JP6120585B2 - Crop environment improvement device using hot air heater - Google Patents

Description

  The present invention uses, for example, a receiving unit, a fan and a passage of a hot air heater, a suction port and a discharge port, and, if necessary, a duct in the house when the hot air heater is stopped (not operating). In addition, the present invention relates to a crop environment improvement device using a warm air heater for improving the crop environment.

  Japanese Patent Application Laid-Open No. 2012-152176 proposed by the present applicant as an apparatus that uses a hot air heater, a carbon dioxide generator, and a heat pump (referred to as a combined agricultural machine) in a house to achieve an optimum growth environment for crops. The “building air conditioner” in the publication is cited (reference (1)). The present invention has a structure in which a hot air heater is used as a relay base to supply CO2 and air (mixing air) conditioned in cool and warm air into the house. Therefore, the combined agricultural machine is effectively used. This invention develops this literature (1) further, and utilizes the structure of a warm air heater effectively. For example, both when the hot air heater is in operation and when it is stopped, the passage and the fan are used, and the duct provided at the discharge port of the passage is effectively used, so that CO2 can be efficiently added to the crop. Supply the mixing air.

  Further, as another related document, for example, “CO2 supply and heating device in house” of Japanese Utility Model Laid-Open No. 7-42604 is cited (Document (2)). In this device, the exhaust gas of the chimney is supplied to the suction port of the hot air heater and is supplied into the house through the passage and the discharge port. Therefore, this device is a combination of a chimney and a hot air heater. Further, Japanese Patent Application Laid-Open No. 62-166820 “Hot-air air conditioner with a device for storing CO 2 of combustion exhaust gas” (reference (3)). The present invention relates to an air conditioner equipped with an engine for artificial lighting and a generator, which raises the temperature through heat exchange with the exhaust gas of the engine, stores the combustion gas, and generates a hot air generator when necessary. To the house crops from the passage and outlet. Therefore, the present invention is a combination of an engine, a generator, and a hot air generator.

JP 2012-152176 A Japanese Utility Model Publication No. 7-42604 Japanese Patent Laid-Open No. 62-166820

  The present invention is a utilization of the prior art (Reference (1)), and effectively utilizes the structure of a warm air heater employed as a combined agricultural machine. For example, by using the passage and the fan (effective use) at the time of operation or stop of the hot air heater, using the duct provided at the outlet of the passage (effective use), CO2 and mixing air (CO2 mixed air and mixed warm air or mixed cold air) are efficiently and reliably supplied to the crops in the house.

  Claims 1 to 7 make effective use of the structure of the warm air heater of the combined agricultural machine. For example, whether the hot air heater is operating or stopped, CO2 generated by the carbon dioxide generator and / or hot / cold air (warm air) generated by the heat pump is used as the hot air heater. By using a duct provided in the house, which is provided at the outlet of the passage, using the passage and fan of the house, the return air of the house (whether the hot air heater is operating or stopped) ( Return air to the receiving unit), CO2 generated by the carbon dioxide generator and / or warm / cold air generated by the heat pump, and mixed with CO2 mixed air and / or mixed warm air to the crop in the house. The mixed cold air is supplied efficiently and reliably.

Claim 1 installs the hot air heater, the carbon dioxide generator, and the heat pump in the house, respectively, and the piping provided for the carbon dioxide generator and the heat pump, respectively, at the inlet of the hot air heater Connected, CO2 and / or warm air from each pipe is blown to the hot air heater, using the fan of the hot air heater, the internal passage, and the discharge port, by the duct provided at the discharge port, In the crop environment improvement device using hot air heaters that can be supplied into the house,
A crop air environment improvement device using a warm air heater, characterized in that pipes respectively provided on the carbon dioxide generator and the heat pump are connected to an opening of a receiving unit for concealing the four-side surfaces of the warm air heater. It is.

Claim 2 connects piping provided to the carbon dioxide generator and the heat pump, respectively, to an opening of the receiving unit for concealing the four sides of the hot air heater, and connects the piping to the hot air heater. It is a crop environment improvement apparatus of the hot air heater use of Claim 1 linked with the suction inlet of .

Claim 3, the operation of the carbon dioxide gas generator, and the heat pump, the operation of the warm-air heating machines, either individually operated control, or interlocking operation control, according to claim 1, selectable Crop environment improvement device using hot air heater.

