JP4204807B2 - Low temperature circulating tank - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a low-temperature circulating water tank that cools water in a water tank by circulating a cooled coolant and exchanging heat between the circulating coolant and water in the water tank.
[0002]
[Prior art]
As shown in FIG. 5, the conventional low-temperature circulating water tank 50 circulates a casing 52, a water tank 54, and a coolant such as chlorofluorocarbon that cools water in the water tank 54 by heat exchange. A coolant circulation path 58, a cooler 60 that cools the coolant circulating in the coolant circulation path 58, and a heat exchanger that exchanges heat with water in the water tank 54 by the coolant cooled by the cooler 60. 62, an intake port 64, an exhaust port 68, and a fan 66 that sucks air from the intake port 64 into the housing 52 and exhausts air in the housing 52 from the exhaust port 64. The cooled water in the water tank is discharged to the outside by a pump provided as a body or as an integral body, and water having heat is supplied from the outside into the water tank 54. Such a low-temperature circulating water tank 50 is mainly used for an experimental apparatus or the like that requires cooling water for a company or a school. In this case, such a low-temperature circulating water tank 50 is usually installed near the wall or the corner of the room because of space and other equipment.
[0003]
[Problems to be solved by the invention]
However, in the conventional low-temperature circulating water tank 50, the exhaust port 68 is provided on the side surface of the casing 52 as shown in FIG. Or when it installs in the place etc. where three surfaces were enclosed by the wall, the apparatus, etc., there exists a problem that exhaust_gas | exhaustion cannot fully be performed but the inside of the housing | casing 52 cannot fully be cooled.
[0004]
Therefore, an object of the present invention is to provide a low-temperature circulating water tank that can sufficiently exhaust air even when it is installed near a wall, a corner of a room, or a place where three surfaces are closed.
[0005]
[Means for Solving the Problems]
To achieve the above object, the present invention provides a housing, a water tank, a coolant circulation path for circulating a coolant that cools water in the water tank by heat exchange, and the coolant circulation path. A cooler for cooling the coolant circulating through the heat exchanger, a heat exchanger for exchanging heat with the water in the water tank by the coolant cooled by the cooler, an air inlet, and an upper surface of the housing. A low-temperature circulating water tank comprising: an exhaust port; and a fan that sucks air into the housing from the intake port and exhausts air from the exhaust port.
[0006]
According to the present invention, an exhaust port is provided on the upper surface of the housing, and the air in the housing is exhausted upward, so that the cold circulating water tank according to the present invention is closed at the wall, at the corner of the room, or at the three surfaces. Even when it is installed in a place where it is placed, the exhaust can be sufficiently performed and the inside of the housing can be sufficiently cooled. In the present invention, the coolant includes chlorofluorocarbon.
[0007]
In addition, the low-temperature circulating water tank according to the present invention further includes a casing portion that is provided on the upper surface of the housing so as to cover the exhaust port and can appropriately change the exhaust direction of the air exhausted from the exhaust port. Preferably, in this case, the casing portion is provided so as to be rotatable in the horizontal direction of the casing, and an exhaust port for exhausting air exhausted from the exhaust port in the horizontal direction of the casing is formed. It is preferable. By providing the casing in this way, the exhaust direction of the air discharged from the exhaust port can be appropriately changed by the casing portion, so that the low temperature circulating water tank is close to the wall, the corner of the room, or the place where the three surfaces are blocked, etc. Even if it is installed in the air, the air can be discharged in a desired direction.
[0008]
Furthermore, the low-temperature circulating water tank according to the present invention preferably includes guide means for guiding the air sucked from the intake port to the cooler. By providing the guide means in this way, cooling in the housing is performed. The vessel can be cooled efficiently.
[0009]
Further, in the low-temperature circulating water tank according to the present invention, the coolant circulation path includes a compressor for circulating the coolant, and the guide means is configured to guide the air guided to the cooler to the compressor. It is preferable that the compressor is configured to circulate the coolant as well as the cooler.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the low-temperature circulating water tank according to the present invention will be described with reference to the drawings. FIG. 1 is a schematic front sectional view of a low-temperature circulating water tank according to the present embodiment. The low-temperature circulating water tank 10 according to the present embodiment cools the water in the housing 12 formed in a rectangular parallelepiped shape, the heat exchange water tank 14 provided in the housing 12, and the heat exchange water tank 14 by heat exchange. The coolant circulating in the housing 12, the cooler 18 that condenses and cools the coolant circulating in the coolant circulating path 16, and the coolant cooled by the cooler 18 generates heat. A heat exchanger 20 that exchanges heat with water in the replacement water tank 14, an air inlet 22, an air outlet 26 that can exhaust air taken into the housing 12, and the air inlet 22 into the housing 12. And a sirocco fan 24 that sucks air and discharges the air in the housing 12 from the exhaust port 26.
