KR0163487B1 - Cold storage - Google Patents

Abstract

A roof and a wall of a refrigerated warehouse, comprising: an internal insulation panel; External insulation panels; The freezing warehouse consisting of a fastening insulation bolt for fastening the outer insulation panel on the inner insulation panel, the coupling portion of the inner insulation panel and the coupling portion of the outer insulation panel in the form of a lattice, penetrates into the coupling portion of both panels By lengthening the water vapor to prevent internal condensation, the internal insulating panel and the external insulating panel is separated and fastened by the fastening bolt, thereby improving the cold bridge phenomenon of the direct bolt inherently, and also for the attachment of the outer panel Since the hardware is embedded in the internal insulation panel in advance, it is possible to omit the construction for the installation of a separate base hardware, and the economic burden is minimized since the external panel itself is finished to the finish.

Description

Cold storage warehouse with roof and walls insulated

1 is a plan detail view of a double insulation structure of a freezer warehouse wall in which a roof and a wall are formed in an insulation structure according to an embodiment of the present invention.

2 is a cross-sectional detail view of a double insulation structure of a freezer warehouse wall in which a roof and a wall are formed in an insulation structure according to an embodiment of the present invention.

3 is a cross-sectional detail view of a double insulation structure of a roof of a refrigerated warehouse in which a roof and a wall are formed in an insulation structure according to an embodiment of the present invention.

4 is a longitudinal cross-sectional detail view of a double insulation structure of a roof of a freezing warehouse in which a roof and a wall are formed of an insulation structure according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: insulation panel for refrigerated warehouse 11: vertical belt

12: roof jungdori 13: frozen panel reinforcement flat iron

14: external insulation panel fastening bolt 15: internal insulation panel fastening bolt

16: External insulation panel joint silicon caulking 17: Roof insulation panel fastening bolt

20: outside wall insulation panel 30: roof insulation panel

The present invention relates to a refrigerated warehouse in which the roof and the walls are insulated from each other. More specifically, in a refrigerated warehouse corresponding to an independent building instead of the freezing warehouse in the reinforced concrete structure, the roof and the walls block the outside air, The present invention relates to a refrigerated warehouse formed of an insulating structure for maintaining a constant temperature and humidity.

In general, the walls and roof of the freezing warehouse as an independent structure is an important structural part to keep the temperature and humidity of the room constant by blocking the hot air in the outside air, especially in summer.

In particular, the roof is the structure that has the most influence on the quality and performance of the freezer because the roof is the place receiving the most direct sunlight.

Therefore, the freezer has always been installed with a heat insulating material or a sandwich panel filled with heat insulating material in order to maintain a constant indoor air temperature from the outside temperature change.

The thickness of the insulation is determined according to the maintenance conditions of the refrigerated warehouse and the type of insulation, but under certain conditions, the thickness of the insulation cannot be clearly defined. Refrigerant warehouses can be operated regardless of the insulation thickness. If the insulation thickness is reduced, the load on the refrigeration equipment is increased and maintenance costs are increased. Increasing the insulation thickness causes problems such as increase in construction cost and reduction of effective real area.

Since the most economical thickness should be set by appropriately adjusting the insulation thickness, the Korean Society of Refrigeration Engineering prepared the recommended standard of heat radiation thickness, which is the most economical in terms of installation cost, equipment cost, and maintenance cost.

According to the recommended heat dissipation thickness, it is set to calculate the heat dissipation thickness by applying an intrusion heat amount of 10 kilocalories per hour per square meter of the wall surface.

The insulation structure of the roof and the wall of a typical conventional refrigerated warehouse is a continuous sandwich insulation panel in which a heat insulating material (for example, glass wool, styrofoam, polyurethane, etc.) of a predetermined thickness is inserted between steel plates, calculated according to the above criteria. It was connected to the construction form.

Although the heat insulation performance to some extent can be expected with the said conventional heat insulation structure, there exists a difficult problem which cannot expect an efficient heat insulation effect.

The problem is that first, a panel of 200 mm or more in thickness makes up the entire heat dissipation layer. Water vapor in the air exists as a pressure type, so the water vapor pressure of 40 degrees Celsius drops as the temperature decreases, and the temperature drops to about 25 degrees Celsius (25 degrees Celsius), which is the maintenance temperature of most refrigerated warehouses.

Therefore, assuming a freezer warehouse having an ambient temperature of 40 degrees Celsius and a room temperature of minus 25 degrees Celsius, since the water vapor pressure on the outside air side of 40 degrees is higher than the indoor side of minus 20 degrees, water vapor invades the low temperature side.

At this time, the panel is a site vulnerable to condensation despite the thickness of the reference value or more. Water vapor that has penetrated the joining site reaches the dew point due to the sharp temperature difference of the inner wall and condenses and freezes on the inner wall and the joining site.

