JPS63210544A - Ventilator with heat exchanger - Google Patents

Abstract

PURPOSE:To facilitate the attaching or detaching operation of a heat exchanger and reduce the depth dimension a box member by providing a suction port and a discharge port, respectively, on side walls of the box member intersecting rectangularly with the inserting and detaching direction of the heat exchanger and disposing radial flow type flowers respectively so that the rotary shafts thereof intersect rectangularly with the inserting and detaching direction. CONSTITUTION:An opening 33 is blocked by a damper 34 while an opening 30 is opened and respective blowers 10 and 11 are operated. Thereby, indoor air is sucked through a duct from an indoor suction port 4 into an indoor suction chamber 29 by passing through an exhaust passage 8 leading from an opening 30 to an exhaust blower chamber 22 via an indoor suction passage 27, a chamber 20, a heat exchanger 12, a chamber 17, and an opening 23 in this sequence, and is discharged out of the chamber from an outdoor discharge port 7 via a duct by an exhausting blower 10. Outdoor air is sucked from an outdoor suction port 5 into an outdoor suction chamber 26 via a duct, and supplied into the chamber from indoor discharge port 6 by a supply air blower 11 by passing through a supply air passage 9 leading from a chamber 19 to a supply air blower chamber 24 via the heat exchanger 12, a chamber 18, and an opening 25, in this sequence. Upon this occasion, heat exchange is carried out between the exhaust air flow and the supply air flow, and the exhaust air heat is recovered to reduce the space heating or cooling load.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a ventilation system with a heat exchanger, and particularly to the arrangement of an inlet, an outlet, and a blower provided indoors and outdoors.

[Conventional technology]

FIG. 8 is an exploded perspective view showing a conventional ventilation system with a heat exchanger disclosed in, for example, Japanese Utility Model Application No. 60-167954, in which (1) shows the box body 12) and the lid body (3). It is a box body consisting of an inlet [41 (5) and an outlet (6) (7).
One set is provided on the indoor side and one on the outdoor side. (8) and (9) are exhaust passages extending from the indoor side suction port (4) to the outdoor side blowout port (7), which are provided in this box body so as to intersect between the above-mentioned suction port and the above-mentioned blowout port. and from the outdoor suction port (5) to the indoor air outlet (6).
The head is a radial blower that forms an exhaust flow provided in the exhaust passage (8), and the head (11) is a radial blower that forms an air supply flow provided in the air supply passage (9). A flow type blower (12) is installed at the intersection and is removably inserted into the box.
90, a heat exchanger for exchanging temperature and humidity between the supply air flow and the exhaust air flow; (13) is the blade casing of the blower (10) (II); (14) is the heat exchanger for exchanging temperature and humidity between the air supply flow and the exhaust air flow; This cover closes the insertion/removal opening of the exchanger (12), and is provided on the same side wall as the side wall where the suction port and the air outlet are provided. (15) is a connecting member between the air supply and exhaust ducts provided at the suction port 4) and the air outlet ports (6) and (7).

A conventional ventilation system with a heat exchanger is configured as described above, and by operating the exhaust blower αO) and the supply air blower (11), the indoor air is distributed from the indoor air intake port ( ) as shown by arrow A. It is sucked into the box body (1), passes through the heat exchanger (12) in the exhaust passage (8) from the arrow port as shown by arrow C, and is blown out from the outdoor air outlet (to) as shown by arrow 2 to the outside. is discharged. On the other hand, outdoor air is sucked into the box body (1) from the outdoor suction port (51) as shown by the arrow H,
), the air passes through the heat exchanger (12) in the direction shown by the arrow, and is blown out from the indoor air outlet (6) as shown by the arrow T, and is supplied into the room. At this time, heat exchange is performed between the exhaust air flow and the supply air flow in the heat exchanger (12), and exhaust heat is recovered to reduce the heating and cooling load. By operating in this way, the heat exchanger (
12) becomes dirty, and cleaning is done by removing the cover (14) provided on the box (1), pulling out the heat exchanger (12), and using a vacuum cleaner or the like.

[Problem that the invention seeks to solve]

In the conventional ventilation system with a heat exchanger as described above, the opening for inserting and removing the heat exchanger (12) is located in the same side wall as the side wall of the box body (1) in which the inlet and outlet are formed. Moreover, since it is provided between the suction port and the air outlet, when the heat exchanger (12) is inserted or removed, a supply/exhaust duct (not shown) is connected to the connection member (15) of the suction port and the air outlet. There was a problem in that it got in the way and made insertion and removal work difficult.

