JP5625849B2 - Spot air conditioner outlet - Google Patents

Description

  The present invention relates to an outlet device for a spot type air conditioner for discharging conditioned air flowing through a blower duct from a main body of the spot type air conditioner to the outside.

  As a conventional spot cooler, for example, one shown in Patent Document 1 is known. That is, the spot cooler of Patent Document 1 is used in, for example, a manufacturing factory, and the body (box) of the cooler has a cylindrical shape with a diameter of about 125 mm, for example, and has an opening at the tip. A duct that can be moved and adjusted freely is extended. The conditioned air whose temperature is adjusted in the main body is locally blown from the opening to the worker and the object through the duct.

JP 7-35401 A

  The spot cooler as described above is installed, for example, on the ceiling of the factory to efficiently use the floor surface in the factory, and the opening of the duct faces downward with respect to the worker on the floor surface. May be set as follows. Furthermore, in recent manufacturing factories, as part of work environment improvement, an attempt has been made to obtain a work environment with a high sense of openness by taking a large overhead space on the ceiling side and making it clear. Therefore, about a spot cooler, the opening part position of a duct needs to be installed in a position higher than before. For example, a position where the position of the opening is 2 m from the floor surface is set to a position of 3 m.

  However, if the position of the opening of the duct is away from the worker, there is a concern that the reachability of the conditioned air to the worker is reduced. A turbulent flow state becomes prominent in the flow of blown air. And while the conditioned air blown out from the duct reaches the operator, an attraction and mixing action that entrains the surrounding air easily occurs, the temperature of the conditioned air rises, and the cooling sensation of the operator The temperature gets worse.

  In view of the above problems, an object of the present invention is to provide an air outlet for a spot type air conditioner that can sufficiently achieve the air conditioning effect while maintaining the reachability of the air conditioned air even when the distance from the opening of the duct to the air conditioning target is increased. To provide an apparatus.

  In order to achieve the above object, the present invention employs the following technical means.

In the first aspect of the present invention, the conditioned air cooled by passing through the evaporator of the spot type air conditioner (10) set as a spot type air conditioner that cools the conditioned air and blows out the cold air locally. Among the air ducts ( 12 ) guided to the outside of the main body (11), a plurality of ducts are directed downward from a predetermined position in the longitudinal direction of the main duct (12 a) arranged in the horizontal direction in the factory ceiling. A spot type air conditioner that is assembled at the tip of a branch duct (12b) , which is a branched cylindrical flow path, and blows air-conditioned air blown from the blower duct ( 12 ) to the position of an operator in the factory. The air outlet device of
Is set equal to the flow passage area of the branch duct (12b), and branch duct cylindrical connection portion to be connected to (12b) (21),
A pipe expansion section (22) in which the flow path area sequentially increases toward the downstream side of the conditioned air from the flow path area of the connection section (21);
Provided in the opening (22a) that opens on the distal end side of the expanded pipe portion (22), is formed from a three-dimensional skeleton network porous body, and forms a communication structure that communicates vertically and horizontally by a large number of holes. A diffusion part (23) for diffusing the flow of conditioned air from the center side of the opening part (22a) to the peripheral side;
A rectifying unit (24) that is adjacent to the downstream side of the conditioned air from the diffusion part (23) of the opening (22a) and rectifies the flow of the diffused conditioned air in the axial direction of the opening (22a). ,
The expansion section (22), the diffusion section (23), and the rectification section (24) say that the flow of the conditioned air entrains the surrounding air while the conditioned air reaches the operator side from the opening (22a). Suppressing the occurrence of attracting mixing action and reducing the flow velocity of air-conditioned air suppresses rebounding from the floor, making it easier to form a cool air layer from the floor to the upper side, making it spot-like at the operator's position. It is configured to form a cold air layer upward from the floor surface not only between the perceived temperature but also between the air outlet and the air outlet provided at the tip of each of the plurality of branch ducts (12b). It is characterized by having.