The freezing phenomenon in the heat dissipation layer as described above results in a decrease in heat insulation performance, thereby causing a problem of deterioration of the quality of the freezing warehouse.

Secondly, a large amount of fastening bolts are used to support the weight of the panel itself. This fastening part causes a cold bridge to generate condensation.

Even if the insulating bolt is used as described above, since it does not reach the heat insulating effect of the heat insulating material, condensation of the fastening part is inevitable.

Therefore, an object of the present invention is to solve the above-mentioned conventional problems, and by installing two external insulation panels of the roof and the wall of the freezing warehouse as an independent building to prevent condensation of the joint site, between the insulation panels To form an intermediate air layer in the outside and to act as a buffer of the bet.

In addition, another object of the present invention is to provide a refrigerated warehouse in which the roof and the wall are formed in an insulating structure to reduce the weight of the panel to facilitate the construction.

The structure of this invention for achieving the said objective is the wall of a freezer warehouse, The freezer warehouse insulation panel; A vertical band installed on a pillar supporting the entire wall at intervals such as lengths or widths of the refrigerated warehouse insulation panels; Wall insulation panels; It consists of an inner panel fastening insulation bolt for fastening the wall outer insulation panel on the refrigeration warehouse insulation panel.

Another aspect of the present invention for achieving the above object, in the roof of the freezing warehouse, the internal insulation panel; Insulation panels on the roof; It consists of an inner panel fastening insulation bolt for fastening the roof outer insulation panel on the inner insulation panel.

Referring to the accompanying drawings, the most preferred embodiment which can easily practice this invention by the said structure is as follows.

1 is a plan detail view of the double insulation structure of the freezer warehouse wall in which the roof and the wall are formed as an insulation structure according to an embodiment of the present invention,

2 is a detailed cross-sectional view of the double insulation structure of the freezer warehouse wall in which the roof and the wall according to the embodiment of the present invention have an insulation structure,

3 is a cross-sectional detail view of a double insulation structure of a roof of a cold storage warehouse in which a roof and a wall are formed of an insulation structure according to an embodiment of the present invention.

4 is a longitudinal cross-sectional detail view of a double insulation structure of a roof of a freezing warehouse in which a roof and a wall are formed of an insulation structure according to an embodiment of the present invention.

As shown in FIG. 1 and FIG. 2, the structure of the wall of the freezing warehouse according to the first embodiment of the present invention is the length of the freezing warehouse insulation panel 10 and the freezing warehouse insulation panel 10. Vertical panel 11 installed on the pillar supporting the entire wall at the same interval as the width, the outer wall insulation panel 20 and the inner panel for fastening the outer wall insulation panel 20 on the freezer warehouse insulation panel 10. It consists of a fastening thermal insulation bolt 15.

With reference to the accompanying drawings, the operation of the freezing warehouse in which the roof and the wall according to the first embodiment of the present invention are formed in an insulating structure is as follows.

According to the first embodiment of the present invention, in order to fasten the outer insulation panel 20 outside the wall in the interior of the insulation panel 10 for the refrigerated warehouse, the thickness such as the tip of the outer panel is calculated in advance and the thickness is 100 mm and the thickness 2.3t. It is manufactured by reclaiming the frozen panel reinforcement flat iron (13).

In the above-mentioned freezing panels (10, 20) has a limitation in the manufacturing length, the binding site is inevitable, and the vulnerability of the binding site is also inevitable.

Therefore, in the embodiment of the present invention in order to prevent the condensation of the bonding site, the bonding portion of the wall outer insulation panel 20 is attached to form a lattice with the bonding portion of the inner insulation panel 10.

The support of the wall outer insulation panel 20 is fixed to the reinforcing flat iron 13 disposed on the inner insulation panel 10 using an outer insulation panel fastening bolt (hereinafter referred to as a direct connection piece) 14.

The wall exterior insulation panel 20 is formed by foaming polyurethane of a predetermined thickness on a steel plate having a thickness of 0.6t or more that is color coated on the outside, and using kraft paper inside to suppress the use of unnecessary steel plates.

After the wall outer insulation panel 20 and the inner insulation panel 10 are fastened, the joint portion is treated with a silicone sealant to maintain airtightness, thereby preventing leakage and cold bridges.

Next, a description will be given of the operation of the freezing warehouse in which the roof and the wall according to the second embodiment of the present invention are formed in an insulating structure.

The structure of the roof of the freezing warehouse according to the second embodiment of the present invention is the same as that of the wall.

In the same manner as the heat insulation structure of the wall of the first embodiment, the coupling portion of the roof insulation panel 10 and the roof insulation panel 30 of the roof should be made of a lattice.

In other words, the joining portion of the roof insulation panel 30 is precisely made on the frozen panel reinforcement flat iron 13.

