KR102337441B1 - container houses - Google Patents

Abstract

The present invention relates to a container house used as a simple lodging, office or warehouse, etc., which sucks in outside air, filters it, heats it, blows clean air into the room, and sucks harmful gases and dust from the room and exhausts it to the outside. This is a technology related to a remote management container house that prevents respiratory diseases of users, reduces heating and cooling management costs, and removes fine dust and harmful gases that can be managed remotely from a distance.
The main configuration of the present invention is, in a container house consisting of a floor forming an indoor floor surface, a side wall forming an external wall, and a ceiling forming an indoor ceiling; a space portion configured inside the side wall portion and the ceiling portion; a heat exchanger installed in the inner space of the ceiling and configured to exchange heat between outdoor air and indoor air to be sucked in and exhausted; and an air filter installed in the suction duct through which external air is introduced into the heat exchanger and filtering fine dust and foreign substances.

Description

Remotely managed container houses that remove fine dust and harmful gases {container houses}

The present invention relates to container houses used as simple lodgings, offices, warehouses, etc., and in more detail, it sucks in outside air, filters it, conducts heat exchange to blow clean air into the room, and indoor harmful gas A remote management container that removes fine dust and harmful gases that can be managed remotely by inhaling and exhausting dust, etc. It's about the house.

In general, containers have been mainly used for the purpose of transporting cargo, but recently, containers have been remodeled and used as simple offices, lodgings, warehouses, bathrooms, etc. It is designed for user convenience.

Containers that are recently used as simple offices, lodgings, or warehouses at work sites are insulated from the outside by attaching an insulating material to the inner surface of the steel plate, or condensation occurring on the inner wall of the container in winter when the temperature is low. are doing

However, in the conventional container, insulation materials are attached to the upper panel forming the roof and the outer panel forming the outer wall in order to insulate the inner space and prevent dew condensation. Since the temperature difference is severe, dew condensation occurs on the surfaces of the ceiling panel and the inner panel in the interior space.

Accordingly, as a representative prior art for reinforcing the insulation of a conventional container house and protecting electrical wiring, Korean Patent Registration No. 10-1491418 (a container house with reinforced insulation) has been proposed.

The "container house with reinforced insulation" of the prior art is easy to assemble without forming a separate space for installing a plurality of electrical wiring, and it is possible to exclude the possibility of a fire even if a spark occurs due to an electric short, and also Even if the side wall and ceiling of the container house rise to 70~80℃ in midsummer, high heat is not transmitted to the electrical wiring, thereby preventing the insulating layer surrounding the electrical wiring from being damaged or curing is accelerated.

In addition, as a representative prior art for rapidly draining rainwater and extending the lifespan of a container house by preventing corrosion, Korean Patent Registration No. 10-1669795 (container assembly house) has been proposed.

In the "container assembly house" of the prior art, when it rains a lot, such as during the rainy season, rainwater flows through the vertical drainage hole in the post serving as the drainage guide and the support integral to both the edge of the deck plate and the drainage path of the deck plate. By allowing it to pass through and drain quickly to the ground, it is possible to not only improve drainage performance but also prevent water from seeping into the interior of the container house along the sidewall, and also prevent corrosion and extend the life of the container house by preventing the entire outer surface of the container house from getting wet provides the effect of

However, in the "container house" presented in the prior art, fine dust is contained in the outside air and flows into the room, and harmful gases and dust are stagnant in the room, thereby causing respiratory diseases to the user while the indoor air is turbid and , there are problems in that it is not easy to ventilate the room.

In addition, warm indoor air in winter when the temperature is low is discharged to the outside through a ventilator, and cold outside air is introduced into the room.

Republic of Korea Patent Registration No. 10-1391076. Korean Patent Registration No. 10-1401209. Republic of Korea Patent Registration No. 10-1491418. Republic of Korea Patent Registration No. 10-1669795. Republic of Korea Patent Registration No. 10-1924136.