[0011]
The heat exchange water tank 14 is connected to the auxiliary water tank 19 through a pipe 15a. The preliminary water tank 19 is open at the top, and the opened portion is connected to an opening 28 formed on the upper right side when viewed from the front of the housing 12. In addition, the opening 28 is provided with a lid member 30 that can open the opening 28, so that water can be put into the auxiliary water tank 14 by opening the lid member 30. A pipe 17 a provided between the heat exchange water tank 14 and the reserve water tank 19 is provided with a pump 17, and the water in the heat exchange water tank 14 cooled by operating the pump 17 is provided. Can be supplied to an experimental apparatus or the like that requires external cooling water through the pipe 15c. Further, the preliminary water tank 19 is connected to an external experimental device or the like by a pipe 15b, and is configured so that water having heat used in the external experimental device or the like is returned by the pump 17. That is, the pipe 15b and the pipe 15c are connected to an open pipe or a closed pipe of an external experimental device or the like. When connected to the sealed pipe, the external pipe is sealed without the reserve water tank 19 being sealed, so the water in the heat exchange tank 14 is discharged by the pump 17 through the pipe 15c. In addition, the water in the piping of the external experimental device or the like can be returned to the reserve water tank 19 through the pipe 15b. When connected to an open pipe, the inside of the open pipe is not hermetically sealed, so that the water in the pipe of an external experimental device or the like is pumped from the pipe 15c by the pump 17 by making the inside of the spare water tank 19 sealed. 19 can be returned.
[0012]
The coolant circulation path 16 is connected to the cooler 18 and the heat exchanger 20. While the coolant in the coolant circulation path 16 flows from the heat exchanger 20 to the cooler 18, the coolant is compressed. A compressor 32 that circulates in the coolant circulation path 16 is provided, and circulates in the coolant circulation path 16 while the coolant in the coolant circulation path 16 flows from the cooler 18 to the heat exchanger 20. A dryer 34 is provided to evaporate and remove moisture contained in the coolant.
[0013]
The cooler 18 cools the coolant circulating in the coolant circulation path 16 by condensing and liquefying the coolant. The cooler 18 is provided in the vicinity of the intake port 22, that is, a position where air sucked from the intake port 22 directly hits. The compressor 32 is provided inside the housing 12 with respect to the cooler 18. The heat exchanger 20 is formed in a plate or coil shape, and is provided in the water tank 14 for heat exchange. Therefore, heat can be efficiently exchanged with the water in the water tank 14 for heat exchange, and the liquefied coolant supplied to the heat exchanger 20 can exchange heat with the water in the water tank 14 for heat exchange. Is discharged from the heat exchanger 22 in a vaporized state and supplied to the compressor 32.
[0014]
The intake port 22 is formed on one side surface of the housing 12. On the side of the air inlet 22 in the housing 12, a guide plate 36 is provided that guides air sucked from the air inlet 22 and passed through the cooler 18 toward the compressor 32 without rising. The guide plate 36 extends horizontally from the upper side of the intake port 22 on the inner surface of the housing 12 along the upper surface of the cooler 18 and extends obliquely toward the compressor 32 from the tip of the horizontal portion 36A. The horizontal portion 36A and the inclined portion 36B are provided from the inside of the front surface of the housing 12 to the entire area of the inside of the back surface, so that the air sucked from the air inlet 22 is , All directed towards the compressor 32.
The exhaust port 26 is provided substantially at the center of the upper surface of the housing 12, and the sirocco fan 24 is provided above the exhaust port 26, that is, above the outer side of the center of the upper surface of the housing 12. The exhaust port 26 is provided with a motor 38 that rotates the sirocco fan 24, and the motor 38 is connected to a power source and a control device (not shown).
[0015]
A casing 40 that covers the sirocco fan 24 and the exhaust port 26 is provided above the exhaust port 26. The casing 40 is formed in a rectangular parallelepiped shape as shown in FIGS. 1 and 2, and an opening 42 is formed on one side surface 40A thereof. Therefore, the air discharged from the exhaust port 26 by the sirocco fan 24 is discharged from the opening 42 to the outside. The casing 40 is provided so as to be rotatable in a plane direction with respect to the casing 12, that is, around the axis M of FIG. 1, and the direction of the opening 42 can be changed by rotating the casing 40. And thereby the direction of air discharge can be changed.
[0016]
In the low-temperature circulating water tank according to the present embodiment, the motor 38, the compressor 32, and the pump 17 are connected to a control device (not shown), and each operation is controlled by the control device.
[0017]
Next, the operation of the low temperature circulating water tank 10 according to the present embodiment will be described. First, when the motor 38 is operated, the sirocco fan 24 rotates, the air in the housing 12 is discharged from the exhaust port 26, and the air is sucked into the housing 12 from the intake port 22. That is, as indicated by an arrow A in FIG. 1, the air sucked from the intake port 22 passes through the cooler 18, is guided by the guide plate 36, passes through the compressor 32, and moves toward the exhaust port 26. It rises in the body 12, passes through the exhaust port 26 and the casing 40, and is discharged from the opening 42.
