CN104298271A - Culture room temperature control system and method - Google Patents

Abstract

The invention provides a culture room temperature control system which comprises a temperature detection system, a temperature control center, an air processor, an air inlet pipe, an air outlet pipe, a fresh air valve, a return air valve and an exhaust window. The temperature control center is provided with a man-machine interaction panel. The air processor comprises an evaporation coil, a fan and a refrigeration unit. The culture room temperature control system integrates the fresh air cooling function, the refrigeration machine cooling function and the ventilation function, and can switch working modes according to the indoor and outdoor environment temperature and control parameters preset by the temperature control center, external cold sources are sufficiently utilized, the temperature inside a culture room is automatically controlled, energy consumption can be greatly reduced, and the refrigeration cost of the culture room is effectively reduced; in addition, fully automatic control over the temperature inside the culture room and ventilation is achieved, culture room management is more convenient, and negative effects caused by manual control errors can be avoided.

Description

Culturing room's temperature control system and temperature-controlled process thereof

Technical field

The invention belongs to technical field of edible fungi production, particularly relate to the culturing room's temperature control system and temperature-controlled process thereof that control culturing room's temperature in edible fungus culturing process.

Background technology

Hypha of edible fungus growth is a smoulder heating and process aerobic in a large number, therefore carries out cultural hypha to the modern industrialized agribusiness room of use, needs stronger temperature and Ventilation Control ability.Traditional unitary system cold-peace single ventilation method is all refrigeration and ventilation are separately controlled separately, although whole culturing room environment also can be controlled, but there is refrigeration machine must run in the four seasons, the problem that energy consumption for cooling is large, and coordinated signals can not be carried out with ventilating system, when causing ventilation, culturing room's temperature fluctuation is excessive, affects the growth of hypha of edible fungus.

Summary of the invention

The object of the invention is to overcome culturing room's refrigeration, ventilation energy consumption is too high, and can not the shortcoming of coordinated signals, provide a kind of and integrate the cooling of new wind, the low culturing room's temperature control system of power consumption of refrigeration machine cooling and ventilation function and temperature-controlled process thereof.

Technical scheme of the present invention is achieved in that a kind of culturing room temperature control system, comprising:

For detecting the system for detecting temperature of the inside and outside temperature of culturing room;

For accepting, the temperature data that sends of analysis temperature detection system and the temperature control centre of sending controling instruction, be located in culturing room, temperature control centre is provided with the human-computer interaction panel for preset control parameters;

For carrying out the air processor freezed and indoor-outdoor air exchanges, be connected with temperature control centre, and be located in culturing room, air processor comprises evaporation coil, blower fan and refrigeration unit, for freezing and the circulation of air stream, evaporation coil is connected with refrigeration unit;

Be located at the blast pipe on the side body of wall of culturing room, be positioned at the top of culturing room, the air inlet end of blast pipe is located at outside culturing room, and its other end is connected with the air processor in culturing room, and blast pipe is also provided with return air inlet;

The air duct being located at culturing room top is connected with air processor, which is provided with at least one air outlet;

For controlling the new air-valve of culturing room's inner air and outer air circulation, be located on the air inlet of blast pipe;

For controlling the air returning valve cultivating indoor air circulation, be located on return air inlet;

For controlling the wind valve controller of new air-valve and air returning valve keying and aperture, be connected with temperature control centre;

For the exhausr port ventilated and be vented, bottom the opposite side body of wall being located at culturing room, exhausr port is provided with exhausting window, and exhausting window is provided with exhaust controller, and exhaust controller is connected with temperature control centre.

Further, wind valve controller comprises and opens and closes the control motorized valve of new air-valve and the mutual interlocking gear of coordinated signals air returning valve, and mutual interlocking gear comprises connecting rod, the two ends of connecting rod respectively with new air-valve and air returning valve hinged.

Further, air strainer is provided with in blast pipe.

Preferably, exhausting window is from the louvered electric exhausting window that hangs down.

Further, exhausting window is 30 ~ 50cm from the height on culturing room ground, air duct from the height on culturing room ground higher than exhausting window.

