JPH03181756A - Cooling and heating device - Google Patents

Abstract

PURPOSE:To prevent an occurrence of a thermal loss caused by a heat exchanging operation between a low temperature thermal medium and a high temperature medium at a valve member by a method wherein changing-over valves for guiding a low temperature medium and a high temperature medium to an indoor side heat exchanger and an outdoor are connected under a combination of the first changing-over valve, the second changing-over valve, the third changing-over valve and the fourth changing-over valve. CONSTITUTION:Medium passed through intermediate temperature heat exchangers is guided to an indoor heat exchanger 16 through the first changing-over valve 15a during heating operation and guided to an outdoor heat exchanger 17 during cooling operation and at the same time the medium passed through a low temperature heat exchanger 12 is guided to the outdoor heat exchanger 17 through the second changing-over valve 18a during heating operation and further guided to the indoor heat exchanger 16 during cooling operation. The medium passed through the indoor heat exchanger 16 is guided to the intermediate temperature heat exchangers 27 and 8 through the third changing-over valve 19a during heating operation and further guided to the low temperature heat exchanger 12 through the fourth changing-over valve 19 during cooling operation and further guided to the intermediate temperature heat exchangers 27 and 8 through the third changing-over valve 19a during cooling operation so as to cool or heat the interior side. Accordingly, during cooling and heating operations, there is no possibility that the low temperature medium and the high temperature medium are not flowed concurrently in the same changing-over valve.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a heating and cooling device used as an air conditioner.

<Conventional technology> Conventionally, this type of air conditioning system uses a VM as shown in Fig. 2.
(Blumyer) The low-temperature and high-temperature medium from the cycle-driven refrigerator a is guided to the indoor heat exchanger d and the outdoor heat exchanger e by two switching valves (four-way switching valves) b and c, and air conditioning is performed. (Japanese Patent Application No. 1-24574).

In this case, the refrigerator a has a high temperature side displacer f and a low temperature side displacer g that reciprocate out of phase, and the high temperature side displacer f has a high temperature side heat exchanger heated from the outside and a heat storage device i. .

Connect medium temperature side heat exchanger j and low temperature side displacer g
The structure is such that a regenerator m and an auxiliary medium temperature side heat exchanger n are connected to the low temperature side heat exchanger, and the medium greenhouses of both displacers f and g communicate with each other through a communication chamber p.

<Problem to be solved by the invention> However, in such a heating and cooling system, in both cooling and heating, one passage in the switching valve is filled with a low-temperature medium such as cold water, and the narrow passage is filled with a low-temperature medium such as hot water. Due to the simultaneous flow of high temperature media,
Both media exchange heat inside the valve, resulting in heat loss.

In view of the above-mentioned circumstances, an object of the present invention is to provide an air conditioning system that solves the above-mentioned problems by using four three-way switching valves and forming blocks of two switching valves each. It is something.

<Means for Solving the Problems> The present invention provides a high-temperature side displacer and a low-temperature side displacer that reciprocate out of phase, and a high-temperature side cylinder that is divided into a high-temperature chamber and a medium-temperature chamber by the high-temperature side displacer. , a high-temperature side heat exchanger that communicates with the high-temperature chamber and is heated from the outside, a heat storage device and a medium-temperature side heat exchanger disposed between the heat exchanger and the medium-temperature chamber, and a low-temperature side displacer.
a low-temperature side cylinder divided into a low-temperature chamber and a medium-sized chamber; a low-temperature-side heat exchanger and a regenerator disposed between the low-temperature chamber and the medium chamber; and a communication chamber that communicates the two medium-sized greenhouses. In the air-conditioning system, the medium-temperature heat exchanger and the low-temperature heat exchanger are connected to the indoor heat exchanger and the outdoor heat exchanger by pipes, wherein the medium-temperature heat exchanger a first switching valve for guiding the medium that has passed through the heat exchanger to the indoor heat exchanger during heating and to the outdoor heat exchanger during cooling; and the medium that has passed through the low-temperature heat exchanger to the outdoor heat exchanger during heating; A second switching valve for guiding the medium that has passed through the indoor heat exchanger during cooling and a medium that has passed through the outdoor heat exchanger during cooling to the medium temperature side heat exchanger. It is equipped with a third switching valve and a fourth switching valve for guiding the medium that has passed through the outdoor heat exchanger during heating and the medium that has passed through the indoor heat exchanger during cooling to the low-temperature side heat exchanger. .

