JP6691516B2 - Fire extinguishing system in hospital - Google Patents

Description

  The present invention relates to a fire extinguishing system for a hospital.

  Conventionally, wet pressure sprinkler systems have been used as fire extinguishing systems in hospitals. The wet sprinkler is disclosed in Japanese Patent No. 3264939.

Patent No. 3264939

  The conventional sprinkler system has a problem that water is discharged from the sprinkler head when the sprinkler head fails. Therefore, the present invention has been made to solve the above problems, and an object thereof is to provide a fire extinguishing system for a hospital in which water is not discharged when the sprinkler head is damaged.

  A fire extinguishing system of a hospital according to the present invention has a sprinkler head and a sprinkler pipe for supplying water to the sprinkler head, and the sprinkler pipe is maintained in a negative pressure state in a normal state. And a negative pressure pipe for supplying a negative pressure used in a hospital, a sprinkler pipe, and a negative pressure device for supplying a negative pressure to the negative pressure pipe. It should be noted that the normal state means a normal state, in which no fire has occurred.

  Since the fire extinguishing system of the hospital configured as described above uses the negative pressure sprinkler system, even if the sprinkler head is damaged, water is not discharged from the sprinkler head. When water is released from the ceiling in a hospital, the patient may mistake it for medical drainage. Medical effluent may contain pathogens and viruses and is harmful to the human body. Such misidentification is a serious and hospital-specific problem for hospitals. The spread of such rumors causes reputational damage.

  On the other hand, if the sprinkler head is damaged in the negative pressure sprinkler system, the damaged sprinkler head draws in air to generate suction noise, but water is not discharged. Negative pressure pipes are usually lined up in the hospital, and since suction work and the like are performed using negative pressure, air suction noise is generated everywhere in the hospital. Even if a suction sound is generated from the damaged sprinkler head, it is a sound generated throughout the hospital, and the patient does not feel anxious.

  Preferably, the fire extinguishing system of the hospital further includes a connecting pipe provided in a certain compartment of the hospital and connecting the sprinkler pipe and the negative pressure pipe. In this case, a negative pressure sprinkler system can be realized only by connecting the sprinkler pipe and the negative pressure pipe within a certain section.

  Preferably, the sprinkler pipe is normally filled with water and kept in a negative pressure state. In this case, water can be immediately discharged from the sprinkler head in case of fire.

  Preferably, the sprinkler pipe is not normally filled with water and is kept in a negative pressure state. In this case, even if the plurality of sprinkler heads are damaged, water will not be discharged from the sprinkler heads.

  Preferably, the sprinkler head is installed in a compartment where the temperature is kept above 0 ° C.

  According to the present invention, it is possible to provide a fire extinguishing system for a hospital in which water is not discharged from the sprinkler head even when the sprinkler head is damaged.

It is a schematic diagram of the fire extinguishing system of the hospital according to the first embodiment.

(Embodiment 1)
(Structure of fire extinguishing system in hospital)
FIG. 1 is a schematic diagram of a fire extinguishing system of a hospital according to the first embodiment. As shown in FIG. 1, the fire extinguishing system 1 of a hospital is installed in a building 10 of a hospital. The building 10 has a first section 11 that is a lower floor and a second section that is an upper floor.

  The negative pressure sprinkler system 100 includes a primary pipe 101, a secondary pipe 102 connected to the primary pipe 101, a sprinkler head 103 provided in the secondary pipe 102, and a boundary between the primary pipe 101 and the secondary pipe 102. It has a valve 105 provided and a water pump 106 for sending water to the primary pipe 101.

  The primary pipe 101 is filled with water. This water is pressurized by the water pump 106. Water is supplied to the water pump 106 from a fire extinguishing water tank (not shown). Water may be supplied to the water pump 106 from the elevated water tank on the top floor of the building 10.

  The primary pipe 101 rises vertically from the water pump 106 to the top of the building 10 and is branched at each floor. Although the present embodiment describes a two-story building 10, the floor of the building 10 is not limited to the second floor.

  The water in the primary pipe 101 is stopped by the valve 105, and when the valve 105 is opened, the water in the primary pipe 101 is sent to the secondary pipe 102. The opening and closing of the valve 105 is controlled by the computer 302.

  The secondary pipe 102 is connected to the valve 105. The secondary pipe 102 is arranged in the second section 12. Although the valve 105 is arranged in the second section 12 in this embodiment, the valve 105 may be arranged in the first section 11.

  The secondary pipe 102 is arranged on the ceiling of the second section 12. The secondary pipe 102 is provided with a plurality of sprinkler heads 103. The number of sprinkler heads 103 is determined by the size of the second section 12.