A kind of culturing room temperature-controlled process, based on above-described culturing room temperature control system, comprising:

S1. indoor temperature and outdoor temperature parameter is preset according to the mushroom of culturing room or growth period;

S2. according to the setting result of S1, when cultivating outdoor temperature and being less than outdoor temperature preset value, new wind circulation pattern is opened at temperature control center, under new wind circulation pattern, new air-valve is opened, and air returning valve and refrigeration unit are closed, and the blower fan of air processor is opened, got by cold wind feeding air duct outside culturing room and lower the temperature to the air in culturing room, exhausting window is opened and is discharged by the hot-air in culturing room simultaneously.

S3. according to the setting result of S1, when cultivating outdoor temperature and being more than or equal to outdoor temperature preset value, refrigeration mode is opened at temperature control center, in cooling mode, new air-valve cuts out, air returning valve and refrigeration unit are opened, air processor blower fan is opened, for evaporation coil provides refrigerant, refrigerant is lowered the temperature to Indoor Thermal air through the air outlet discharge of air duct, and under refrigeration mode, exhausting window is closed, and blower fan is opened, the hot-air extracting culturing room's internal upper part enters air processor by air returning valve and lowers the temperature, and cold air is discharged through the air outlet of air duct.

Further, also air vent mode is comprised in S3 step, the Ventilation Control parameter that temperature control centre is preset according to the mushroom of culturing room or growth period opens air vent mode, to meet the demand to oxygen in mycelial growth process, under air vent mode, exhausting window and the closedown of new air-valve under refrigeration mode become unlatching, and air returning valve becomes closedown from unlatching, refrigeration machine is held open, the Ventilation Control time to after return refrigeration mode.

Preferably, in S3 step, the keying of exhausting window and new air-valve is synchronous.

Preferably, culturing room's indoor temperature preset value is 23 ~ 25 DEG C, and culturing room's outdoor temperature preset value is 18 DEG C.

Compared with prior art, culturing room's temperature control system that the present invention proposes integrates the cooling of new wind, refrigeration machine cooling and ventilation function, its temperature can carried out in culturing room according to the environment temperature switching working mode of indoor and outdoor controls, make full use of extraneous low-temperature receiver, significantly can save energy resource consumption, therefore, the cost of mycelial growth is effectively reduced; And achieve and cultivate the Automatic Control of indoor temperature, make culturing room's convenient management, also can avoid slipping up the adverse consequences caused because of manual control; Meanwhile, the larger refrigeration unit of power can intermittent running, prevents from, because long-term work produces heat, consuming the cold air in culturing room.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of culturing room of the present invention temperature control system;

Fig. 2 is the structural representation of three-way pipe in Fig. 1;

Fig. 3 is culturing room of the present invention temperature-controlled process control block diagram.

In figure: 1, culturing room; 2, three-way pipe; 21, return air inlet; 211, air returning valve; 22, three-way pipe air outlet; 23, mutual interlocking gear; 231, connecting rod; 24, three-way pipe air inlet; 241, new air-valve; 25, wind valve controller; 3, air processor; 4, air duct; 41, air outlet; 5, exhausting window; 6, blast pipe; 7, air strainer.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

As depicted in figs. 1 and 2, a kind of culturing room temperature control system, comprising:

For detecting the system for detecting temperature of the inside and outside temperature of culturing room 1, system for detecting temperature comprises is located at the inside and outside temperature sensor of culturing room 1;

For accepting, the temperature data that sends of analysis temperature detection system and the temperature control centre of sending controling instruction, be located in culturing room 1, temperature control centre is provided with the human-computer interaction panel for preset control parameters;

For carrying out the air processor 3 freezed and indoor-outdoor air exchanges, be connected with temperature control centre, and be located in culturing room 1, air processor 3 comprises evaporation coil, blower fan and refrigeration unit, for freezing and the circulation of air stream, evaporation coil is connected with refrigeration unit.