  According to the present invention, since the flow passage area of the pipe expansion portion (22) is increased toward the downstream side of the conditioned air with respect to the flow passage area of the connection portion (21), the opening portion (22a) The flow rate of the conditioned air to be blown can be reduced. Moreover, the ventilation resistance with respect to air-conditioning air can be lowered | hung with the expanded pipe part (22) to which a flow-path area is expanded.

  Moreover, the diffusion part (23) in the opening part (22a) has a certain amount of ventilation resistance, and once receives the conditioned air flowing through the pipe expansion part (22) from the connection part (21), the flow rate of the conditioned air is reduced. Meanwhile, the conditioned air can be diffused so as to spread over the entire opening (22a). Furthermore, since the diffusion part (23) is formed from a three-dimensional skeleton network porous body, a communication structure is formed in which a large number of holes communicate with each other vertically and horizontally in the diffusion part (23). The conditioned air can be evenly diffused without being biased with respect to the whole of 22a).

  In addition, the conditioned air diffused by the diffusing unit (23) passes directly through the adjacent rectifying unit (24) without receiving other disturbances, and the rectifying unit (24) opens the opening (22a). The air is rectified in the axial direction and blown to the target part. The meaning of rectification in the axial direction means that the flow direction of the conditioned air is a flow along the axial direction of the opening (22a).

  The diffusion resistance (23) and the rectification section (24) increase the ventilation resistance with respect to the conditioned air. However, when the reduction of the ventilation resistance by the pipe expansion section (22) is combined, the air outlet device (20) The overall ventilation resistance is equivalent or somewhat increased compared to the simple cylindrical duct of the prior art. Therefore, it is not necessary to respond by increasing the air blowing capacity of the spot type air conditioner (10).

In this manner, the conditioned air is diffused over the entire opening (22a) with the flow velocity reduced in the pipe expansion section (22) and the diffusion section (23), and by the rectification section (24). The air is rectified in the axial direction of the opening (22a) and blown to the target part. In other words, the combination of the expanded pipe part (22), the diffusing part (23), and the rectifying part (24) makes it possible to reduce the flow rate of the conditioned air and blow the air closer to the laminar flow. Therefore, while the conditioned air reaches the target site from the opening (22a), it is possible to suppress the occurrence of the attraction and mixing action in which the flow of the conditioned air entrains the surrounding air. Therefore, even when the distance from the opening (22a) to the target portion is increased, the air outlet device (20) of the spot type air conditioner (10) that maintains the reachability of the conditioned air and can sufficiently obtain the air conditioning effect. It can be.
The invention according to claim 2 is characterized in that the diffusion part (23) is in close contact with the rectification part (24).

In the invention according to claim 3 , the frame portion (25) in which the inner region is opened and the opened area is set smaller than the flow path area of the opening (22a) is the opening (22a). Is provided so as to cover the inner periphery of the opening (22a) from the outside of
The expansion portion (22) is arranged to be lower than the connection portion (21),
The rectification part (24) is placed and positioned on the upper side of the frame part (25),
The diffusion part (23) is placed on the upper side of the rectification part (24).

  According to this invention, in the case of using the pipe expansion part (22) below the connection part (21), simply placing the rectification part (24) on the upper side of the frame part (25), The positioning of the rectifying unit (24) can be set, and the diffusing unit (23) can be set only by placing the diffusing unit (23) on the upper side of the positioned rectifying unit (24). It can suppress and can be set as an inexpensive blower outlet apparatus (20). In addition, when the spot type air conditioner (10) is operated, the diffusion part (23) and the rectification part (24) are pressed toward the frame part (25) by the wind pressure of the conditioned air. The setting positions of the part (23) and the rectifying part (24) are stably maintained.

The invention according to claim 4 is characterized in that the frame portion (25) is provided so as to be openable and closable with respect to the opening (22a).