The present invention is a technology devised to improve the problems of the "container house" presented in the prior art. In a container house, a space is configured inside a ceiling part and a side wall part, respectively, a heat exchanger is installed in the space part of the ceiling, and outside air Provide a remote management container house that removes fine dust and harmful gases remotely managed remotely through an app on the mobile phone, while indoor air is exhausted to the outside after passing through the heat exchanger while being blown to the indoor ceiling aim to do

In addition, the present invention filters external air with an air filter, blows clean air into the room through heat exchange, and sucks harmful gases and dust in the room and exhausts them to the outside, thereby preventing respiratory diseases of users and providing heating and cooling. It aims to provide a remote management container house that reduces the management cost required and removes fine dust and harmful gases that prevent dew condensation in winter when the temperature is low.

The present invention is to realize the desired object as described above,

A container house comprising: a floor forming an indoor floor surface, a side wall forming an external wall, and a ceiling forming an indoor ceiling; a space portion configured inside the side wall portion and the ceiling portion; a heat exchanger installed in the inner space of the ceiling and configured to exchange heat between outdoor air and indoor air to be sucked in and exhausted; and an air filter installed in the suction duct through which external air is introduced into the heat exchanger and filtering fine dust and foreign substances.

In addition, as an embodiment of the present invention, the space portion is characterized in that the support is installed at regular intervals on the inner surface of the side wall and the ceiling, and the finishing panel is attached and installed inside the support.

In addition, as an embodiment of the present invention, in the heat exchanger, a suction duct through which outside air is sucked, a blowing duct through which outside air is blown into a room, an exhaust duct through which indoor air is discharged to the outside, and an intake duct through which indoor air is sucked are a side wall portion and a ceiling portion. It is characterized in that it is connected and installed in the space of the

In addition, as an embodiment of the present invention, the intake duct is characterized in that the intake port is connected to the intake window disposed on the floor surface of the room through the inner space of the side wall in the heat exchanger disposed in the space of the indoor ceiling.

An embodiment of the present invention filters and heat-exchanges external air to blow clean air into the room, sucks in harmful gases and dust in the room and exhausts it to the outside, thereby preventing a user's respiratory disease while preventing a user's respiratory disease. It has the effect of being managed remotely from a distance.

In addition, in an embodiment of the present invention, outside air is blown to the ceiling of the room after passing through the air filter and heat exchanger, and harmful gas and turbid air in the room are sucked into the side wall of the indoor floor and exhausted to the outside through the heat exchanger, so that heating and It is effective in reducing maintenance costs for cooling and preventing condensation on the ceiling and side walls in winter when the temperature is low.

1 is a perspective view showing an embodiment of the present invention.
Figure 2 is a perspective view of the internal installation state showing an embodiment of the present invention.
Figure 3 is a perspective view showing the installation state of the heat exchanger and the duct in the present invention.
4 is a cross-sectional view showing an exhaust state of indoor air in the present invention.
Figure 5 is a cross-sectional view showing the blowing state of the outside air in the present invention.
6 is a side cross-sectional view showing an exhaust state and a blowing state of indoor air and outdoor air in the present invention.
7 is a perspective view showing another installation state of the heat exchanger and the duct in the present invention.
8 is a cross-sectional view showing another exhaust state of indoor air in the present invention.
9 is a side cross-sectional view showing different exhaust states and blowing states of indoor air and outdoor air in the present invention;
Figure 10 is a perspective view showing the main part of the installation state of the space in the present invention.
11 is a cross-sectional view showing the installation state of the heat exchanger and the air filter in the present invention.

A main configuration according to an embodiment of the present invention is a container house comprising a floor portion 10 forming an indoor floor surface, a side wall portion 20 forming an exterior wall, and a ceiling portion 30 forming an indoor ceiling; a space portion 40 configured inside the side wall portion 20 and the ceiling portion 30; a heat exchanger (50) installed in the inner space (40) of the ceiling part (30) and for exchanging heat between external air and indoor air to be sucked in and exhausted; and an air filter (60) installed in the suction duct (51) through which external air is introduced into the heat exchanger (50) and filtering fine dust and foreign substances.