  In this embodiment, an example in which the sprinkler head 103 is provided in the second section 12 is shown, but the secondary pipe 102 and the sprinkler head 103 may be arranged in the first section 11.

  The sprinkler head 103 is a closed type sprinkler head and has a plurality of holes for discharging water. The sprinkler head 103 has a heat-sensitive mechanism (fusible metal piece). In a normal state, a hole for discharging water and the primary pipe 101 are shielded in the sprinkler head 103. When the heat-sensitive mechanism is melted by the flame at the time of fire, the cutoff is opened and water is discharged from the hole of the sprinkler head 103 via the primary pipe 101.

  The negative pressure system 200 includes a negative pressure pipe 201, a negative pressure pump 204 that makes the negative pressure pipe 201 a negative pressure, an outlet 203 connected to the negative pressure pipe 201, a negative pressure pipe 201, and a secondary pipe 102. And a connecting pipe 205 for connecting

  The negative pressure pump 204 is provided in the first section 11 and generates a negative pressure. The negative pressure pump 204 is a vacuum pump. In this embodiment, the water pump 106 and the negative pressure pump 204 are installed in the same first section 11, but they may be installed in different sections.

  The negative pressure pump 204 (suction pump) may be composed of a main machine and a standby machine. In this case, the amount of use of the entire hospital can be covered even at the time of failure or maintenance. Air that contains aspirated bacteria and bacteria is collected by a suction filter so that it does not pollute the atmosphere.

  The negative pressure pipe 201 connected to the negative pressure pump 204 rises vertically from the negative pressure pump 204 to the top floor of the building 10 and is branched at each floor. The negative pressure pipe 201 is branched on each floor, and the negative pressure pipe 201 is stretched around each room.

  The hospital building 10 has compartments (rooms) such as a hospital room, a staff station, a common area, and an operating room, and the negative pressure pipe 201 reaches each compartment. In a hospital room or an operating room, negative pressure is used, for example, in order to aspirate the sputum of a patient. At the staff station and the common area, a negative pressure pipe 201 is connected to a pressure monitor that monitors whether negative pressure is generated.

  The outlet 203 is provided in the second section 12. The negative pressure pipe 201 is connected to the outlet 203.

  An outlet for medical gas such as oxygen, laughing gas, air, nitrogen, carbon dioxide may be provided adjacent to the outlet 203 for suction. Central pipes (central piping) can be used to centralize maintenance and management, and by piping behind walls and ceilings, space can be effectively used, and it is sanitary and economical. .

  The negative pressure pipe 201 and the secondary pipe 102 are connected by a connection pipe 205. The connection pipe 205 and the secondary pipe 102 are connected at a connection point 202. As a result, in the normal state, the inside of the secondary pipe 102 has a negative pressure.

  In the normal state, the inside of the secondary pipe 102 has a negative pressure, and there is no water. The negative pressure can prevent water from staying in the secondary pipe 102. Even if water stays in the secondary pipe 102, the boiling point of water becomes low under negative pressure. Therefore, the water in the secondary pipe 102 boils and is sucked by the negative pressure pump 204 via the connection pipe 205.

  The detection system 300 has a fire detector 301 and a computer 302. When a fire occurs in the second section 12, the fire detector 301 detects the heat or smoke. The computer 302 and the valve 105 are connected by a signal line 311. The computer 302 and the water pump 106 are connected by a signal line 312.

  The above fire extinguishing system 1 for a hospital has a sprinkler head 103 and a secondary pipe 102 as a sprinkler pipe for supplying water to the sprinkler head 103, and the secondary pipe 102 is normally maintained in a negative pressure state. The negative pressure sprinkler system 100, the negative pressure pipe 201 for supplying the negative pressure used in the hospital, the negative pressure as a negative pressure device for supplying the negative pressure to the secondary pipe 102 and the negative pressure pipe 201. And a pressure pump 204. The fire extinguishing system 1 of the hospital further includes a connecting pipe 205 provided in the second section 12 of the hospital and connecting the secondary pipe 102 and the negative pressure pipe 201. The negative pressure pipe 201 is not normally filled with water and is kept in a negative pressure state. The sprinkler head 103 is installed in the second section 12 in which the temperature is kept above 0 ° C. The negative pressure sprinkler system 100 is a dry negative pressure sprinkler system.

(Operation of fire extinguishing system in hospital)
When a fire occurs in the second section 12, the fire detector 301 detects heat or smoke caused by the fire. The detected information is sent from the fire detector 301 to the computer 302. Computer 302 signals valve 105 to open valve 105. The computer 302 drives the water pump 106 or increases the driving force of the water pump 106. As a result, the secondary pipe 102, which was in a negative pressure state without water in the normal state, is filled with water.