Claim 4, wherein the receiving unit for four peripheries side concealment warm-air heating machines, the carbon dioxide gas generator, and the heat pump, warm-air heating apparatus according to claim 1 for connecting the pipe respectively provided It is a crop environment improvement device for use.

According to a fifth aspect of the present invention, the receiving unit for concealing the four side surfaces of the hot air heater includes four vertical shafts erected on the four peripheral side surfaces, four horizontal shafts supported on the vertical surfaces, and a joint tool. The crop environment improving device using a warm air heater according to claim 1 , comprising a cover and a cover.

Claim 6, the receiving unit for four peripheries side concealment of the warm air heater is the crop environment improving apparatus of the warm air heater use according to claim 1 for installing the cover for covering the ceiling of the unit .

Claim 1 installs the hot air heater, the carbon dioxide generator, and the heat pump in the house, respectively, and the piping provided for the carbon dioxide generator and the heat pump, respectively, at the inlet of the hot air heater Connected, CO2 and / or warm air from each pipe is blown to the hot air heater, using the fan of the hot air heater, the internal passage, and the discharge port, by the duct provided at the discharge port, In the crop environment improvement device using hot air heaters that can be supplied into the house,
It is configured to connect the pipes provided to the carbon dioxide generator and heat pump to the opening of the receiving unit for concealing the four sides of the hot air heater, either when the hot air heater is in operation or when it is stopped Also, the return air of the house and the CO2 generated by the carbon dioxide generator and / or the warm and cold air generated by the heat pump are mixed, and the CO2 mixed air and / or the mixed warm air is mixed with the crops in the house. There is a feature that mixed cold air can be supplied efficiently and reliably. In addition, it has features such as being able to be assembled on-site and installed on conventional complex agricultural machines. Furthermore, a receiving unit for concealing four circumferential sides, and burden for the fan, power saving, there are features such that it is possible to mix adjusted with house air to the parallel beauty.

According to the second aspect of the present invention, the pipes respectively provided to the carbon dioxide generator and the heat pump are connected to the opening of the receiving unit for concealing the four sides of the hot air heater, and the pipe is connected to the inlet of the hot air heater. It is a structure and has the characteristics that CO2 and / or warm air can be provided to crops and / or fruits in a house via a warm air heater.

The third aspect of the present invention is a configuration that enables selection of whether the operation of the carbon dioxide generator and the heat pump and the operation of the hot air heater are individually controlled or linked. There exists the characteristic which can select suitably the CO2 produced | generated and / or the warm / cool air produced | generated with a heat pump.

Claim 4 is a configuration in which pipes provided to the carbon dioxide generator and the heat pump are connected to the receiving unit for concealing the four sides of the hot air heater, respectively, and can be assembled on site, It can be installed on agricultural machines.

Claim 5 is a receiving unit for concealing the four sides of the hot air heater, comprising four vertical shafts erected on the four peripheral sides, four horizontal rods supported by the vertical rod, joint tools, and a cover. It has a feature that it can be assembled on-site and can be installed on a conventional combined agricultural machine.

Claim 6 is the structure which installs the cover which covers the ceiling of a unit in the receiving unit for concealing the four sides of the hot air heater, and is generated by CO2 generated by a carbon dioxide generator and / or by a heat pump. There is a feature that can effectively use warm and cool air.

Scale conceptual diagram showing an example of installing a warm air heater inside the house and a carbon dioxide generator and heat pump outside the house. Front view of a partly missing part showing an example of a hot air heater Rear view of a partial defect showing an example of a hot air heater Plan view showing an example of hot air heater Front view showing an example of relationship between hot air heater and carbon dioxide generator Rear view showing an example of relationship between hot air heater and carbon dioxide generator The top view which shows an example of the relationship between a warm air heater and a carbon dioxide generator Front view showing an example of relationship between hot air heater and heat pump Rear view showing an example of relationship between hot air heater and heat pump The top view which shows an example of the relationship between a warm air heater and a heat pump It is a flowchart in which the carbon dioxide gas generator and the heat pump show the interlock operation control while the hot air heater is in operation. It is a flowchart which shows individual operation control of a carbon dioxide generator, while a warm air heater is operating. It is a flowchart which shows individual operation control of a heat pump, while a warm air heater is operating.

  In the present invention, as in the example shown in FIG. 1, the hot air heater B, the carbon dioxide generator C, and the indoor unit 7 of the heat pump D (the outdoor unit “only the words are shown”) in the house A, Install each.

