evaporator, and 4 is a fan for cooling air inside the refrigerator. In such a configuration,
Since the condenser 5 is cooled by blowing the air inside the store where the show case is installed using the cooling fan 5', exhaust heat is always trapped inside the store, increasing the load on the store air conditioner. let This not only causes an increase in the capacity of the air conditioner, but also causes an increase in the operating cost of the case and the air conditioner.

In view of the above points, the purpose is to provide a built-in show case heat exhaust structure that can effectively utilize the exhaust heat of the condenser for heating the store, and also discharge the exhaust heat outside the store when heating is not needed. do.

The present invention provides a heat exhaust structure for a built-in show case that incorporates a refrigerant compressor, a condenser, and a condenser cooling fan, and a condenser duct that accommodates the condenser and cooling fan is installed at the top of the built-in show case. The condenser duct is inserted and connected to the midway part of the supply duct of the air conditioner at the installation location of the built-in show case, and both ends of the condenser duct are connected to intake and exhaust ducts that communicate with the outside of the installation location. The heat exhaust structure of the built-in show case is characterized in that the condenser duct is provided with a damper that selectively opens and closes the supply duct side and the intake/exhaust duct side at both ends of the condenser duct. be.

Embodiments of the present invention will be described below with reference to the drawings.

Referring to FIGS. 2 and 3, in the illustrated embodiment of the present invention, a built-in showcase condenser 5 and its cooling fan 5' are arranged in a condenser duct 22 in the upper part of the showcase. Both side portions of the condenser duct 22 are inserted and connected to the middle of the supply duct 7 of the in-store air conditioner 6. It is assumed that the cooling fan 5' operates to flow air in the same direction as the air flow in the supply duct. The upstream side of the air path portion of the condenser duct 22 is designated 8, and the downstream side is designated 9. From the upstream air path portion 8, there is a store outer wall 10.
An intake duct 12 connected to an intake hole 11 provided in the outer wall is extended, and an exhaust duct 1 connected to an exhaust hole 13 also provided in the outer wall is extended from the downstream air passage section 9.
4 has been extended. Note that intake and exhaust fans 15 and 1 are provided in the intake hole 11 and the exhaust hole 13.
6 is provided. A damper 17 is provided at the connection between the upstream air passage portion 8 of the condenser duct 22 and the intake duct 12 so as to block the connection port. This damper 17 is designed to block the air passage of the condenser duct 22 when the connection port is opened. A similar selective opening/closing duct 18 is also provided at the connection between the downstream air passage portion 9 of the condenser duct 22 and the exhaust duct 14.

In the actual structure, the condenser duct 22 is
As shown in FIG. 4, the upstream air passage portion 8 and the intake duct 12 are integrally formed, while the downstream air passage portion 9 and the exhaust duct 14 are integrally formed, and the upstream and downstream air passage portions 8 and 9 with bolts and nuts 19-20, the flange 21 provided on the cooling fan 5' and condenser 5 is interposed to connect them together, and this assembly is attached to the top of the case body 1. It is best to have it fixedly installed on top. In this way, when the show case is installed in the store, the air passage sections 8 and 9 can be inserted and connected to the middle of the supply duct 7 of the store air conditioner, and the air intake duct 12 and the exhaust duct 14 can be connected.
What is necessary is to connect them to the intake hole 11 and exhaust hole 13 provided on the outer wall of the store.

The operation will be explained below.

In the summer, the dampers 17 and 18 close the air conditioner supply duct, open the intake and exhaust duct side connections, and operate the intake and exhaust fans 15 and 16. Thus, as shown by the dotted arrow in Figure 3,
Outside air is introduced through the intake duct 12, and heat emitted from the condenser 5 is released outdoors through the exhaust duct 14.

In winter, the dampers 17 and 18 are switched in the opposite direction, the intake and exhaust side ducts 12 and 14 are closed, and the intake and exhaust fans 15 and 16 are stopped.
Only the cooling fan 5' is operated. Thus,
As shown by solid line arrows in FIG. 3, the air flowing through the supply duct from the air conditioner 6 passes through the condenser duct 22, absorbs heat from the condenser 5, and then releases it into the store. As a result, the waste heat from the condenser 5 is discharged into the store using the supply duct 7 of the air conditioner 6, so the heat can be distributed throughout the store, making it possible to effectively heat the store while saving energy. .

As shown in Fig. 4, when a structure in which the air passage sections 8, 9 and suction/exhaust ducts 12, 14 are fixedly installed on the show case is used in a store without an air conditioner, the air passage sections 8, 9 If the opening to be connected to the supply duct is left as is, and the dampers 17 and 18 are switched in the same manner as described above in summer and winter, the exhaust heat of the condenser 5 is transferred to the intake and exhaust ducts 12 and 14 in the summer. The air is discharged outdoors through the air flow, and in winter, it is directly discharged into the store from the air passage section 9, so it can be used for heating the store.

As is clear from the above description of the embodiments, the present invention provides the following advantages.

In the winter, the exhaust heat from the air-cooled condenser is released into the store via the store air conditioning supply duct, so the exhaust heat can be used to heat the store.

In the summer, the exhaust heat from the air-cooled condenser is released outdoors to prevent the temperature inside the store from rising due to the exhaust heat, and also to prevent the running costs of the air conditioner and built-in show case from increasing.

Conventionally, air-cooled condensers were installed at the bottom of the show case, so the back of the show case had to be left open in order to release the waste heat to the top.
According to the present invention, since the air-cooled condenser is housed in the condenser duct and attached to the upper part of the show case, there is no need to leave the back of the show case open. This has made it possible to effectively utilize the store's sales floor.

It can be effectively used in stores with and without air conditioners.

Except for the blower, it only requires a duct kit, so it can be done at a relatively low cost.

Conventionally, the air-cooled condenser was installed at the bottom of the show case, making it difficult to perform exhaust heat treatment work after installation.However, in this invention, the air-cooled condenser is installed at the top, so even after the show case is installed in its fixed position, it is difficult to carry out exhaust heat treatment work. Exhaust heat treatment is possible even after the store opens.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view showing the installed state of a conventional built-in show case, FIG. 2 is a cross-sectional view showing the installed state of a built-in show case according to an embodiment of the present invention, and FIG. 3 is a plan view thereof. FIG. 4 is a perspective view of the heat exhaust section. 1... Showcase, 5... Condenser, 5'...
Cooling fan, 6... Air conditioner, 7... Supply duct, 8... Upstream air path section, 9... Downstream air path section,
11...Intake hole, 12...Intake duct, 13...
Exhaust hole, 14... Exhaust duct, 15, 16...
Damper, 22...Condenser duct.

Claims (1)

[Scope of utility model registration request] In the heat exhaust structure of a built-in show case that incorporates a refrigerant compressor, a condenser, and a condenser cooling fan, a condenser duct that accommodates the condenser and cooling fan is installed above the built-in show case, and the condenser duct is inserted and connected to the midway part of the supply duct of the air conditioner at the location where the built-in show case is installed, and both ends of the condenser duct are connected to intake and exhaust ducts that communicate with the outside of the location where the condenser duct is installed. A heat exhaust structure for a built-in show case, characterized in that a damper is provided at both ends of a container duct to selectively open and close the supply duct side and the intake/exhaust duct side.