  The heat from the fire melts the heat-sensitive mechanism of the sprinkler head 103. As a result, the water discharge hole of the sprinkler head 103 and the secondary pipe 102 are connected. Water can be discharged from the water discharge hole of the sprinkler head 103 to extinguish the fire.

(effect)
In the hospital fire extinguishing system 1 thus configured, the negative pressure pump 204 is a suction pump and also a pump for making the secondary pipe 102 a negative pressure. Since the suction pump is originally provided in the hospital, the inside of the secondary pipe 102 can be made to have a negative pressure without adding new equipment.

  When the sprinkler head 103 is damaged in the normal state and the water discharge hole communicates with the secondary pipe 102, the hole sucks air in the second section 12 to generate a sound. In a hospital, work such as suction is performed by using a negative pressure, and thus air suction noise is generated everywhere in the hospital. Even if a suction sound is generated from the damaged sprinkler head 103, it is a sound generated everywhere in the hospital, and the patient does not feel anxiety.

  The connection pipe 205 is provided in the second section 12 in which the negative pressure pipe 201 and the secondary pipe 102 are provided. Therefore, the connection pipe 205 of the negative pressure pipe 201 and the secondary pipe 102 can be shortened, and the construction cost can be reduced.

  Further, the negative pressure sprinkler system 100 (hospital fire extinguishing system 1) according to the first embodiment has the following effects as compared with a dry type sprinkler system (pre-operation type sprinkler system) in which the secondary pipe normally has normal pressure. There is. In the atmospheric dry sprinkler system, the pump operates and the secondary pipe is filled with water at the time of fire, but at this time, the air in the secondary pipe is compressed with water, so it is smooth (in a short time). The secondary pipe is not filled with water. On the other hand, in the negative pressure sprinkler system 100, since the secondary pipe 102 has a negative pressure, the secondary pipe 102 is smoothly filled with water. Therefore, it is possible to solve the problem of delaying water sprinkling from the sprinkler head, which is a drawback of the conventional dry type sprinkler (pre-operation type sprinkler).

(Embodiment 2)
In the hospital fire extinguishing system 1 according to the second embodiment, the negative pressure pipe 201 is normally filled with water and is kept in a negative pressure state. Other configurations are common to the fire extinguishing system 1 of the hospital of the first embodiment.

  That is, the negative pressure sprinkler system 100 according to the second embodiment is a wet negative pressure sprinkler system. Since the pressure in the negative pressure pipe 201 is low, the water in the negative pressure pipe 201 easily evaporates. When the water in the negative pressure pipe 201 evaporates and decreases, a system for replenishing the decreased water is adopted. For example, if the water in the negative pressure pipe 201 decreases, the sensor detects the decrease in water, the sensor sends a signal to the computer 302, and the computer 302 slightly opens the valve 105 to replenish the negative pressure pipe 201 with water. May be.

  It is assumed that one sprinkler head 103 is damaged. In this case, since the suction force of the connecting pipe 205 is stronger than the force of water leaking from the damaged sprinkler head 103, water is not discharged from the damaged sprinkler head 103. When many sprinkler heads 103 are damaged at the same time, water is discharged from the damaged sprinkler heads 103, but it is extremely unlikely that many sprinkler heads 103 are damaged at the same time.

  The embodiments and examples disclosed this time are to be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above-described embodiments but by the scope of the claims, and is intended to include meanings equivalent to the scope of the claims and all modifications within the scope.

  The invention can be used in the field of fire extinguishing systems in hospitals.

  1 hospital fire extinguishing system, 10 building, 11 first section, 12 second section, 100 negative pressure sprinkler system, 101 primary piping, 102 secondary piping, 103 sprinkler head, 105 valve, 106 water pump, 200 negative pressure system, 201 negative pressure pipe, 202 connection point, 203 outlet, 204 negative pressure pump, 205 connection pipe, 300 detection system, 301 fire detector, 302 computer, 311, 312 signal lines.

Claims (4)

A fire extinguishing system in a hospital,
A sprinkler head, and a sprinkler pipe for supplying water to the sprinkler head, and a negative pressure sprinkler system in which the sprinkler pipe is maintained in a negative pressure state in a normal state,
A negative pressure device for supplying a negative pressure to the sprinkler pipe ,
The hospital building has a first section and a second section different from the first section, the negative pressure device is provided in the first section, and the sprinkler head is provided in the second section. Fire extinguishing system in a hospital.   The fire extinguishing system of a hospital according to claim 1, wherein water is normally filled in the sprinkler pipe and kept in a negative pressure state.   The hospital fire extinguishing system according to claim 1, wherein water is not normally filled in the sprinkler pipe and is kept in a negative pressure state.   4. The fire extinguishing system of a hospital according to claim 3, wherein the sprinkler head is installed in a compartment where the temperature is kept above 0 ° C.

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