KR102007167B1 - Air clean precision air conditioner system for operating room - Google Patents

Abstract

The present invention relates to a clean constant-temperature constant-humidity system for an operating room. An objective of the present invention is to provide a clean constant-temperature constant-humidity system for an operating room which uses a corner space of an operating room to be installed, prevents an outside air duct from being exposed to the outside to easily manage infection prevention, and requires a short construction time to be easily applied to operating rooms of small and medium hospitals. To achieve the objective, the clean constant-temperature constant-humidity system for an operating room comprises: an operating space including a corner formed to have an angle between two walls within 180 degrees; a constant-temperature constant-humidity unit including two tight response surfaces tightly attached while facing the two walls forming the corner, and a rear surface connecting the two tight response surfaces to each other and being separated from the corner, wherein equipment for adjusting an air flow, temperature, and humidity is installed in a case for forming an outside air introduction passage with the walls forming the operating space; and a finishing member installed to be extended from the constant-temperature constant-humidity unit arranged on the corner to a ceiling of the operating space to close a space between the constant-temperature constant-humidity unit and the ceiling. The constant-temperature constant-humidity unit includes: a diffuser having a plurality of wings arranged in a circular structure and inclined in the same direction; an outside air duct embedded to have a structure connected to the outside air introduction passage; and an outside air damper installed on the outside air duct to open and close a flow passage of the outside air duct. The finishing member includes: a first finishing plate formed to protrude upwards from an upper end of the constant-temperature constant-humidity unit; and a second finishing plate coupled to the first finishing plate to connect the first finishing plate and the ceiling of the operating space.

Description

Air clean precision air conditioner system for operating room

The present invention relates to a clean constant temperature and humidity system for an operating room, and more particularly, a constant temperature and humidity unit is disposed in the corner space of the operating room, and an air inflow passage is formed between the constant temperature and humidity unit and the corner wall to suppress the exposure of the air induction duct. The present invention relates to a clean constant temperature and humidity system dedicated to an operating room, which can be easily applied to a small and medium hospital operating room.

Hospital operating rooms must maintain a certain level of cleanliness, temperature, and humidity to protect patients from infection, prevent thermal stress from medical staff, and protect precision medical equipment.

To meet the above three, large hospitals have installed air supply equipment with HEPA filters built into the ceiling of the operating room, and adopt a system that supplies air-conditioned air to the operating room through an air conditioner. This type of air conditioning system is very suitable for the high-risk operating room where high cleanliness is required because the discharge area of the HEPA filter can be largely applied.

However, it is somewhat excessive to adopt the above-described air conditioning method for the medium-risk operating room, which does not have a high degree of cleanliness, and there is a practically impossible part of renovation work by adopting the above air conditioning method in the operating room of a small and medium-sized hospital.

The reason is that the above air conditioning method is inevitable to spread the infection due to scattering dust generated during construction because it is inevitable that the construction work for embedding the air supply equipment with hepa filter embedded in the ceiling is inevitable.

In addition, the construction period of the work to install the air supply device with a built-in HEPA filter on the ceiling of the operating room is long, it is impossible to use the operating room for a long time, and sufficient installation space is required inside the ceiling for the stable installation of the air supply device, Many small and medium hospitals are difficult to secure installation space inside.

On the other hand, the package air conditioning unit with a built-in HEPA filter can be applied to the operating room of the small and medium hospitals, but this method is simply to apply the air conditioning unit applied to the general industrial clean room to the hospital operating room, equipment other than medical equipment is exposed Not suitable for the characteristics of the operating room to be reluctant, the external air induction duct is exposed to the interior of the operating room as it is not aesthetically good as well as difficult to prevent infection management.

Publication 10-2003-0024091 published on March 26, 2003

The present invention has been made in consideration of the above problems, the object of the present invention can be installed by utilizing the corner space of the operating room, as well as the outside exposure of the outside duct is easy to prevent infection management, the required construction period is short It is to provide a clean constant temperature and humidity system for the operating room that can be easily applied to the operating room of small and medium hospitals.