  The hot air heater B shown in FIGS. 3-1 to 3-3 is provided in the vicinity of the inner surface A1 of the house A. In the heater main body 1, a burner 100 using heavy oil as fuel and , A pot 101 in which the burner 100 is installed, and an air passage 102 (CO2 mixed air and / or air passage such as mixed warm air, mixed cold air, or house A air) and one or a plurality of suctions in the upper part It has a mouth 103 (opening to a receiving unit 2 to be described later) and one or a plurality of outlets 104 connected to the passage 102 and opening toward the house A. Therefore, CO2 introduced into the receiving unit 2 (mixing area E) via the first and second pipes 6 and 8 provided in the indoor unit 7 of the carbon dioxide generator C and the heat pump D, which will be described later, and / or Alternatively, the warm air is mixed with the return air from the house A, etc., and becomes CO2 mixed air and / or mixed warm air, mixed cold air, or straight house A return air, and enters the passage 102 from the suction port 103. be introduced. Thereafter, CO 2 mixed air and / or mixed warm air, mixed cold air, return air of the house A, or the like reaches the duct F from the discharge port 104. Further, in the carbon dioxide generator C, there may be a use state where the temperature is raised through heat exchange with the hook 101 in the passage 102 and then exhausted (supplied) from the discharge port 104 to the duct 2. Further, as shown in FIG. 3A, the carbon dioxide generator C and the first pipe 6 can be structured in a simple manner without being connected, and the existing carbon dioxide generator C can be used. Useful (other heat pump D is the same).

  The receiving unit 2 is for concealing the four-circumferential side surface B1 of the hot air heater B. For example, the four vertical rods 200 (vertical frame) erected on the four-circumferential B1 side surface and the four vertical rods 200 supported by the vertical rod 200 A book cover 201 (horizontal frame) or a joint tool 202 constitutes a frame structure, which is a vinyl cover 203 (cover such as a shielding cover) that conceals the periphery of the frame structure, and is mainly assembled on site. For example, a vertical fence 200 is erected, and a horizontal fence 201 is framed by a joint tool 202 on the vertical fence 200, and then a cover 203 is attached around the frame. As shown in the figure, the cover 203 has a structure that does not block the burner 100 above the hot air heater B, that is, above the discharge port 104 (the burner 100 is intended to be visible and can be operated). ). This illustration is merely an example, and if necessary, a structure in which the cover 203 is attached to the periphery and the entire ceiling (providing an opening for air introduction in the house A) or a part thereof after the framework is possible. Although not shown, the receiving unit 2 has a structure in which the vertical rod 200 and the horizontal rod 201 are integrated with the joint tool 202 in advance and the cover 203 is attached, an integrated structure, and a folded shape or the like. Is also possible. The receiving unit 2 (cover 203) is provided with a plurality of openings 3 for connection. For example, the openings 3 are located above the inlet 103 of the hot air heater B, and will be described later. The mixed air and / or the mixed warm / cool air is reliably supplied to the suction port 103 of the warm air heater B. Although not shown, the cover 203 covers the upper portion of the hot air heater B with the cover 203 to secure a mixing area E in which the CO2 and / or warm air and the air in the house A are mixed. The efficiency of the mixing of the return air of the house A, CO2, and / or warm / cool air is promoted and promoted. In this example, a gap B3 is formed above and below the mixing area E and between the cover 203 and the four-circumferential side face B1 of the hot air heater B. The gap B3 takes the air of the house A into the mixing area E and mixes with the received CO2 or warm / cool air. In addition, by providing this gap B2, a plurality of ducts of the house A are taken into the hot air heater B as CO2 mixed air and / or mixed hot and cold air without imposing a burden on the fan 105 described later. It is a structure to send to F. Another reason for reducing the burden by opening the ceiling of the cover 203 is, for example, a method in which CO2 mixed air and / or mixed warm / cool air is not blown into the duct under the shelf (ductless method). It is suitable. Although not shown, the cover 203 can be made of a material such as a net that allows air to flow.