The fastening method of the roof insulation panel 10 and the roof panel 30 of the roof is performed by removing a urethane with a circular hole drill at the fastening portion of the roof insulation panel 30, and then performing a roof insulation panel fastening bolt (hereinafter referred to as a direct screw). The reinforcing flat iron 13 and the roof panel lower iron plate are fixed with a business card (17).

After fastening the reinforcing flat iron 13 and the roof panel lower iron plate with the direct screw 17, the urethane foams in the field to maintain the airtightness.

The upper part of the roof insulation panel 30 is a double waterproof waterproof membrane of modified asphalt, the lower part of the roof insulation panel 30 is made at the time of manufacturing the panel at the factory and the waterproof finish is processed in the field.

Technical characteristics according to the embodiment of the present invention is to maintain the heat insulation thickness calculated by the recommended heat radiation thickness standard, inserting an air layer in the middle using the two heat insulation thickness, the direct exchange of air and bet by the air layer Is to suppress.

Therefore, according to the embodiment of the present invention, the ventilation layer formed by the panel's collation between the internal insulation panel 10 and the external insulation panels 20 and 30 of the wall and the roof is affected by external sunlight and radiant heat. By buffering the heat of the outer panel (20, 30) is heated by the suppression of the increase in the room temperature, the binding site of the panel consisting of the lattice lengthens the water vapor to penetrate the binding site of both panels to prevent internal condensation.

Since the inner insulation panel 10 and the outer insulation panels 20 and 30 are separated and fastened by the fastening bolt 15, the cold bridge phenomenon of the direct bolts is fundamentally improved.

In addition, since the base hardware for the attachment of the outer panel 20, 30 is buried in advance in the inner heat insulating panel 10, it is possible to omit the construction for the installation of a separate base hardware, since the outer panel itself is made to the finish It is possible to provide a refrigerated warehouse in which the roof and the walls are insulated from each other, which have the effect of minimizing the economic burden.

Claims (10)

A wall of a freezer, comprising: a cold storage insulation panel; A vertical band installed on a pillar supporting the entire wall at intervals such as lengths or widths of the refrigerated warehouse insulation panels; Wall insulation panels; A refrigerated warehouse comprising: an inner panel fastening insulating bolt for fastening the outer wall insulating panel to the refrigerated warehouse insulating panel, wherein the engaging portion of the refrigerated warehouse insulating panel and the engaging portion of the outer wall of the cold storage warehouse are formed in a lattice form. The freezing warehouse according to claim 1, wherein the freezing warehouse reinforcing flat iron for fastening the outer wall insulation panel is embedded in the freezing warehouse insulation panel. The freezing warehouse according to claim 2, wherein the outer wall of the freezing warehouse is fixed by using a direct connection piece to the reinforced flat iron embedded in the freezing warehouse insulating panel. 2. The freezing warehouse according to claim 1, wherein after fastening the outer wall insulation panel, the joining site is treated with a silicone sealant. The freezing warehouse according to claim 1, wherein the wall exterior heat insulation panel foams polyurethane of a second predetermined thickness on an iron plate having a first predetermined thickness or more, which is color coated on the outside, and uses kraft paper therein. . A roof of a refrigerated warehouse, comprising: an interior insulation panel; Roof insulation panels; And an inner panel fastening insulation bolt for fastening the roof outer insulation panel on the inner insulation panel, wherein the joining portion of the inner insulation panel and the joining portion of the roof outer insulation panel have a lattice shape. The refrigerated warehouse according to claim 6, wherein a refrigeration panel reinforcing flat iron for fastening a roof outer insulation panel is embedded in the inner insulation panel. 8. The method of claim 7, wherein the urethane is removed from the fastening portion of the roof insulation panel by a circular hole drill, and then the reinforcing flat iron and the lower iron plate of the roof insulation panel are fixed with a direct screw, and foamed urethane is formed in the hole. Freezing warehouse. 9. The freezing warehouse according to claim 8, wherein the upper and lower portions of the roof exterior insulation panel are double waterproofed by membranes of modified asphalt. A roof and a wall of a cold storage warehouse, comprising: a cold storage insulation panel; Wall insulation panels; A first inner panel fastening insulating bolt for fastening a wall outer insulating panel on the refrigerated warehouse insulating panel; Internal insulation panels; Roof insulation panels; A second inner panel fastening insulation bolt for fastening the roof outer insulation panel on the inner insulation panel, the refrigeration warehouse insulation panel is a grating portion of the coupling portion and the wall outer insulation panel is made of a lattice shape, the inner insulation panel A freezing warehouse comprising a roof and a wall of an insulating structure, characterized in that the joining portion of the roof and the outside of the roof insulation panel is formed in a lattice form.