Due to the above configuration, the refrigerator uses a VM cycle, and by adopting an external heating method that forcibly heats the working gas in the high temperature side heat exchanger, The high-temperature medium that has passed through the first switching valve is guided to the indoor heat exchanger during heating and to the outdoor heat exchanger during cooling, and the low-temperature medium that has passed through the low-temperature heat exchanger is connected to the first switching valve. The second switching valve allows the medium to be guided to the outdoor heat exchanger during heating and to the indoor heat exchanger during cooling. The medium is the third
The medium that has passed through the outdoor heat exchanger during heating and the medium that has passed through the indoor heat exchanger during cooling is guided to the medium temperature side heat exchanger by the switching valve, and the medium that has passed through the indoor heat exchanger during cooling is guided to the fourth switching valve attached to the third switching valve. It is guided to the low temperature side heat exchanger. In other words, the three-way valves are divided into two blocks and the actuator for operating the valves is shared to guide the low-temperature and high-temperature medium to the indoor heat exchanger and the outdoor heat exchanger. Since the medium and the high-temperature medium do not flow at the same time, heat loss inside the valve is reduced.

<Example> Hereinafter, an example of the present invention will be described based on FIG.
It is as follows.

Fig. 1 is a schematic diagram of a VM cycle drive type external combustion engine, and 1.2 is a high temperature side displacer and a low temperature side displacer that are arranged at right angles and reciprocate with a phase shift.
A high temperature side cylinder 5 which is divided into a high temperature room 3 and a medium temperature room 4 by this high temperature side displacer 1, a high temperature side heat exchanger 6 which communicates with this high temperature room 3 and is heated by an external burner 34, and a high temperature side heat exchanger 6 which is heated by an external burner 34, A heat storage device 7, a medium temperature side heat exchanger 8, and a low temperature side displacer 2 disposed between the exchanger 6 and the medium temperature room 4.
A low-temperature side cylinder 11 divided into a low-temperature chamber and a medium-temperature chamber 10, and a low-temperature-side heat exchanger 12, a regenerator 13, and an auxiliary medium-temperature side heat exchanger 12, a cold storage device 13, and an auxiliary medium-temperature side heat exchanger disposed between the low-temperature chamber 9 and the medium-temperature chamber 10. A communication chamber 14 that communicates the exchanger 27 with the two medium greenhouses 4.10.
A refrigerator 15 is constructed from the above, and the medium temperature side heat exchangers 8 and 27 and the low temperature side heat exchanger 12 of this refrigerator 15 are connected to the indoor side heat exchanger 16 and the outdoor side heat exchanger 17 by piping. In this case, the intermediate temperature side heat exchanger 8゜27 has a first switching valve that serves as a three-way switching valve for guiding heating n+j to the indoor heat exchanger 16 and cooling to the outdoor heat exchanger 17. Valve 1
At the same time, a second switching valve 1-8b is connected to the first switching valve 18a to form a block, and the medium that has passed through the low-temperature side heat exchanger 12 is transferred to the outdoor heat exchanger 17 during heating during cooling. It is made to lead to the indoor heat exchanger 16. In addition, the indoor unit 36 in which the indoor heat exchanger 16 is arranged and the outdoor unit 35 are connected by inter-unit piping 37, and the medium passing through the indoor heat exchanger 1-6 during heating and the outdoor heat during cooling are connected. The medium passing through the exchanger core is transferred to the middle R side heat exchanger 27.8
In addition to connecting to the third switching valve 19a, which serves as a three-way switching valve leading to The passing medium is guided to the low temperature side heat exchanger 12. 20 is a co-rotating shaft 2 for reciprocating the high-temperature side displacer 1 and the low-temperature side displacer 2, respectively.
This is the crank part attached to 1. 2829 is a circulation pump, 30 is an indoor fan, and 31 is an outdoor fan.

Next, to explain this effect, first, when the high temperature side heat exchanger 6 is heated (approximately 700°C) with the burner 34 and the rotating shaft 21 is driven with a small output motor (not shown), the high temperature side displacer 1 begins to descend from the position shown, and the low temperature side displacer 2, which is at the top dead center position, begins to move to the left. When the high temperature side displacer 1 reaches the bottom dead center and starts rising again, the working gas in the high temperature chamber 3 is pushed out by the high temperature side displacer 1, heated by the burner 34 on the way, and passes through the heat storage device 7. When the working gas whose temperature has been lowered by storing high heat in the heat storage device 7 passes through the medium temperature side heat exchanger 8, it reaches a high temperature in this heat exchanger 8 and the auxiliary medium temperature side heat exchanger 27 connected to this heat exchanger 8. The working gas exchanges heat with the medium in the pipe 32 to raise the temperature of this medium (about 80° C.), and the working gas whose temperature has decreased moves to the medium greenhouse 4.

During this time, the low-temperature side displacer 2 continues to move to the left, and the working gas pushed out from the medium temperature chamber 10 and the working gas moved to the medium temperature chamber 4 mix, and the auxiliary medium temperature side heat exchanger 27. Cold storage] 3. The working gas flows into the cold room 9 through the low-temperature side heat exchanger 12, and within this cold room 9, which has a large internal volume, the pressure of the working gas drops and the temperature drops. After that, when the low-temperature side displacer 2 reaches the bottom dead center and starts moving to the right again, the low-temperature working gas is pushed out of the low-temperature chamber 9 and passes through the low-temperature side heat exchanger 12. The medium is cooled to about -10° C. by exchanging heat with the medium, and the cold energy is stored in the regenerator 13 and flows into the auxiliary medium temperature side heat exchanger 27 .