  The carbon dioxide generator C shown in FIGS. 3-1 to 3-2 is provided in the vicinity of the inner surface A1 of the house A so as to be attached to the hot air heater B. This carbon dioxide generator The apparatus C includes a can body 5, a burner 501 provided on the can body 5, a combustion hook, a fan, a suction opening 502, a blow-off opening 503, and the like (not shown). The outside air sucked from the suction opening 502 is mixed and / or cooled, and the fan (not shown) is used to reach the blowout opening 503. One end of the first pipe 6 is connected to the blowout opening 503. The other end of the first pipe 5 is connected to the opening 3 of the receiving unit 2. Accordingly, the CO 2 generated by the carbon dioxide generator C is supplied to the mixing area E via the first pipe 6 and the opening 3. The CO2 in the mixing area E is mixed with the house A internal air, and mixed air containing CO2 (CO2 mixed air) is generated. The CO 2 mixed air reaches the hot air heater B from the suction port 103 by the suction force of the fan 105. The CO2 mixed air introduced into the hot air heater B passes through the passage 102, reaches the exhaust port 104, and then passes from the multiple ducts F connected to the exhaust port 103 to the house A. Supplied to the crops inside. It has the advantage of helping photosynthesis and promoting the growth of crops and / or fruits.

  The indoor unit 7 of the heat pump D shown in FIGS. 3-1 to 3-2 is provided in the vicinity of the inner surface A1 of the house A so as to be attached to the hot air heater B. The machine is provided outside House A. The indoor unit 7 switches between a heating cycle and a cooling cycle, and generates warm air or cold air via a heat exchanger (not shown). One end of the second pipe 8 is connected to the blowout opening 700 provided in the indoor unit 7. The other end of the second pipe 8 is connected to the opening 3 of the receiving unit 2. Therefore, the cold air or hot air generated by the indoor unit 7 is supplied to the mixing area E via the second pipe 8 and the opening 3. The cold air or warm air in the mixing area E is mixed with the house A internal air, and mixed warm air or mixed cold air is generated. The mixed warm air or the mixed cool air reaches the hot air heater B from the suction port 103 by the suction force of the fan 105. The mixed warm air or mixed cold air introduced into the hot air heater B passes through the passage 102 and reaches the discharge port 104, and then from a large number of ducts F connected to the exhaust port 103. , Supplied to crops in House A. It has the advantage of helping to produce the ambient temperature of the crop and promoting the growth of the crop and / or fruit.

  In the situation of FIG. 5A, the fan 105 equipped in the hot air heater B is operated, and CO2 generated by the carbon dioxide generator C and the hot and cold air converted by the heat pump D are supplied to the house A. . While the fan 105 of the hot air heater B is in operation, the CO2 from the carbon dioxide generator C and the hot and cold air from the heat pump D pass through the first pipe 6 and the second pipe 8 to mix the receiving unit 2. The flowchart which reaches E to the duct F from the discharge port 104 via the channel | path 102 from the suction inlet 103 opened to the mixing area E is shown. Start (ST-1)-> There is a command from a sensor installed in the house or means such as a timer (ST-2), and the fan 105 of the hot air heater B is ON (in operation), and the carbon dioxide generator C In the state where the heat pump D is turned on and the heat pump D is turned on (ST-3a to 3c), CO2 and warm / cool air reach the mixing area E (ST-4) of the receiving unit 2. In the mixing area E, it is mixed with the air of the house A, and CO2 mixed air and mixed warm air or mixed cold air are generated (ST-5). The CO2 mixed air and the mixed warm air, or the mixed cold air are supplied from the hole (not shown) of the duct F via the suction port 103 → the passage 102 → the discharge port 104 → the duct F, and the mixed warm air and the mixed warm air. Alternatively, the mixed cold air is supplied and heated and cooled, and the environment is set (ST-6). In addition, there is a command by means such as a sensor or a timer (ST-2), the fan 105 of the hot air heater B is OFF (stopped), the carbon dioxide generator C is OFF, and the heat pump D is OFF. In the state (ST-3aa to 3 cc), each is finished.

  The situation in FIG. 5B is an example in which the fan 105 equipped in the hot air heater B is operated and the CO 2 generated by the carbon dioxide generator C is supplied to the house A. The heat pump D is turned off (ST-30cc). While the fan 105 of the hot air heater B is in operation, the CO2 from the carbon dioxide generator C reaches the mixing area E of the receiving unit 2 via the first pipe 6 and opens to the mixing area E A flow chart from 103 through the passage 102 to the duct F from the discharge port 104 is shown. Start (ST-10)-> There is a command from a sensor installed in the house, or means such as a timer (ST-20), and the fan 105 of the hot air heater B is ON (in operation), and the carbon dioxide generator C In the state where ST is ON (ST-30a, 30b), CO2 reaches the mixing area E (ST-40) of the receiving unit 2. In the mixing area E, it is mixed with the air in the house A, and CO2 mixed air is generated (ST-50). The CO2 mixed air is supplied with CO2 mixed air from the hole (not shown) of the duct F via the suction port 103 → the passage 102 → the discharge port 104 → the duct F, and the environment is set (ST-60). In addition, there is a command by means such as a sensor or a timer (ST-20), the fan 105 of the hot air heater B is OFF (stopped), and the carbon dioxide generator C is OFF (ST-30aa-30cc) ) Is the end.