  According to this invention, since the diffusing part (23) and the rectifying part (24) can be easily attached and detached by opening and closing the frame part (25), the maintainability of the air outlet (20) can be improved. it can.

The invention according to claim 5 is characterized in that the opening ratio of a large number of holes of the diffusion portion (23) is set to 20 to 60%.
According to the present invention, it is possible to appropriately reduce and diffuse the conditioned air in the diffusing section (23).

The invention according to claim 6 is characterized in that the rectifying section (24) is a honeycomb body.

  According to the present invention, the honeycomb body can efficiently form a plurality of channels for rectification in a small space, so that the rectification section (24) having a high rectification effect can be obtained.

In the invention according to claim 7 , the opening (22a) has a rectangular shape,
The diffusion part (23) and the rectification part (24) are characterized by being formed in a rectangular shape corresponding to the opening part (22a).

  According to this invention, by making the opening (22a) rectangular, the expanded portion (22) can be formed mainly by bending the plate material from the developed flat plate, and the processing becomes easy. . Also, the opening (22a) is rectangular, and the diffusion part (23) and the rectification part (24) are also rectangular, so that the diffusion part (23) and the rectification part (24 ) Can be improved from the base material.

  In addition, the code | symbol in the bracket | parenthesis of each said means shows a corresponding relationship with the specific means of embodiment description mentioned later.

It is the schematic which shows the spot type air conditioner and blower outlet apparatus in 1st Embodiment of this invention. It is sectional drawing which shows the blower outlet in FIG. It is a bottom view at the time of seeing the blower outlet in FIG. 2 from the lower side.

  A plurality of modes for carrying out the present invention will be described below with reference to the drawings. In each embodiment, parts corresponding to the matters described in the preceding embodiment may be denoted by the same reference numerals, and redundant description may be omitted. When only a part of the configuration is described in each mode, the other modes described above can be applied to the other parts of the configuration. Not only combinations of parts that clearly indicate that the combination is possible in each embodiment, but also a combination of the embodiments even if they are not clearly specified unless there is a problem with the combination. It is also possible.

(First embodiment)
Hereinafter, the air outlet device (hereinafter referred to as the air outlet) 20 of the first embodiment will be described with reference to FIGS. 1 to 3. FIG. 1 is a schematic diagram showing a spot type air conditioner 10 and an air outlet 20, FIG. 2 is a cross-sectional view showing the air outlet 20 in FIG. 1, and FIG. 3 is a bottom view of the air outlet 20 in FIG. It is.

  As shown in FIG. 1, the spot type air conditioner 10 is installed, for example, on the ceiling of a manufacturing factory, and includes a main body 11 and an air duct 12. Here, the spot type air conditioner 10 is set as a spot type cooler that cools conditioned air and blows out cold air locally. And the blower outlet 20 is assembled | attached to the front-end | tip part (front-end | tip part of the branch duct 12b) of the ventilation duct 12 of the spot type air conditioner 10. FIG.

  The main body 11 is formed by housing a refrigeration cycle, a blower, and the like in a housing. The refrigeration cycle is a cycle in which a compressor, a condenser, an expander, and an evaporator are connected in a ring shape so that a refrigerant circulates inside. The refrigerant compressed by the compressor is cooled by the condenser to be condensed and liquefied, and further decompressed to low temperature and low pressure by the expander, and flows into the evaporator. The evaporator cools the conditioned air by exchanging heat between the low-temperature and low-pressure refrigerant circulating inside and the conditioned air that is blown by the blower and passes outside the heat exchange part of the evaporator. Yes.