In the main configuration of the above embodiment, the container house generally includes a floor portion 10 forming an indoor floor surface, a side wall portion 20 forming an exterior wall of all four sides, and an indoor ceiling, as shown in FIGS. 1 and 2 in the drawings. Consists of a ceiling portion 30 to form, and a post is installed vertically at the corner of the base 11 placed on the ground, and the floor portion 10, the side wall portion 20, and the ceiling portion 30 are each fixedly installed. do.

On the other hand, the inner space of the floor portion 10, the side wall portion 20, and the ceiling portion 30 constituting the container house is filled with an insulating material to increase the insulation, and when used as a simple accommodation or office, strong sunlight and rainwater in summer A roof may be installed on the upper side of the ceiling part 30 in order to block.

In addition, in the main configuration of the embodiment, the space portion 40 is a function of increasing the thermal insulation properties of the side wall portion 20 and the ceiling portion 30, and the space portion 40 is shown in Figs. 2 and 4 to 6 in the drawings, It is arranged on the indoor side of the side wall part 20 and the ceiling part 30, and consists of a predetermined space.

In the space portion 40, as shown in FIG. 10 in the drawing, the support 42 is attached and installed at regular intervals on the inner surfaces of the side wall portion 20 and the ceiling portion 30, and inside the support 42 The finishing panel 41 is attached and installed to provide a predetermined space inside the side wall portion 20 and the ceiling portion 30 .

On the other hand, the lower side of the finishing panel 41 constituting the space 40 , that is, on the indoor floor surface, an intake window 43 through which indoor air is sucked is installed, and the intake window 43 is located below the closing panel 41 . is disposed at appropriate intervals, and a plurality of intake holes 44 are perforated to suck in harmful gases and turbid air stagnated on the indoor floor.

In addition, in the main configuration of the above embodiment, the heat exchanger 50 serves as a function of heat-exchanging the outdoor air flowing into the room and the indoor air discharged to the outside. It is disposed in the inner space 40 of the 30, and the outside air and the indoor air exchange heat with each other and are sucked in and exhausted.

In the above, the heat exchanger 50 is fixedly installed on the finishing panel 41 in the inner space portion 40 of the ceiling part 30, the suction duct 51 through which outside air is sucked, and the outside air is blown into the room. The ventilation duct 53 and the exhaust duct 52 through which the indoor air is discharged to the outside, and the intake duct 54 through which the indoor air is sucked are respectively connected and installed, and the suction duct 51 and the exhaust duct 52 are connected to one side It is disposed outside through the upper portion of the side wall portion 20 .

On the other hand, as shown in FIG. 5 in the drawing, in the ventilation duct 53 for blowing outside air into the room, the air outlet 53a is attached to the closing panel 41 of the space 40 from the indoor ceiling at appropriate intervals and installed to heat exchange. It blows the outside air to the indoor ceiling.

In addition, the intake duct 54 through which the indoor air is sucked is disposed on the indoor floor surface through the inner space 40 of the side wall 20 in the heat exchanger 50 disposed in the space 40 of the indoor ceiling. The intake port 54a is connected to the intake window 43, so that harmful gases and turbid air stagnated on the indoor floor are sucked in.

In addition, in the main configuration of the embodiment, the air filter 60 filters the external air sucked into the heat exchanger 50 to block fine dust and foreign substances, and the air filter 60 is It is connected to the suction duct 51 through which external air flows into the heat exchanger 50, and the filter is installed inside the case.

In the above, the air filter 60 is fixedly installed on the finishing panel 41 in the inner space 40 of the ceiling 30, and for exchanging the filter on the bottom surface finishing panel 41 of the air filter 60. The door 61 is installed so that it can be opened and closed.

Therefore, the air filter 60 filters the external air sucked into the heat exchanger 50 to block fine dust and foreign substances, and the user opens the door 61 from inside the room, The filter can be removed and replaced easily.