This invention was made in order to solve these problems, and its purpose is to provide a ventilation system with a heat exchanger that allows easy insertion and removal of the heat exchanger and has a small depth dimension of the box. That is.

[Means for solving problems]

In the ventilation device with a heat exchanger according to the present invention, the inlet and the outlet are respectively provided on the opposite side walls of the box which are orthogonal to the insertion/removal direction of the heat exchanger, and each of the circulation type blowers is arranged so that its rotation axis is It is arranged perpendicular to the insertion/removal direction of the heat exchanger.

[Effect]

In this invention, since the suction port and the air outlet are respectively provided on the opposite side walls of the box which are orthogonal to the insertion/removal direction of the heat exchanger, the duct connected to the suction port and the air outlet is connected to the heat exchanger. The depth dimension of the box can be reduced by not interfering with the insertion and removal, and by arranging the rotating shaft of the radiation blower perpendicular to the insertion and removal direction of the heat exchanger.

〔Example〕

Figures 1 to 5 are views showing one embodiment of the present invention, Figure 1 is a perspective view with the lid removed, Figure 2 is a plan view showing the flow of wind, and Figure 3 is the same as Figure 2. 4 is a side view, FIG. 4 is a perspective view showing a state in which a bypass passage is used, and FIG. 5 is a plan view showing the flow of wind in FIG. 4. In the figure (1) to (1
5) indicates the same or equivalent part as the above conventional example, and the box body (
Inside 11, each room is provided by a partition plate (16).
21) is a heat exchanger chamber in which four chambers (+7) (18) (19) and (20) are formed by inserting the heat exchanger (12), and (22) is a partition from the above chamber (17). Board (
16) is provided with an opening (23) and the rotary shaft, which is communicated with the heat exchanger (1, 2), is disposed so as to be orthogonal to the insertion/removal direction of the heat exchanger (1, 2). In the exhaust blower room, there is an outdoor air outlet (
7) is provided. (24) is a radial system in which the chamber (18) and the partition plate (16) are provided with an opening (25) to communicate with each other, and the rotating shaft is arranged perpendicular to the insertion/removal direction of the heat exchanger (12). This is an air supply blower room in which a type of air supply blower (11) is installed, and an indoor air outlet (6) is provided at the end of the blade casing (13). (26) is the above room (19)
An outdoor suction chamber is provided at the bottom and side of the exhaust blower chamber (22), which is communicated with the exhaust fan chamber (22) through an opening (not shown) in the partition plate, and an outdoor suction port (9) is provided on the side wall. .

(27) is an opening (
(28) is an indoor suction passage provided at the lower part of the air supply blower chamber (24), and (29) is an indoor suction chamber that is communicated with this indoor suction passage through an opening (30). An indoor suction port G41 is provided on the side wall.

(31) is a bypass passage provided on the side of the heat exchanger chamber (21), which has an opening (32) (3
3), the exhaust air blower chamber (22) and the indoor suction chamber (29) are communicated via the chamber (17). (34) is a damper provided in the indoor suction chamber (29), which is rotatably formed to open either the opening (30) or the opening (33) and close the other. The movement is performed by an electromagnet or electric motor. The indoor side suction port (A) and the outdoor side outlet (7) are provided on the side wall of the box body (1) in a direction perpendicular to the insertion/removal direction of the heat exchanger (12), and the side wall and The outdoor side suction port (C3) and the indoor side air outlet (6) are provided on opposing side walls. In addition, as mentioned above, an exhaust blower (1
01 and the supply air blower (11) are provided so as to be perpendicular to the insertion/removal direction of the heat exchanger (12) into the box (1), and from the relationship of the blade casing (13). The air is discharged parallel to the insertion/removal direction of the heat exchanger (12), and then bent at right angles so as to be blown out from the indoor outlet (6) and the outdoor outlet (7).