  The air duct 12 is a flow path that guides conditioned air (cold air) that is blown by a blower and passes through an evaporator and is cooled to the outside of the main body 11, and includes a main duct 12a and a branch duct 12b. Yes. The main duct 12a is a cylindrical flow path whose both ends are closed, and is connected to the main body 11 at an intermediate portion in the longitudinal direction, and is arranged in the horizontal direction on the ceiling of the factory. The branch duct 12b corresponds to the blower duct of the present invention, and is a cylindrical flow path that is branched into a plurality of branches so as to face downward from a predetermined position in the longitudinal direction of the main duct 12a. Yes. The position of the branch duct 12b in the main duct 12a is set so as to substantially correspond to the position of the worker in the factory. The diameter of the branch duct 12b is set to about 125 mm to 300 mm, for example, and here, a diameter of 150 mm is selected. A heat insulating material (not shown) is attached to the outer surface of the air duct 12 so that the temperature of the conditioned air in the air duct 12 is not changed by the air in the factory.

  In the spot-type air conditioner 10 as described above, the air outlet 20 is formed as a blow-out portion that is provided at the tip of each branch duct 12b and blows air-conditioned air toward an operator (target site). The air outlet 20 is provided with the connection part 21, the pipe expansion part 22, the spreading | diffusion part 23, the rectification | straightening part 24, the frame part 25, etc. as shown in FIG. 2, FIG.

  The connection portion 21 is a cylindrical flow passage portion in which the air outlet 20 is connected to the branch duct 12b, and is formed so that its flow passage area is substantially equal to the flow passage area of the branch duct 12b. That is, here, the diameter of the connecting portion 21 is set to about 150 mm. The length of the connecting portion 21 in the axial direction is set to about 80 mm. Then, one end side (the upper side in FIG. 2) of the connecting portion 21 in the axial direction is fitted to the inner peripheral surface side or the outer peripheral surface side of the branch duct 12b, and is machined into the branch duct 12b by a screw member such as a screw. It comes to be fastened.

  The pipe expansion part 22 is connected to the other end side (lower side in FIG. 2) of the connection part 21 in the axial direction. The pipe expansion part 22 has a funnel shape so that the flow area of the connection part 21 gradually increases toward the downstream side of the conditioned air flow, that is, toward the opposite side of the connection part 21. Is formed. The distal end portion of the expanded tube portion 22 on the side opposite to the connection portion 21 is open to form an opening portion 22a. In the vicinity of the opening 22a, a straight portion 22b that is parallel to the axial direction by a predetermined length is formed along the axial direction of the tube expansion portion 22. The opening 22a is opened from the ceiling side in the factory to the lower side (operator).

  Here, the opening 22a is formed in a rectangular shape. Therefore, in the pipe expansion part 22, the flow path shape of the part connected to the connection part 21 is circular, and the flow path shape gradually becomes a rectangular shape as the flow path area is sequentially expanded. Is formed. The connection part 21 and the pipe expansion part 22 are made of, for example, a steel plate. The connection part 21 and the pipe expansion part 22 are formed, for example, mainly by bending from a flat plate (steel plate) that has been unfolded. One side of the opening 22a formed in a rectangular shape is set to about 200 mm to 600 mm, and here, the side is a square of 270 mm. Therefore, the enlargement ratio (270 mm / 150 mm) on the distal end side with respect to the connection part 21 side of the pipe expansion part 22 is 1.8 times in the present embodiment, and with various branch ducts 12 b (diameters 125 mm to 300 mm). Depending on the combination, the expansion rate of the expanded portion 22 is preferably selected to be about 1.6 to 4 times. In addition, the length of the axial direction of the pipe expansion part 22 is set to about 215 mm, and the straight part 22b is set to about 35 mm.

