JP2654227B2 - Exhaust method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exhaust method, and more particularly, to a method for efficiently exhausting smoke, waste gas, harmful gas, dust, or the like at a factory workplace without diffusing. It relates to an exhaust method. [Prior art] As the normal ventilation method, the first type of forced air supply and forced exhaust,
There are a second type of forced supply natural exhaust and a third type of natural supply forced exhaust. Further, a local exhaust device has been proposed in which a hood is provided above a place where a large amount of smoke, waste gas or dust is generated in a work place or the like, and the smoke is accommodated and eliminated in the hood. . [Problems to be Solved by the Invention] In the first to third types of the conventional ventilation methods described above, smoke, dust, and the like diffuse into the room, and only smoke and dust gas near the exhaust port are exhausted. Is done. Therefore, the exhaust efficiency is extremely poor,
Deteriorating indoor environment. On the other hand, in local exhaust systems, smoke and dust are allowed to rise and are accommodated in the hood to be exhausted.
The working environment is getting worse. Therefore, there is a technical problem to be solved in order to prevent the diffusion of smoke, dust, gas, etc., and to efficiently exhaust and improve the indoor environment, and the present invention solves the problem. With the goal. Means for Solving the Problems The present invention has been proposed to achieve the above object, and an exhaust hood is provided above an exhaust target space, and a central portion of the exhaust hood is connected to an exhaust fan. And an air outlet is formed, and air is ejected to the lower surface of the exhaust hood in a tangential direction of the same circumference as the center of the exhaust port, and spirally rises by the ejected air and the negative pressure from the exhaust port. In the exhaust method, a swirling air flow is generated, and the swirling air flow exhausts the space to be exhausted. In the exhaust method, an air supply chamber is fixed to a lower outer peripheral portion of the exhaust hood, and a lower surface of the air supply chamber is provided. At regular intervals, a jet port for jetting air in the tangential direction of the same circumference as the center of the exhaust port and a fixed jet port for jetting air toward the lower floor surface are alternately arranged. And blows air from the fixed outlet toward the floor. Accordingly, the present invention provides an exhaust method in which the spiral airflow is not disturbed, and the spiral airflow exhausts the exhaust target space.

[Action]

According to the present invention, an exhaust hood having an exhaust port at the center is provided above the exhaust target space, and an air supply chamber is fixedly provided at a lower outer peripheral portion of the exhaust hood. Further, at a lower surface of the air supply chamber, at regular intervals, in a tangential direction of the same circumference as the center of the exhaust port, an ejection port for ejecting air in the air supply chamber, and a lower surface toward the floor. Fixed ejection ports for ejecting the air in the air supply chamber are alternately arranged. Therefore, if air is ejected from the fixed ejection port toward the floor surface, the ejected air joins the surrounding air currents and rebounds while colliding with the floor surface, and is provided on the lower surface of the air supply chamber. The air is discharged from the outlet by the swirling airflow while assisting the swirling airflow generated by the jet air from the jet port and the negative pressure from the exhaust port. In this manner, the airflow generated in the exhaust target space does not disturb the spiral airflow, and the exhaust using the spiral airflow is performed extremely effectively. [Embodiment] An embodiment of the present invention will be described below in detail with reference to FIGS. In the drawing, (1) denotes an exhaust device, and as shown in FIG. 1 and FIG. 2, the exhaust device (1) is a work space (2) or the like where an exhaust target space (H) where smoke is generated. An exhaust hood (3) is provided in the upper part of the hood, an exhaust port (4) is formed in the center of the hood (3), and an air supply chamber (5) is fixed to an outer peripheral side surface of the exhaust hood (3). It is configured. On the lower surface of the air supply chamber (5), jet ports (6) (6) are arranged at regular intervals. The outlets (6) are configured so that the wind direction can be freely changed. In addition, each of the jets (6) (6) ... fixed jets with a constant wind direction between them (7)
(7) ... are provided, and the fixed jet ports (7) (7)
Are formed so as to blow air downward. On the other hand, the exhaust port (4) is connected to an exhaust fan (9) of an outdoor unit via an exhaust duct (8), and smoke and the like sucked at the exhaust port (4) are exhausted from an outdoor exhaust gallery (10). It is configured to be able to. Further, the air supply chamber (5) is connected to the air supply fan (13) of the outdoor unit through the air supply ducts (11), (11), ..., and (12), and the air sucked from the air supply gallery (14) is removed. The nozzles (6), (6) ... and the fixed nozzles (7), (7) ... are configured to be capable of jetting. A cover (1) is provided on the outer edge of the air supply chamber (5).
5) is erected. Further, as shown in FIG. 3, the jet outlets (6), (6),... Are set such that the wind direction lines are tangent to the same circumferential line centered on the center of the exhaust port (4). I have. Thus, the exhaust fan (9) and the supply fan (13)
, A swirling airflow is generated by the jet ports (6), (6), and the swirling airflow rises spirally on the upper surface of the work place (2) due to a synergistic action with the negative pressure from the exhaust port (4). A swirling airflow is created. Therefore, the excess airflow collects smoke and the like generated in the exhaust target space (H) of the work place (2), and the exhaust port (4)
Then, the smoke and the like are absorbed through the exhaust port (4) and discharged outside through the exhaust duct (8). At this time, air is jetted from the fixed jets (7), (7),... At approximately one-third of the air volume jetted from the jets (6), (6). )... The air blown out prevents the indoor airflow from disturbing the spiral airflow and assists the spiral airflow. Further, the cover (15) is provided with a spout (6) (6)
... and the fixed jet ports (7) prevent the diffusion of the airflow formed by the (7) and improve the exhaust efficiency. The exhaust device (1) exhibits the same exhaust capacity as the conventional type with an exhaust capacity of 1/5 to 1/10. The outlets (6) (6)... Are not limited to these, and for example, the outlets (6) (6). 6) can be combined with various types of air outlets as well as the fixed outlets (7), (7) described above. On the other hand, since the exhaust device (1) is prefabricated by producing each part at a factory and is configured so that it can be easily set only by assembling at the site, the mass productivity of the exhaust device (1) is reduced. This improves the workability of assembly. Further, by constructing the exhaust system (1) as a system and forming a unit type, the exhaust system (1)
Usage frequency, utility value, etc. can be increased. That is,
Units are set by setting the shape and capacity of each part according to the workplace at the construction site, etc., and various types of workplaces are defined and a plurality of such units are set. The unit of (1) can be used repeatedly. Also, a jet port (6) provided in the air supply chamber.
(6) ... is to change the wind direction freely, so by changing the wind direction of the spouts (6), (6) ... according to the characteristics of the smoke or dust to be exhausted or the state of the room. Since the radius and swirling speed of the spiral airflow can be set as appropriate, the exhaustion by the spiral airflow is performed more rationally.
Also, the jet ports (6), (6) ... and the fixed jet ports (7)
Since the air supply chamber (5) provided with (7) is provided at the outer peripheral portion of the lower part of the exhaust hood (3), a wide working space can be used.