Be located at the blast pipe 6 on the side body of wall of culturing room 1, because hot-air is gathered in culturing room 1 top, therefore blast pipe 6 is located at the top of culturing room 1, the air inlet end of blast pipe 6 is located at outside culturing room 1, its other end is connected with the air processor 3 in culturing room 1, blast pipe 6 is also provided with return air inlet 21, return air inlet 21 opening down, so that the hot-air that air processor 3 extracts in culturing room 1 freezes;

The air duct 4 being located at culturing room 1 top is connected with air processor 3, which is provided with several equally distributed air outlet 41, and air outlet 41 air-out wind direction is parallel to ground, so that the hot-air on cold air Homogeneous cooling culturing room 1 top;

For controlling the new air-valve 241 of culturing room 1 inner air and outer air circulation, be located on the air inlet of blast pipe 6;

For controlling the air returning valve 211 of air circulation in culturing room 1, be located on return air inlet 21;

For controlling the wind valve controller 25 of new air-valve 241 and air returning valve 211 keying and aperture, be connected with temperature control centre;

For the exhausr port by entering indoor new wind discharge, be located on the opposite side body of wall of culturing room 1, exhausr port is provided with exhausting window 5, and exhausting window 5 is provided with exhaust controller, is connected with temperature control centre.

Refrigeration machine freezes by culturing room of the present invention temperature control system, fresh air refrigerating and ventilation set are integrated, temperature control centre can according to the temperature inside and outside the controling parameters preset and culturing room 1, select mode of operation, when indoor and outdoor temperature is relatively low, the new wind of choice for use outdoor replaces the temperature of refrigeration machine to indoor to lower the temperature, this stylish air-valve 241 and exhausting window 5 are opened, fan operation accelerates culturing room 1 inner air and outer air flowing, cold air outside culturing room 1 is discharged in indoor circulation by the air outlet 41 of air duct 4, hot-air is discharged through exhausting window 5, when this pattern, the refrigeration unit that power is larger is closed, greatly can save energy resource consumption, when indoor and outdoor temperature is all relatively high, air returning valve 211, refrigeration unit and air exchange unit are all opened, new air-valve 241 cuts out, exhausting window 5 is closed, refrigeration unit provides refrigerant to evaporation coil, through blower fan, the hot-air at culturing room 1 top is extracted to evaporation coil refrigeration, then discharged by the air outlet 41 of air duct 4 and cool in indoor circulation.

As further technical scheme, wind valve controller 25 comprises and opens and closes the control motorized valve of new air-valve 241 and the mutual interlocking gear 23 of coordinated signals air returning valve 211, the valve block of new air-valve 241 rotates adjustment aperture around the rotating shaft that radial direction is located in three-way pipe 2, air returning valve 211 structure and new air-valve 241 similar, mutual interlocking gear 23 comprises connecting rod 231, one end of connecting rod 231 and the valve block lower end of new air-valve 241 hinged, the other end of connecting rod 231 is with hinged with the valve block lower end of air returning valve 211, air returning valve 211 valve block, connecting rod 231 and new air-valve 241 valve block define double rocker mechanism, specifically please refer to Fig. 2, air returning valve 211 valve block is consistent with the rotational angle of new air-valve 241 valve block, because return air inlet 21 is mutually vertical with three-way pipe air inlet 24, therefore mutual interlocking gear 23 can realize the coordinated signals of new air-valve 241 and air returning valve 211, namely the aperture of new air-valve 241 is a%, then the aperture of air returning valve 211 is 1-a%, during as new air-valve 241 standard-sized sheet, aperture is 100%, then the aperture of air returning valve 211 is 0, when new air-valve 241 cuts out, then the aperture of air returning valve 211 is 100%, for the ease of mutual interlocking gear 23 and the assembling controlling motorized valve, blast pipe 6 is provided with three-way pipe 2, and mutual interlocking gear 23, control motorized valve, new air-valve 241, return air inlet 21 and air returning valve 211 are all located on three-way pipe 2.

As further technical scheme, in order to filter the air entering culturing room 1, the air inlet of blast pipe 6 is provided with air strainer 7.

As further technical scheme, in order to prevent the cold air in culturing room 1 from too much leaking, exhausting window 5 is from the louvered electric exhausting window that hangs down, when having overbottom pressure in culturing room 1, then louver can be backed down, discharge hot-air, otherwise automatically close, further, in order to be conducive to air circulation, exhausting window 5 is 30 ~ 50cm from the height on culturing room 1 ground, air duct 4 height overhead higher than exhausting window 5 height, the air stream circular flow forming enterprising lower row to.