The present invention to achieve the object as described above and to perform the task for eliminating the conventional defects is made by surgery by the surgical equipment. A surgical space comprising at least one corner formed such that the two walls have an angle within 180 degrees; Two airtight contact surfaces which are in close contact with the two walls forming the corners and the two airtight contact surfaces are connected to each other, and an external air inlet flow path is formed together with a wall surface including a rear surface spaced from the corners to form a surgical space. Constant temperature and humidity unit consisting of equipment for controlling the flow of air and temperature and humidity in the case made to; And a finishing member installed to extend from the constant temperature / humidity unit disposed at the corner to the ceiling of the surgery space, and closing the space between the constant temperature / humidity unit and the ceiling; wherein the constant temperature / humidity unit has a plurality of wings arranged in a circular structure. Diffuser formed to be inclined in the same direction; An outside air duct embedded to have a structure connected to the outside air inlet passage; And an outside air damper installed in the outside air duct to open and close the flow path of the outside air duct, wherein the finishing member comprises: a first finishing plate material protruding upward from an upper end of the constant temperature and humidity unit; And a second finishing plate coupled to the first finishing plate to connect the ceiling of the first finishing plate and the surgical space.

delete

delete

delete

Meanwhile, in the operating room dedicated clean constant temperature and humidity system, the case includes a lower air conditioning chamber and an upper discharge chamber, and a cooling coil, a heating coil, an electrode humidifier are installed in the lower air conditioning chamber, and an EC fan and Hepa filters and diffusers can be installed.

According to the present invention having the characteristics as described above, by installing a constant temperature and humidity unit in the corner of the operating room, by utilizing the space of the constant temperature and humidity unit and the corner wall to form an air intake airway, minimizing the exposure of the constant temperature and humidity unit In addition, it is easy to prevent infection by excluding external exposure of the duct, and there is an effect that can minimize the construction period in the operating room.

In addition, the use of a high efficiency EC fan as the blower, and the use of a large filter area HEPA filter can be used to increase the filter life and reduce the pressure loss to reduce the power of the blower. It also has the effect of reducing the noise generated.

In addition, by applying a diffuser in which a plurality of wings arranged in a circular arrangement inclined in the same direction to increase the reach of the air flow by the swirling air flow effect, the cleanliness and temperature and humidity of the operating room is required quickly and stably The effect is adjustable to the level.

1 is a structural diagram of an operating room to which a clean constant temperature and humidity system according to a preferred embodiment of the present invention,
Figure 2 is a cross-sectional view showing a state in which the constant temperature and humidity unit according to a preferred embodiment of the present invention installed in the operating space,
Figure 3 is a plan view showing a state in which the constant temperature and humidity unit according to a preferred embodiment of the present invention installed in the operating space,
4 is a cross-sectional view of a constant temperature and humidity unit according to a preferred embodiment of the present invention;
5 is a front view of a constant temperature and humidity unit according to a preferred embodiment of the present invention,
6 is a perspective view of a finishing plate according to a preferred embodiment of the present invention,
Figure 7 is an exemplary view showing a state in which the height of the closing member is adjusted according to the ceiling height of the operating room.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a structural diagram of an operating room to which a clean constant temperature and humidity system is applied according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view showing a state in which the constant temperature and humidity unit according to a preferred embodiment of the present invention is installed in the operating space, Figure 3 4 is a plan view showing a state in which the thermo-hygrostat unit according to a preferred embodiment of the present invention is installed in a surgical space, FIG. 4 is a cross-sectional view of the thermo-hygrostat unit according to a preferred embodiment of the present invention, and FIG. 5 is a preferred embodiment of the present invention. 6 is a perspective view of the finishing plate according to a preferred embodiment of the present invention, Figure 7 shows an exemplary view showing a state in which the height of the closing member is adjusted according to the ceiling height of the operating room. .

Operating room clean constant temperature and humidity system according to the present invention is composed of a surgical space 100, a constant temperature and humidity unit 200, the closing member 300.

The surgical space 100 is a space in which various surgical tools are provided for the treatment of a patient, in which a surgery is performed. A planar polygonal structure includes at least one edge formed such that two neighboring walls have an angle within 180 degrees. It is configured to have.

For example, the surgical space 100 having a quadrangular planar structure includes four corners.

The constant temperature and humidity unit 200 is disposed inside the surgery space 100 to maintain the cleanliness and temperature and humidity of the surgery space 100 at a predetermined level, the case 210, the cooling coil 220, heating A coil 230, an electrode humidifier 240, an EC fan 250, an electronically committed fan, a hepa filter 260, and a diffuser 270 are included.

The case 210 has two close contact surfaces 211 and 212 which are in close contact with the two walls 101 and 102 which form the corners of the surgical space 100, and the two close contact surfaces 211 and 212 which are spaced apart from the corners. It is formed to have a planar structure similar to a triangle as a whole, including the back surface 213 for connecting.

According to the case 210 having the planar structure as described above, when the thermo-hygrostat unit 200 is disposed at the corner of the surgical space 100, the edge of the surgical space 100 and the rear surface 213 of the case 210 are provided. Since a space is formed therebetween, the space thus formed is utilized as the air inflow passage S, and thus, there is no need to install a duct for the introduction of external air into the surgical space 100.