  5-3 is an example of operating the fan 105 equipped in the hot air heater B and supplying warm air or cold air generated by the heat pump D to the house A. FIG. The carbon dioxide generator C is turned off (ST-300bb). While the fan 105 of the hot air heater B is in operation, the CO2 from the carbon dioxide generator C reaches the mixing area E of the receiving unit 2 via the second pipe 8 and opens to the mixing area E A flow chart from 103 through the passage 102 to the duct F from the discharge port 104 is shown. Start (ST-100)-> There is a command from a sensor installed in the house or means such as a timer (ST-200), the fan 105 of the hot air heater B is ON (in operation), and the heat pump D is turned ON In the state (ST-300a, 300c), CO2 reaches the mixing area E (ST-40) of the receiving unit 2. In the mixing area E, it is mixed with the air of the house A, and mixed warm air or mixed cold air is generated (ST-500). The mixed warm air or the mixed cold air is supplied with mixed warm air or mixed cold air from the hole (not shown) of the duct F through the suction port 103 → the passage 102 → the discharge port 104 → the duct F to set the environment. (ST-600). In addition, in the state (ST-300aa-300cc) where there is a command by means such as a sensor or a timer (ST-200), the fan 105 of the warm air heater B is OFF (stopped), and the heat pump D is OFF (ST-300aa to 300cc) Each is the end. In the operation of the peat pump D, it is possible to dehumidify the return air of the house A (mixed in the mixing area E).

A House A1 Wife surface B Warm air heater B1 Quadruple side surface C Carbon dioxide generator D Heat pump E Mixing area F Duct 1 Main body 100 Burner 101 Pot 102 Passage 103 Suction port 104 Discharge port 105 Fan 2 Receiving unit 200 Vertical shaft 201 Horizontal shaft 202 Joint tool 203 Cover 3 Opening 5 Can body 501 Burner 502 Suction opening 503 Blowing opening 6 First piping 7 Indoor unit 700 Blowing opening 8 Second piping

Claims (6)

In the house, a hot air heater, a carbon dioxide generator, and a heat pump are installed, respectively, and a pipe provided in each of the carbon dioxide generator and the heat pump is connected to the suction port of the hot air heater, CO2 and / or warm / cool air from each pipe is blown to the warm air heater, and the fan, internal passage, and exhaust port of the warm air heater are used, and a duct provided at the exhaust port is used. In the crop environment improvement device using a hot air heater that can be supplied into the house,
A crop air environment improvement device using a warm air heater, characterized in that pipes respectively provided on the carbon dioxide generator and the heat pump are connected to an opening of a receiving unit for concealing the four-side surfaces of the warm air heater. . According to a second aspect of the present invention, the pipes respectively provided in the carbon dioxide generator and the heat pump are connected to an opening of the receiving unit for concealing the four-side surfaces of the hot air heater, and the pipe is connected to the hot air heater. The crop environment improvement device using a warm air heater according to claim 1, which is connected to a suction port of the machine. The use of the hot air heater according to claim 1 , wherein the operation of the carbon dioxide generator and the heat pump and the operation of the hot air heater can be selected to be individually controlled or linked operation control. Crop environment improvement device. In the receiving unit for four peripheries side concealment of the warm-air heating machines, the carbon dioxide gas generator, and the heat pump, warm air heater utilizing crop environmental improvement according to claim 1 for connecting the pipe respectively provided apparatus. The receiving unit for a four peripheries side concealment of the warm-air heating machines, the longitudinal rods of the four erected on the four sides aspect, the horizontal rod of the four supporting this vertical rod, and the joint device, as well as with a cover The crop environment improvement apparatus using the warm air heater according to claim 1 . Wherein said receiving unit for four peripheries side concealment warm-air heating machines, hot air heater utilizing crop environment improvement device according to claim 1 for installing the cover for covering the ceiling of the unit.