In the ventilation system with a heat exchanger configured as described above, the damper (3) is used for air conditioning ventilation using the heat exchanger (12).
4) closes the opening (33), opens the opening (30), and operates each blower QO It is sucked into the chamber (29) and opens (30) →
Indoor suction passage (27) → Chamber (20) → Heat exchanger (12
) → Room (17) → Opening (23) → Exhaust blower room (22)
The air passes through the exhaust passageway (8) leading to the air, is blown out from the outdoor air outlet (7) by the exhaust blower 00), and is discharged outdoors via the duct. Outdoor air is sucked into the outdoor suction chamber (26) through the outdoor suction port (5) through the duct, and then
19) → Heat exchanger (12) → Chamber (18) → Opening (25)
→ Pass through the air supply passage (9) leading to the air supply blower room (24),
The air is blown out from the indoor air outlet (6) by the air supply blower (9) and supplied into the room via the duct. At this time, the heat exchanger (12) performs heat exchange between the exhaust air flow and the supply air flow, recovers exhaust heat, and reduces the heating and cooling load. On the other hand, during the intermediate seasons such as spring and autumn when heating and cooling are not required, the damper (34) is rotated to open the opening (
By closing the opening (30), opening the opening (33), and operating each blower 〇〇1 (11), outside air is supplied in the same way as the air conditioning ventilation described above, but indoor air is supplied through the duct. from the indoor suction port (4) to the indoor suction chamber (29
), and the opening (33) → bypass passage (31)
→ Opening (32) → Room (17) → Opening (23) → Pass through the bypass ventilation path leading to the exhaust blower room (22), and the exhaust air is blown out from the outdoor air outlet m by the exhaust air blower 41!001 to the outside through the duct. is discharged. In this way, since the exhaust flow does not pass through the heat exchange air (12), there is less resistance in the ventilation path and sufficient normal ventilation is achieved. As mentioned above, the heat exchanger (12) becomes dirty due to air-conditioning ventilation or normal ventilation, and it becomes necessary to clean it.
By removing the cover (14) provided on 1) and pulling out the heat exchanger (12), it can be cleaned with a vacuum cleaner, etc., and the heat exchanger (12) can be inserted and removed through the suction port 141 ((5) and Since it is perpendicular to the direction in which the air outlets (6) and (7) are formed, the air supply and exhaust piping does not interfere with the rotation of the exhaust air blower a [and the air supply air blower (11) Since the shaft is provided perpendicularly to the insertion/removal direction of the heat exchanger (12), the large-sized blade casing (1
3) is arranged parallel to the heat exchanger (I2), and the depth dimension of the box (1) becomes smaller. The width dimension is determined by the dimensions of the heat exchanger (12).

In the above embodiment, the air blower 101 (II) is installed downstream of the heat exchanger (12), but as shown in FIGS. 6 and 7, the air blower QOI (II) is installed in the heat exchanger (12) A similar effect can be expected even if a push-in method is provided further upstream.

〔Effect of the invention〕

As explained above, this invention provides the suction inlet and the outlet on the opposite side walls of the box perpendicular to the insertion/removal direction of the heat exchanger, and each of the radial blowers has its rotation axis facing the heat exchanger. By arranging it perpendicular to the insertion/removal direction, there is no obstruction when inserting/removing the heat exchanger, making it easier to insert/remove the heat exchanger, and the depth of the box body can be reduced. There is.

[Brief explanation of the drawing]

Fig. 1 is a perspective view showing an embodiment of the present invention with the lid removed, Fig. 2 is a plan view also showing the flow of wind, Fig. 3 is a side view of Fig. 2, and Fig. 4. 5 is a plan view showing the state in which the bypass passage is used, FIG. 5 is a plan view showing the wind flow in FIG. 4, FIG. 6 is a plan view showing another embodiment of the present invention, and FIG. The side view of the figure and FIG. 8 are exploded perspective views showing a conventional ventilation system with a heat exchanger. In addition, the same reference numerals in each figure indicate the same or equivalent parts.
1) is the box body, (A) is the indoor suction port, 4 is the outdoor suction port, (6) is the indoor air outlet, (7) is the outdoor air outlet, (8
) is an exhaust passage, (9) is an air supply passage, QOI is an exhaust blower, (11) is a supply air blower, and (12) is a heat exchanger.

Claims (1)

[Claims] A box body in which one set of suction ports and one set of air outlets are provided on each of the indoor side and the outdoor side; An air supply passageway and an exhaust passageway leading to the outside of the room; a radial blower provided in these air supply passageways and the exhaust passageway for forming an air supply flow and an exhaust flow;
a heat exchanger that is removably installed in the box body and exchanges heat between the air supply flow and the exhaust air flow, the suction port and the air outlet being perpendicular to the direction of insertion and removal of the heat exchanger Ventilation with a heat exchanger, characterized in that each of the radiation type blowers is provided on opposing side walls of the box body, and the rotational axis of each of the blowers is arranged so as to be orthogonal to the insertion/removal direction of the heat exchanger. Device.