On the other hand, the inside of the case 210 is divided into the upper discharge chamber (C1), the lower air conditioning chamber (C2), the air inlet chamber (C3), the EC fan 250 and the HEPA filter in the upper discharge chamber (C1) 260 and a diffuser 270 are installed, and a cooling coil 220, a heating coil 230, and an electrode humidifier 240 are installed in the lower air conditioning chamber C2.

In addition, the air inlet chamber (C3) is formed in the lower portion of the lower air conditioning chamber (C2), the air inlet chamber (C3) pre-filter 280 for filtering the foreign matter introduced with the bet from the surgical space 100 And an outside air duct 290 connected to the outside air inlet passage S to form a flow path through which the outside air is introduced, and an outside air damper 291 is installed in the outside air duct 290 to control the inflow of outside air. Is done.

Therefore, when the outside air damper 291 is controlled to open the flow path, the outside air flows into the lower air conditioning chamber C2 via the outside air duct 290 and the air inlet chamber C3.

The cooling coil 220 is installed in the lower air conditioning chamber (C2) to cool the outside air and the indoor ventilation introduced into the lower air conditioning chamber (C2), and the outside air and heat through the heat exchange between the refrigerant (or cooling water) and the outdoor air and the indoor ventilation. It may be configured to induce cooling of the indoor ventilation.

The heating coil 230 is installed in the lower air conditioning chamber (C2) to be located at the rear end of the cooling coil 220 based on the flow path of the outdoor air and indoor ventilation to heat the outdoor air and indoor ventilation, electric heater It can be configured as.

The electrode humidifier 240 is installed inside the lower air conditioning chamber C2 so as to be located at the rear end of the heating coil 230 based on the flow path of the outdoor air and the indoor ventilation, and configured to humidify the outdoor air and the indoor ventilation.

The EC fan 250 is a well-known high efficiency blower known as an electronic rectifying fan, and the use of the EC fan 250 enables energy saving of the constant temperature and humidity unit 200 as well as the configuration of a low noise air conditioning space.

The EC fan 250 is located inside the upper discharge chamber C1, and is installed in a partition wall that divides the upper discharge chamber C1 and the lower air conditioning chamber C2 to supply air to the lower air conditioning chamber C2. It is configured to flow to the discharge chamber C1.

The hepa filter 260 has a collection efficiency of 99.97% or more based on 0.3 μm, and is composed of a plate-shaped hepa filter having a large discharge area in a rectangular structure. The hepa filter 260 is installed to filter the air discharged from the upper discharge chamber C1.

The diffuser 270 is to spread the air discharged from the upper discharge chamber C1 farther. The diffuser 270 is installed in the upper discharge chamber C1 and has a plurality of vanes 271 formed to be inclined in the same direction. It consists of arranged in the structure of.

According to the diffuser 270, the air conditioning air discharged from the upper discharge chamber (C1) forms a swirling air flow through a plurality of wings, by forming a swirling air in the air conditioning by using the diffuser 270 It is possible to increase the reach of air conditioning air.

The closing member 300 is to close between the constant temperature and humidity unit 200 and the ceiling (100a) of the surgical space 100, from the upper end of the constant temperature and humidity unit 200 to the ceiling (100a) of the surgical space 100 It is installed to have an extended structure.

On the other hand, the finishing member 300 according to a preferred embodiment of the present invention is composed of a first finishing plate material 310 and the second finishing plate material (320).

The first finishing plate 310 is fixed to the case 210 so as to have a structure protruding in the vertical upper direction from the upper surface of the case 210 constituting the constant temperature and humidity unit 200, two wall surfaces forming a corner One end is in close contact with one of the wall surfaces, and the other end is in close contact with the other wall surface.

The second finish plate 320 is coupled to the upper end of the first finish plate 310 to have a structure extending from the first finish plate 310 to the ceiling (100a) of the surgical space 100.

The second finishing plate 320 has a structure that connects two wall surfaces forming corners similarly to the first finishing plate 310, and is separated from the first finishing plate 310, the ceiling of the surgical space 100 ( 100a) closing the space between the constant temperature and humidity unit 200 and the ceiling 100a of the surgical space 100 while adjusting the position coupled to the first finishing plate 310 according to the height.

The coupling of the first finish plate 310 and the second finish plate 320 may be a known fastening method such as bolts, nuts, rivets.

On the other hand, the second finishing plate 320 is installed on the upper end of the first finishing plate 310 so as to have a structure that can be moved up and down while being coupled to the first finishing plate 310 (the ceiling of the surgical space 100 ( 100a) it may be configured to connect the ceiling (100a) of the first finishing plate 310 and the surgical space 100 while moving up and down according to the height.