The diffusion part 23 is a porous body having a three-dimensional skeleton network, and is provided in the distal end part (straight part 22b) of the pipe expansion part 22 so as to cover the opening part 22a. The diffusing unit 23 diffuses the flow of conditioned air flowing through the pipe expansion unit 22 from the center side to the peripheral side of the opening 22a so that the flow rate of the conditioned air in the opening 22a is uniform. Unlike a normal net, filter, punching metal, or the like, the diffusing portion 23 has a predetermined thickness (about 10 to 15 mm), is formed in a plate shape, and is three-dimensionally (vertically and horizontally) inside. ) It is formed with a lot of connecting holes. The diameter of the large number of holes is preferably about 1 mm to 7 mm, for example, and here, it is about 2 mm to 4 mm. The opening ratio of a large number of holes in the diffusing portion 23 is preferably 20 to 60%, and is about 40% here. The diffusion part 23 is made of, for example, a resin and is formed of an ester-bonded polyol or an ether-bonded polyol.

  The rectifying unit 24 rectifies the direction of the flow of the conditioned air diffused by the diffusing unit 23 so as to be along the axial direction of the opening 22a. The rectifying unit 24 covers the opening 22a so as to cover the opening 22a. Part 22b). The rectification unit 24 is provided so as to be adjacent to the downstream side of the conditioned air flow with respect to the diffusion unit 23. The rectifying unit 24 has a predetermined thickness (about 20 to 30 mm) and is formed in a plate shape, and a large number of flow paths that penetrate in the plate thickness direction are formed therein. The rectifying unit 24 is formed of, for example, an aluminum honeycomb body. As the dimension of the core portion of the honeycomb body (distance between sides of the hexagonal channel facing each other), for example, about 10 to 18 mm is selected.

  The frame body 25 is a plate-like member whose outer shape is a rectangular shape (a square having a side of 270 mm) equivalent to the opening 22a (straight portion 22b) and whose inner region is opened in a rectangular shape. The opened area is set to be slightly smaller than the flow path area of the opening 22a, and here, a square opening having a side of about 240 mm is formed. That is, the frame body portion 25 is a square annular plate member having a width dimension of about 15 mm. The frame body portion 25 is disposed so as to cover the inner periphery of the opening 22a from the outside of the opening 22a. Here, one side of the frame body portion 25 is joined to one side of the opening portion 22a via a hinge, and the frame body portion 25 can open and close the opening portion 22a with the hinge as a fulcrum. Also, a clamp that is fixed to the opening 22a is provided on the side of the frame body 25 that faces the side on which the hinge is provided, and the frame body 25 normally closes the opening 22a. It is fixed in the state.

  The blower outlet 20 is arrange | positioned so that the pipe expansion part 22 may be located below with respect to the connection part 21, and the opening part 22a is opened so that it may go to the lower side. The rectifying unit 24 described above is placed and positioned on the upper side of the frame body part 25, and the diffusing unit 23 is arranged by being placed on the upper side of the rectifying unit 24. Note that the periphery of the upper end side of the diffusion portion 23 is in contact with the inclined inner wall surface of the tube expansion portion 22 and is pressed toward the frame body portion 25 side.

  And the outer surface of the blower outlet 20 is mounted | worn with the heat insulating material which is not illustrated similarly to the duct 12 for ventilation.

  Returning to FIG. 1 again, the lower end position of the air outlet 20 described above, that is, the distance A between the opening 22a and the factory floor is set to a conventional distance of 2 m in order to make the overhead space of the worker wide. On the other hand, the distance is set to 3 m. In addition, the measurement (described later) of the temperature experienced by the operator by the spot type air conditioner 10 is performed at a distance B of 1.5 m from the factory floor.

  Next, operation and effects based on the above configuration will be described.

  When the spot type air conditioner 10 is operated, the conditioned air is cooled by the evaporator in the main body 11, and the cooled conditioned air is circulated through the main duct 12 a and the branch duct 12 b by the blower and is operated from the outlet 20. It is blown out toward the person.

  And in the blower outlet 20, since the flow-path area of the pipe expansion part 22 becomes large toward the downstream of conditioned air with respect to the flow-path area of the connection part 21, the air conditioning ventilated from the opening part 22a The air flow rate can be reduced. Moreover, the ventilation resistance with respect to air-conditioning air can be lowered | hung by the pipe expansion part 22 by which a flow-path area is expanded.