Meanwhile, in another embodiment of the present invention, as shown in FIGS. 7 to 9 in the drawings, the intake ports 54a of the intake duct 54 for sucking indoor air are arranged at regular intervals in the space portion 40 of the ceiling portion 30 . .

In this case, since the intake port 54a sucks the indoor air in the space 40 of the ceiling part 30 , harmful gas and turbid air stagnated on the indoor floor are sucked into the intake window 43 disposed on the indoor floor surface. It moves to the space 40 of the ceiling 30 through the inner space 40 of the side wall 20 and is sucked into the intake port 54a.

Accordingly, the warm harmful gas and turbid air in the room are sucked into the intake window 43 disposed on the floor surface of the room, and the space portion 40 of the ceiling portion 30 through the inner space portion 40 of the side wall portion 20 . By moving to and sucking in, it is possible to prevent dew condensation on the ceiling portion 30 and the side wall portion 20 in the winter when the temperature is low.

In the embodiment of the present invention having such a configuration, the outdoor air is blown to the ceiling of the room after passing through the air filter and heat exchanger, and as the harmful gas and turbid air in the room are exhausted to the outside through the heat exchanger, heating and cooling are required. Management costs can be reduced, and heat exchangers and internal facilities (CCTV, refrigerator, camera, etc.) can be remotely managed from a distance through the mobile phone app.

In addition, according to an embodiment of the present invention, the space part is configured as a predetermined space inside the side wall part and the ceiling part, and warm harmful gas and turbid air in the room move to the space part of the ceiling part through the inner space part of the side wall part and are sucked into the heat exchanger, It effectively prevents dew condensation on the ceiling and side walls in winter when the temperature is low.

In addition, in the embodiment of the present invention, since external air is filtered in a clean state through the air filter and heat exchanger and blown into the room, fine dust and foreign substances are blocked to prevent respiratory diseases of the user, and a comfortable indoor environment is provided.

The preferred embodiment of the present invention has been described with reference to the above, and it is not limited to the above embodiment, and a person of ordinary skill in the art to which the present invention belongs through the above embodiment does not deviate from the gist of the present invention It can be implemented with various changes in

10: bottom part 11: base
20: side wall portion 30: ceiling portion
40: space 41: finish panel
42: support 43: intake window
50: heat exchanger 50a: door
51: intake duct 52: exhaust duct
53: ventilation duct 53a: ventilation port
54: intake duct 54a: intake port
60: air filter 61: door

Claims (4)

A container house comprising: a floor portion 10 forming an indoor floor surface, a side wall portion 20 forming an external wall, and a ceiling portion 30 forming an indoor ceiling;
a space portion 40 configured inside the side wall portion 20 and the ceiling portion 30; a heat exchanger 50 installed in the inner space 40 of the ceiling part 30 and heat-exchanged between external air and indoor air to be sucked in and exhausted;
In the space portion 40, a support 42 is attached to the inner surface of the side wall portion 20 and the ceiling portion 30 at regular intervals, and a finishing panel 41 is attached and installed on the inside of the support inner 42. becomes,
The heat exchanger (50) includes a suction duct (51) through which outside air is sucked, a blowing duct (53) through which outside air is blown into the room, an exhaust duct (52) through which indoor air is discharged to the outside, and an intake air through which indoor air is sucked. The duct 54 is connected and installed in the space portion 40 of the side wall portion 20 and the ceiling portion 30,
In the intake duct 54, the intake port 54a is connected to the intake window 43 disposed on the indoor floor surface through the inner space portion 40 of the side wall portion 20 in the heat exchanger 50,
An air filter 60 is fixedly installed on the finish panel 41 in the inner space 40 of the ceiling 30, and the air filter 60 is a suction duct through which external air flows into the heat exchanger 50 ( 51), the filter is installed inside the case, and the door 61 for exchanging the filter is installed on the bottom end panel 41 of the air filter 60 so that it can be opened and closed. A remote management container house that removes harmful gases. delete delete delete

Images