In order to apply the operating room dedicated clean constant temperature and humidity system according to the present invention configured as described above to the operating room first determine the capacity and quantity of the constant temperature and humidity unit 200 in consideration of the size and structure of the actual operating room fabricated and manufactured in the factory The thermo-hygrostat unit 200 is installed at the corner of the operating room.

When the thermo-hygrostat unit 200 is installed, the thermo-hygrostat unit 200 is disposed so that the two close contact surfaces 211 and 212 formed at the rear of the case 210 closely contact the two wall surfaces 101 and 102 forming the corners of the operating room. At this time, since the rear surface 213 of the case 210 is spaced apart from the corners, the outdoor air flow passage S is naturally formed between the constant temperature and humidity unit 200 and the edges.

On the other hand, before the arrangement of the constant temperature and humidity unit 200, the connecting socket 400 connected to the air inlet flow path (S) is installed on the ceiling (100a) of the corner, the outer duct not shown in the connecting socket 400 The operation of connecting the air to the outside air flow path (S) to the outside of the operating room is preceded by the operation.

When the installation of the thermo-hygrostat unit 200 is completed, the space between the upper end of the thermo-hygrostat unit 200 and the ceiling 100a is closed by the finishing member 300, and the finishing member 300 is the first finishing plate material. When divided into 310 and the second finish plate 320, by coupling to the first finish plate 310 in a state where the position of the second finish plate 320 is adjusted according to the height of the ceiling (100a) of the operating room, The space between the thermo-hygrostat unit 200 and the ceiling 100a can be closed more easily.

In installing the constant temperature and humidity unit 200 and the finishing member 300 as described above, if necessary, the sealing material between the constant temperature and humidity unit 200 and the wall surface and between the closing member 300 and the wall surface and the ceiling (100a). May be additionally constructed.

When the thermo-hygrostat unit 200 is installed as described above, the external air duct 290 built in the thermo-hygrostat unit 200 is connected to the external air inlet passage S and the outdoor air inlet passage S is connected to the ceiling 100a of the operating room. Since it is connected to the external duct through the connection socket 400 is installed to receive the outside air, there is no need to install a duct for the positive pressure maintenance and ventilation of the operating room inside the operating room.

As described above, according to the constant temperature and humidity system according to the present invention, since the external air inlet structure is formed through the proper arrangement of the constant temperature and humidity unit 200, the ducts for maintaining the positive pressure and ventilation of the operating room are not exposed to the outside, so the interior is more beautiful. It can reduce the construction period, reduce the construction cost, and is effective in preventing infection.

In addition, due to the installation structure using the corner of the operating room occupies a small installation area, less interference with medical equipment, good airflow distribution can create an optimal surgical environment.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

<Explanation of symbols for the main parts of the drawings>
100: surgery space 200: constant temperature and humidity unit
210: case 211,212: close contact surface
213: rear face 220: cooling coil
230: heating coil 240: electrode humidifier
250: EC fan 260: Hepa filter
270: diffuser 271: wings
290: air duct 291: air damper
300: finishing member 310: first finishing plate
320: second finish plate

Claims (5)

Surgery is performed by surgical equipment. A surgical space 100 including at least one corner formed such that two walls have an angle within 180 degrees;
The surgical space 100 includes two close contact surfaces 211 and 212 which are in close contact with two walls forming the corners, and a back surface 213 which is spaced apart from the corners by connecting the two close contact surfaces 211 and 212 with each other. Constant temperature and humidity unit 200 consisting of equipment for controlling the flow of air and temperature and humidity in the interior of the case 210 formed to form an external air inlet flow path (S) with a wall to form a); And
A finishing member 300 installed to extend from the constant temperature and humidity unit 200 disposed at the corner to the ceiling 100a of the surgical space 100 to close the space between the constant temperature and humidity unit 200 and the ceiling 100a; Composed,
The constant temperature and humidity unit 200, the plurality of wings 271 arranged in a circular structure in which the diffuser 270 is inclined in the same direction; An outside air duct 290 embedded to have a structure connected to the outside air inlet passage S; And an external air damper 291 installed in the external air duct 290 to open and close the flow path of the external air duct 290.
The finishing member 300, the first finishing plate member 310 formed to protrude upward from the upper end of the constant temperature and humidity unit 200; And a second finishing plate 320 coupled to the first finishing plate 310 to connect the first finishing plate 310 and the ceiling 100a of the surgical space 100. Constant temperature and humidity system. delete delete delete The method according to claim 1,
The case 210 includes a lower air conditioning chamber C2 and an upper discharge chamber C1,
Cooling coil 220 and heating coil 230 and the electrode humidifier 240 is installed in the lower air conditioning chamber (C2),
Clean room temperature and humidity system for the operating room, characterized in that the EC fan 250, the HEPA filter 260 and the diffuser 270 is installed in the upper discharge chamber (C1).

Images