  Further, the diffusion part 23 in the opening 22a has a certain amount of ventilation resistance, and once receives the conditioned air flowing through the pipe expansion part 22 from the connection part 21 to reduce the flow rate of the conditioned air, the conditioned air is supplied to the opening 22a. It can be spread so that it spreads over the whole. Furthermore, since the diffusing portion 23 is formed of a three-dimensional skeleton network porous body, a communication structure is formed which communicates vertically and horizontally in the diffusing portion 23 by a large number of holes, and the entire opening 22a is formed. The air-conditioned air can be evenly diffused without being biased.

  In addition, the conditioned air diffused by the diffusing unit 23 passes through the rectifying unit 24 directly adjacent to the rectifying unit 24 without receiving other disturbances, and flows along the axial direction of the opening 22a by the rectifying unit 24. The air is rectified and blown to the worker side.

  In addition, although the ventilation resistance with respect to air-conditioning air increases by the diffusion part 23 and the rectification | straightening part 24, when the reduction | decrease of the ventilation resistance by the said pipe expansion part 22 is match | combined, as the ventilation resistance of the blower outlet 20 whole, it is the conventional technique. Compared to a simple cylindrical duct, it is equivalent or somewhat increased. Therefore, it is not necessary to increase the capacity of the fan of the spot type air conditioner 10 to cope with it.

  In this manner, the conditioned air is reduced in flow velocity and diffused over the entire opening 22a in the pipe expansion section 22 and the diffusion section 23, and is rectified in the axial direction of the opening 22a by the rectification section 24. And then blown to the worker side. In other words, the combination of the pipe expansion unit 22, the diffusion unit 23, and the rectification unit 24 can reduce the flow rate of the conditioned air and blow air closer to the laminar flow. Therefore, it is possible to suppress the occurrence of the attraction and mixing action in which the flow of the conditioned air entrains the surrounding air while the conditioned air reaches the operator side from the opening 22a. Therefore, even when the distance from the opening 22a to the operator side becomes large, the reachability of the conditioned air can be maintained and the air outlet 20 of the spot type air conditioner 10 that can sufficiently obtain the air conditioning effect can be obtained.

  In the actual machine confirmation of the present inventor, without providing the air outlet 20 as in the prior art, the lower end position of the branch duct 12b (diameter 150 mm) is simply set to a position 3 m from the floor, and the wind speed of the central airflow at the air outlet is set. Compared with the case of 8 m / s, in this embodiment, the wind speed of the central airflow of the conditioned air from the outlet 20 is reduced to 5 m / s, and the worker at a position away from the floor by a distance B is used. The bodily sensible temperature could be lowered by about 5 ° C. At this time, the cooling capacity and the air blowing capacity of the spot type air conditioner 10 remain the same.

  In the case where the conditioned air is blown from the ceiling side to the floor side as in the present embodiment, according to the prior art, the conditioned air bounces up when it hits the floor surface, and is again conditioned air by the attractive mixing action. The situation of being caught up in was repeated. However, in this embodiment, since the flow velocity of the conditioned air from the blower outlet 20 is reduced, the rebound on the floor surface is suppressed, and it becomes easy to form a cool air layer from the floor surface upward. Therefore, not only the spot-like temperature at a position away from the floor by a distance B, but also the cooling temperature when viewed in the entire space on the floor in the factory can be reduced. In particular, in the case where a plurality of air outlets 20 are provided, a cold air layer can be formed between the air outlets 20 and 20, and cooling of the entire space on the floor surface in the factory is possible. More effective. According to this, since the basic cooling capacity of the spot type air conditioner 10 can be lowered, energy required for cooling (for example, electric power supplied to the compressor) can be reduced.