As shown in Figure 3, a kind of culturing room temperature-controlled process, arranges the described culturing room temperature control system of varying number, usual 400m in culturing room 1 ²arrange a set of, the producer can select according to space size, and temperature control centre can share one, and to save equipment investment cost, described culturing room's temperature-controlled process comprises:

S1. indoor temperature and outdoor temperature parameter is preset according to the mushroom of culturing room 1 or growth period;

S2. according to the setting result of S1, when the outer temperature of culturing room 1 is less than outdoor temperature preset value, i.e. T _outward< T _{outward if}, new wind circulation pattern is opened at temperature control center, under new wind circulation pattern, the air passed into outside culturing room 1 opened by new air-valve 241, air returning valve 211 and refrigeration unit are closed, blower fan is opened, the air extracted outside culturing room 1 is lowered the temperature, exhausting window 5 opens formation convection current automatically, so that the air inside and outside culturing room 1 circulates, simultaneously, temperature control center also can according to indoor temperature situation, adjust the aperture of new air-valve 241, and due to exhausting window 5 be from hang down louvered ventilation window, when the air mass flow that blast pipe 6 enters diminishes, indoor overbottom pressure is little, exhausting window 5 aperture is little, therefore new wind internal circulating load diminishes,

S3. according to the setting result of S1, when the outer temperature of culturing room 1 is more than or equal to outdoor temperature preset value, i.e. T _outward>=T _{peripheral hardware}refrigeration mode is opened at temperature control center, in cooling mode, new air-valve 241 cuts out, and air returning valve 211 and refrigeration unit are opened, for evaporation coil provides refrigerant, refrigerant is discharged through the air outlet 41 of air duct 4 and is lowered the temperature to Indoor Thermal air, and under refrigeration mode, exhausting window is closed, and blower fan is opened, the hot-air extracting the indoor top of culturing room 1 enters air processor by air returning valve 211 and lowers the temperature, and cold air is discharged through the air outlet of air duct.

Culturing room of the present invention temperature-controlled process according to the environment temperature switching working mode of indoor and outdoor, can achieve the Automatic Control of temperature in culturing room 1, makes culturing room 1 convenient management, also can avoid slipping up the adverse consequences caused because of manual control; Meanwhile, power consumption declines to a great extent, and according to statistics, new wind all can be used to lower the temperature every year in Northern Part of China from October to May next year, and can realize annual economize on electricity more than 30%, therefore, the cost of cultural hypha is effectively reduced; And the larger refrigeration unit of power can intermittent running, prevents from, because long-term work produces heat, consuming the cold air in culturing room 1.

As further control method, also air vent mode is comprised in S3 step, the Ventilation Control parameter that temperature control centre is preset according to the mushroom of culturing room 1 or growth period opens air vent mode, to meet the demand to oxygen in mycelial growth process, under air vent mode, exhausting window 5 and the closedown of new air-valve 241 under refrigeration mode become unlatching, air returning valve 211 becomes closedown from unlatching, refrigeration machine is held open, the Ventilation Control time to after return refrigeration mode, Ventilation Control parameter comprises ventilation cell interval t1 and ventilation time t2, now exhausting window 5 and new air-valve 241 are with opening with closing.

As further control method, according to the growing environment demand of mushroom, the indoor temperature preset value T of mushroom culturing room 1 _{inside establish}be 23 ~ 25 DEG C, the preset value T of outdoor temperature _{peripheral hardware}it is 18 DEG C.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (9)

1. culturing room's temperature control system, is characterized in that, comprising:

For detecting the system for detecting temperature of culturing room (1) inside and outside temperature;

For accepting, analyzing temperature data that described system for detecting temperature sends and the temperature control centre of sending controling instruction, be located in described culturing room (1), described temperature control centre is provided with the human-computer interaction panel for preset control parameters;

For freezing and the air processor (3) of empty airflow circulating, be connected with described temperature control centre, and be located in described culturing room (1), described air processor (3) comprises evaporation coil, blower fan and refrigeration unit, and described evaporation coil is connected with refrigeration unit.