[0018]
Next, when the compressor 32 is operated, the coolant in the coolant circulation path 16 is compressed from the compressor 32 → the cooler 18 → the dryer 34 → the heat exchanger 20 → the compressor 32 as shown by an arrow B in FIG. And circulate. At this time, the coolant supplied to the cooler 18 is cooled and liquefied by the air sucked from the intake port 22, and then moisture is removed by the dryer 34, and then the coolant supplied to the heat exchanger 20 is Then, heat is exchanged with the water in the heat exchange water tank 14, vaporized, and supplied to the compressor 32 in the vaporized state.
[0019]
When the pump 17 is operated, the cooled water in the heat exchange water tank 14 is supplied to an external experimental device or the like as shown by an arrow C in FIG. The water used in is returned to the auxiliary water tank 19 through the pipe 15b while being heated by the pump 17.
[0020]
In the low-temperature circulating water tank 10 according to the present embodiment, the air sucked into the housing 12 takes heat from the cooler 18 and the compressor 32 and passes through an exhaust port 26 provided above the housing 12. It is discharged from the casing 40 opening 42. At this time, since the casing 40 is provided so as to be rotatable in the horizontal direction with respect to the housing 12, the direction of the opening 40 can be changed to freely select the discharge direction of the heated air. For this reason, the low-temperature circulating water tank 10 according to the present embodiment can be installed near a wall, a corner of a room, or a place where three surfaces are closed.
[0021]
For example, an L-shaped duct as shown in FIG. 3 may be attached to the opening 42 of the casing 40 of the low-temperature circulating water tank 10 according to the present embodiment. The exhaust direction can be changed upward.
[0022]
Moreover, in the low-temperature circulating water tank 10 according to the present embodiment, the casing 40 is provided so as to be freely rotatable with respect to the housing 12, but for example, the rotation of the casing 40 is fixed every 30 degrees as shown in FIG. A fixed point may be provided. In this case, for example, when the stopper button 44 is provided and the stopper button 44 is being pressed, the fixing at the fixing point is released, the casing 40 can be freely rotated, and when the hand is released from the stopper button 44, the casing 40 is held at the fixing point. What is necessary is just to comprise so that it may fix. Further, the casing 40 is provided with a spring that urges in the rotational direction, and, for example, when the hand is released from the stopper button at a position other than the fixed point, the casing 40 is moved to the fixed point and fixed by the urging force of the spring. You may do it.
[0023]
【The invention's effect】
As described above, according to the low-temperature circulating water tank according to the present invention, the exhaust port is provided on the upper surface of the housing, and the air exhausted from the exhaust port can be appropriately changed in the exhaust direction by the casing part. It is possible to provide a low-temperature circulating water tank that can be sufficiently exhausted even when installed in a corner of a room or in a place where three surfaces are blocked.
[Brief description of the drawings]
FIG. 1 is a schematic front sectional view of an embodiment of a low-temperature circulating water tank according to the present invention.
FIG. 2 is a partially cutaway plan view of a low-temperature circulating water tank according to the present embodiment.
FIG. 3 is a front view of an L-shaped duct that can be attached to a low-temperature circulating water tank according to the present embodiment.
FIG. 4 is a plan view of another embodiment of the low-temperature circulating water tank according to the present invention.
FIG. 5 is a schematic front sectional view of a conventional low-temperature circulating water tank.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Low temperature circulating water tank 12 Case 14 Water tank 16 Coolant circulation path 18 Cooler 20 Heat exchanger 22 Intake port 24 Sirocco fan 26 Exhaust port 40 Casing

Claims (3)

A housing,
A tank,
A coolant circulation path for circulating in the housing a coolant that cools water in the water tank by heat exchange;
Cooling the coolant circulating through the coolant circulation path, and a cooler provided at a position where the air sucked from the intake port directly hits ,
A compressor provided in the coolant circulation path, and provided inside the housing than the cooler , and
A heat exchanger that exchanges heat with water in the water tank by the coolant cooled by the cooler;
An air inlet formed on one side of the housing;
An exhaust port provided on the upper surface of the housing;
A fan that sucks air into the housing from the air inlet and discharges air from the air outlet;
A low-temperature circulating water tank comprising: guide means for guiding all air sucked from the air intake port to the cooler and the compressor and ascending the inside of the housing toward the exhaust port.   The low-temperature circulation according to claim 1, further comprising a casing portion provided on an upper surface of the casing so as to cover the exhaust port and capable of appropriately changing the exhaust direction of the air exhausted from the exhaust port. Aquarium.   The said casing part is rotatably provided in the horizontal direction of the said housing | casing, The exhaust port which exhausts the air exhausted from the said exhaust port in the horizontal direction of the said housing | casing is formed. 2. The low-temperature circulating water tank according to 2.

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