  Moreover, in this embodiment, the frame part 25 is provided in the opening part 22a of the blower outlet 20. FIG. Thereby, in the case of using the expanded pipe part 22 below the connection part 21, the positioning of the rectifying part 24 can be set by simply placing the rectifying part 24 on the upper side of the frame body part 25. Further, The diffusion unit 23 can be set only by placing the diffusion unit 23 on the upper side of the positioned rectifying unit 24, and the overall production cost can be suppressed and the inexpensive air outlet 20 can be obtained. In addition, when the spot type air conditioner 10 is operated, the diffusion unit 23 and the rectifying unit 24 are pressed toward the frame unit 25 by the wind pressure of the conditioned air, so the setting of the diffusing unit 23 and the rectifying unit 24 is performed. The position is maintained stably.

  Moreover, since the frame part 25 can be opened and closed with respect to the opening part 22a, the diffusion part 23 and the rectifying part 24 can be easily attached and detached by opening and closing the frame part 25, and the maintainability of the air outlet 20 is improved. Can be improved.

  Moreover, the opening ratio of the diffusing part 23 is set to 20 to 60%, and a suitable speed reduction and diffusion of the conditioned air in the diffusing part 23 is enabled.

  Moreover, since the rectification | straightening part 24 is formed with the honeycomb body, the several channel | path for rectification | straightening can be efficiently formed in a small space, and it can be set as the rectification | straightening part 24 with a high rectification effect.

  Further, the opening 22a is rectangular, and the diffusing unit 23 and the rectifying unit 24 are also rectangular corresponding to the opening 22a. By making the opening 22a into a rectangular shape, the expanded pipe portion 22 can be formed from the developed flat plate mainly by bending the plate material, and the processing becomes easy. In addition, since the opening 22a is rectangular, and the diffusing portion 23 and the rectifying portion 24 are also rectangular, the yield when separating the diffusing portion 23 and the rectifying portion 24 from the base material as compared with a round shape is improved. Can be improved.

(Other embodiments)
In the first embodiment, the spot type air conditioner 10 is an air conditioner for a cooler, but is not limited thereto, and may be an air conditioner for heating. When air-conditioning air for heating (warm air) is blown out from the air outlet 20, the lower end position of the branch duct 12 b (diameter 150 mm) is simply positioned 3 m from the floor without providing the air outlet 20 as in the prior art. Thus, compared with the case where the wind speed of the central air flow at the outlet is 8 m / s, it is possible to suppress the occurrence of the attractive mixing action as in the first embodiment, and the operator's sensible temperature is raised by about 8 ° C. I was able to. At this time, the heating capacity and the air blowing capacity of the spot type air conditioner 10 remain the same.

  Moreover, although the connection part 21 and the pipe expansion part 22 were demonstrated as what is formed from a steel plate, it is not restricted to this, It is good also as what is mainly formed of the resin material for the purpose of weight reduction and cost reduction.

  Moreover, the frame part 25 is not necessarily required and may be abolished. In this case, the diffusing part 23 and the rectifying part 24 may be fixed to the inner peripheral surface of the pipe expanding part 22 (straight part 22b) by a fixing member or the like.

  Moreover, although the frame part 25 can be opened and closed, when the maintenance of the diffusing part 23 and the rectifying part 24 is not required, the frame part 25 may be directly joined to the pipe expanding part 22.

  Further, although the honeycomb body is used as the rectifying unit 24, the present invention is not limited to this, and for example, a plate member having a predetermined plate thickness may be provided with a large number of holes penetrating in the plate thickness direction.

  Moreover, although the shape of the opening 22a is rectangular, the shape is not limited to this, and may be circular. In this case, the diffusing unit 23 and the rectifying unit 24 may be similarly circular.

  Moreover, about the dimension of each part of the blower outlet 20, although the representative dimension was shown as one example in 1st Embodiment, the response | compatibility within each dimension range demonstrated by reference is also possible.