Be located at the blast pipe (6) on the side body of wall of described culturing room (1), be positioned at the top of described culturing room (1), the air inlet end of described blast pipe (6) is located at described culturing room (1) outward, its other end is connected with the air inlet of the described air processor (3) in described culturing room (1), described blast pipe (6) is also provided with return air inlet (21);

Be located at the air duct (4) on described culturing room (1) top, described air duct (4) is connected with described air processor (3), which is provided with at least one air outlet (41);

For controlling the new air-valve (241) of described culturing room (1) inner air and outer air circulation, be located on the air inlet of described blast pipe (6);

For controlling the air returning valve (211) of the interior air circulation of described culturing room (1), be located on described return air inlet (21);

For controlling the wind valve controller (25) of described new air-valve (241) and described air returning valve (211) keying and aperture, be connected with described temperature control centre;

For the exhausr port by entering indoor fresh air discharge, bottom the opposite side body of wall being located at described culturing room (1), described exhausr port is provided with exhausting window (5), described exhausting window (5) is provided with exhaust controller, and described exhaust controller is connected with described temperature control centre.

2. culturing room according to claim 1 temperature control system, it is characterized in that: described wind valve controller (25) comprise open and close described new air-valve (241) control motorized valve and coordinated signals described in the mutual interlocking gear (23) of air returning valve (211), described mutual interlocking gear (23) comprises connecting rod (231), the two ends of described connecting rod (231) respectively with described new air-valve (241) and described air returning valve (211) hinged.

3. culturing room according to claim 1 temperature control system, is characterized in that: be provided with air strainer (7) in described blast pipe (6).

4. culturing room according to claim 1 temperature control system, is characterized in that: described exhausting window (5) is the louvered electric exhausting window that certainly hangs down.

5. culturing room according to claim 1 temperature control system, it is characterized in that: described exhausting window (5) is 30 ~ 50cm from the height on culturing room ground, described air duct (4) height is overhead higher than the height of described exhausting window (5).

6. culturing room's temperature-controlled process, adopts the culturing room's temperature control system according to any one of described claim 1 to 5 to carry out temperature controlled method, it is characterized in that, comprising:

S1. indoor temperature and outdoor temperature parameter is preset according to the mushroom of described culturing room (1) or growth period;

S2. according to the setting result of S1, when described culturing room (1) outer temperature is less than outdoor temperature preset value, new wind circulation pattern is opened at described temperature control center, under described new wind circulation pattern, the unlatching of described new air-valve (241) passes into described culturing room (1) air outward, described air returning valve (211) and described refrigeration unit are closed, described blower fan is opened, culturing room (1) cold wind is outward sent into air duct (4), and through air outlet (41) discharge, the air in culturing room (1) is lowered the temperature, simultaneously, exhausting window (5) is opened so that the hot-air in culturing room (1) is discharged,

S3. according to the setting result of S1, when described culturing room (1) outer temperature is more than or equal to outdoor temperature preset value, refrigeration mode is opened at described temperature control center, under described refrigeration mode, described new air-valve (241) is closed, described air returning valve (211) and described refrigeration unit are opened, for described evaporation coil provides refrigerant, refrigerant is lowered the temperature to Indoor Thermal air through described air outlet (41) discharge of described air duct (4), under described refrigeration mode, described exhausting window is closed, described blower fan is opened, the hot-air extracting described culturing room (1) internal upper part enters described air processor (3) by described air returning valve (211) and lowers the temperature, cold air is discharged through the described air outlet (41) of described air duct (4).

7. culturing room according to claim 6 temperature-controlled process, it is characterized in that: in S3 step, also comprise air vent mode, the Ventilation Control parameter that described temperature control centre is preset according to the mushroom of described culturing room (1) or growth period opens described air vent mode, to meet the demand to oxygen in mycelial growth process, under described air vent mode, described exhausting window (5) and described new air-valve (241) become unlatching from the closedown under described refrigeration mode, described air returning valve becomes closedown from unlatching, described refrigeration machine is held open, the Ventilation Control time to after return described refrigeration mode.

8. culturing room according to claim 7 temperature-controlled process, is characterized in that: in S3 step, and the keying of described exhausting window (5) is synchronous with the keying of described new air-valve (241).

9. culturing room according to claim 6 temperature-controlled process, is characterized in that: described culturing room (1) indoor temperature preset value is 23 ~ 25 DEG C, and described culturing room (1) outdoor temperature preset value is 18 DEG C.