Here, the medium passing through the medium temperature side heat exchanger 27.8 is transferred to the indoor side heat exchanger 1 during heating by the first switching valve 1.8a.
6, is guided to the outdoor heat exchanger 17 during cooling, and
The medium that has passed through the low-temperature side heat exchanger 12 is guided by the second switching valve 18a to the outdoor heat exchanger 17 during heating and to the indoor heat exchanger 16 during cooling, and also passes through the indoor heat exchanger 16. The medium is guided to the medium-temperature side heat exchangers 27 and 8 by the third switching valve] 9H during heating, and is guided to the low-temperature side heat exchanger 12 by the fourth switching valve 19b during cooling, and the medium passes through the outdoor heat exchanger 17. is transferred to the low temperature side heat exchanger 12 by the fourth switching valve 19b during heating.

During cooling, the third switching valve 1.9a switches the middle temperature side heat exchanger 2
By being led to 7 and 8, the room is heated and cooled.

<Effects of the Invention> As described above, the air-conditioning system of the present invention has a VM cycle refrigerator in which a high-temperature side displacer and a low-temperature side displacer that reciprocate with a phase shift are provided. The switching valve that guides the heat to the indoor heat exchanger and the outdoor heat exchanger is the first switching valve, which is a three-way switching valve, and the second switching valve, which is a three-way switching valve.
By connecting the switching valve, the third switching valve, and the fourth switching valve as a block combination, low-temperature medium and high-temperature medium can flow inside the switching valve simultaneously during both cooling and heating. Therefore, there is no heat loss due to heat exchange between the two media inside the valve, and a decrease in heating and cooling capacity can be prevented.

[Brief explanation of drawings]

FIG. 1 is a piping system diagram of a heating and cooling system showing an embodiment of the present invention, and FIG. 2 is a conventional piping system diagram. 1... High temperature side displacer - 2... Low temperature side displacer - 3... High temperature room, 4... Medium greenhouse, 5...
High temperature side cylinder, 6... High temperature side heat exchanger, 7... Heat storage device, 8... Medium temperature side heat exchanger, 9... Low temperature chamber, 10
...Medium greenhouse, 11...Low temperature side cylinder, 12...
Low temperature side heat exchanger, 13... Regenerator, 14... Communication chamber, 15... Freezer, 16... Indoor heat exchanger, 17
...Outdoor heat exchanger, 18a...First switching valve, 18
b...Second switching valve, 19a...Third switching valve, 19b
... Fourth switching valve, 20... Crank part, 34...
Burner patent application Tokyo Gas Co., Ltd. Osaka Gas Co., Ltd. Toho Gas Co., Ltd. Sanyo Electric Co., Ltd. Yuki Omata Figure 2

Claims (1)

[Claims] 1. A high-temperature-side displacer and a low-temperature-side displacer that reciprocate out of phase, a high-temperature-side cylinder that is divided into a high-temperature chamber and a medium-temperature chamber by the high-temperature displacer, and a cylinder that communicates with the high-temperature chamber and is heated from the outside. A high-temperature side heat exchanger, a heat storage device and a medium-temperature side heat exchanger arranged between this heat exchanger and a medium-temperature greenhouse, and a low-temperature side displacer that divides the low-temperature chamber into a low-temperature chamber and a medium-temperature chamber. A refrigerator is constituted by a side cylinder, a low-temperature side heat exchanger and a regenerator disposed between the low-temperature chamber and the medium-temperature chamber, and a communication chamber that communicates both the medium-temperature chambers. In a heating and cooling system in which an exchanger and a low-temperature heat exchanger are connected to an indoor heat exchanger and an outdoor heat exchanger by piping, the medium that has passed through the medium-temperature heat exchanger is transferred to the indoor heat exchanger during heating. , a first switching valve for guiding the medium that has passed through the low temperature side heat exchanger to the outdoor heat exchanger during cooling, and a second switching valve for guiding the medium that has passed through the low temperature side heat exchanger to the outdoor heat exchanger during heating and to the indoor heat exchanger during cooling. a switching valve, a third switching valve for guiding the medium that has passed through the indoor heat exchanger during heating and the medium that has passed through the outdoor heat exchanger during cooling to the medium temperature side heat exchanger, and the outdoor heat exchanger during heating. 1. An air-conditioning and heating device comprising: a fourth switching valve for guiding the medium passing through the indoor heat exchanger to the low-temperature heat exchanger during cooling.