  Moreover, although the spot type air conditioner 10 was described as what is arrange | positioned on the ceiling and the blower outlet 20 faces downward from the upper side, it is not restricted to this, For example, the spot type air conditioner 10 is placed on the floor surface, It is good also as what the blower outlet 20 faces a horizontal direction.

10 spot type air conditioner 12 air duct 12b branch duct (air duct)
DESCRIPTION OF SYMBOLS 20 Outlet apparatus 21 Connection part 22 Expanded part 22a Opening part 23 Diffusion part 24 Rectification part 25 Frame part

Claims (7)

The conditioned air cooled by passing through the evaporator of the spot type air conditioner (10) set as a spot type cooler that cools the conditioned air and blows out the cold air locally is guided to the outside of the main body (11). Among the air ducts ( 12 ) , a cylindrical flow path branched in plural so as to face downward from a predetermined position in the longitudinal direction of the main duct (12 a) arranged in the horizontal direction at the ceiling of the factory A blowout device of a spot type air conditioner that is assembled at the tip of a certain branch duct (12b) and blows out the conditioned air blown from the blowing duct ( 12 ) to the position of an operator in the factory ,
The branch duct is set equal to the flow area (12b), said branch duct (12b) and the tubular connecting portion to be connected to (21),
A pipe expansion section (22) in which the flow path area sequentially increases toward the downstream side of the conditioned air from the flow path area of the connection section (21);
Provided in the opening (22a) that opens on the distal end side of the expanded pipe portion (22), is formed from a three-dimensional skeleton network porous body, and forms a communication structure that communicates vertically and horizontally by a large number of holes. A diffusing section (23) for diffusing the flow of the conditioned air from the center side to the peripheral side of the opening (22a);
A rectifying unit (rectifying the flow of the diffused conditioned air in the axial direction of the opening (22a) adjacent to the diffusing unit (23) of the opening (22a) on the downstream side of the conditioned air. 24) and equipped with a,
The expanded pipe part (22), the diffusing part (23), and the rectifying part (24) are arranged such that the flow of conditioned air changes the ambient air while the conditioned air reaches the operator side from the opening (22a). It suppresses the occurrence of the attraction mixing action of entanglement, and the flow speed of the conditioned air is reduced, so that the rebound from the floor surface is suppressed, and it becomes easier to form a cold air layer from the floor surface upwards. In addition to the spot-like temperature at the position, a cold air layer is formed upward from the floor surface between the air outlets and the air outlets provided at the front ends of the branch ducts (12b). It is comprised so that it may do. The blower outlet apparatus of the spot type air conditioner characterized by the above-mentioned . The air outlet apparatus for a spot type air conditioner according to claim 1, wherein the diffusion part (23) is in close contact with the rectifying part (24). An inner region is opened, and a frame body part (25) in which the opened area is set smaller than the flow path area of the opening part (22a) is formed from the outside of the opening part (22a) by the opening part (22a). 22a) is provided so as to cover the inner periphery,
The pipe expansion part (22) is arranged to be lower than the connection part (21),
The rectifying part (24) is positioned and positioned on the upper side of the frame part (25),
The air outlet of a spot type air conditioner according to claim 1 or 2, wherein the diffusing section (23) is placed above the rectifying section (24). The air outlet of a spot type air conditioner according to claim 3, wherein the frame (25) is provided so as to be openable and closable with respect to the opening (22a). The air outlet of the spot type air conditioner according to any one of claims 1 to 4, wherein an opening ratio of a large number of holes of the diffusion portion (23) is set to 20 to 60%. apparatus. The air outlet device for a spot type air conditioner according to any one of claims 1 to 5, wherein the rectifying unit (24) is a honeycomb body. The opening (22a) has a rectangular shape,
The said diffusion part (23) and the said rectification | straightening part (24) were formed in the rectangular shape corresponding to the said opening part (22a), The Claim 1 characterized by the above-mentioned. Spot type air conditioner outlet.

Images