【The invention's effect】

According to the present invention, an exhaust hood having an exhaust port is provided in an upper portion of an exhaust target space, and an air supply chamber is fixed to a lower outer peripheral portion of the exhaust hood. And, on a lower surface of the air supply chamber, at regular intervals, a jet port for jetting air in the air supply chamber in a tangential direction of the same circumference as the center of the exhaust port, and Since the fixed ejection ports for ejecting the air in the air supply chamber are alternately arranged, the air ejected from the ejection port in a tangential direction on the same circumference as the center of the exhaust port, and the exhaust Naturally, a swirling airflow that flows upward due to the surplus action with the negative pressure from the mouth is generated, so that the exhaust in the exhaust target space can be performed. The air jetted toward the surface joins the airflow generated in the space to be evacuated and pushes it down to the floor surface, and then rebounds upward again to form the spiral airflow while assisting the spiral airflow. It is exhausted. In this way, other airflows generated in the space to be exhausted by the air jetted from the fixed jet port toward the floor surface do not disturb the swirling airflow, and return from the fixed jet port. And the other air currents generated in the exhaust target space join together to assist the swirling air flow, so that smoke, dust, gas, etc. in the exhaust target space can be extremely effective by the swirling air flow. It is possible to guide the gas to the outlet and exhaust the gas. Further, since the air supply chamber in which the jet port and the fixed jet port are disposed is provided at the upper part of the space to be evacuated, at the outer periphery of the lower part of the exhaust hood having the exhaust port, The work space in the room can be used widely,
In addition, the present invention has a remarkable effect, such as an improved indoor environment such as a work place and improved workability.

[Brief description of the drawings]

FIG. 1 shows an embodiment of the present invention. FIG. 1 is a partially cutaway perspective view of an exhaust device, FIG. 2 is the same side view, and FIG. 3 is a cutaway rear view of the same part. (H)… Exhaust target space (1)… Exhaust device (3)… Exhaust hood (4)… Exhaust port (5)… Air supply chamber (6)… Spout port (7)… fixed Spout

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-62-178826 (JP, A) JP-A-1-114649 (JP, A) JP-A-2-195139 (JP, A) 5968 (JP, U)

Claims (1)

(57) [Claims] An exhaust hood is provided above an exhaust target space,
An exhaust port connected to an exhaust fan is formed at a central portion of the exhaust hood, and air is ejected to a lower surface of the exhaust hood in a tangential direction of the same circumference as the center of the exhaust port, so that the ejected air and the In the exhaust method in which a spiral airflow that rises spirally due to the negative pressure from the exhaust port is generated, and the spiral airflow exhausts the interior of the exhaust target space, air is supplied to the lower outer peripheral portion of the exhaust hood. A chamber is fixedly provided, and a jet port for jetting air to the lower surface of the air supply chamber at regular intervals in a tangential direction on the same circumference as the center of the exhaust port, and jets air toward a lower floor surface. And the fixed jet outlets are alternately arranged, and air is jetted from the fixed jet outlet toward the floor surface so as not to disturb the swirling airflow, and the swirling airflow causes the space to be exhausted. Exhaust method that exhausts the inside.