CN215500716U - Energy-conserving mushroom room of photovoltaic with accuse temperature humidification function - Google Patents

Abstract

The utility model discloses a photovoltaic energy-saving mushroom house with temperature control and humidification functions; belongs to the technical field of edible fungus cultivation equipment; the device is characterized by comprising a support, wherein a cylindrical mushroom house is arranged at the top of the support, a horizontal clapboard is arranged in the cylindrical mushroom house close to the bottom, the interior of the cylindrical mushroom house is divided into a culture chamber and a temperature control chamber positioned below the culture chamber by the horizontal clapboard, and a ventilation and humidification mechanism communicated with the culture chamber is arranged in the temperature control chamber; the top of the cylindrical mushroom house is provided with a photovoltaic panel through a bracket; a plurality of vertical rotating baffles are arranged in the culture chamber at intervals along the radial direction, a plurality of layers of fan-shaped trays are arranged between two adjacent vertical rotating baffles, and a rotating driving mechanism is arranged between each vertical rotating baffle and the cylindrical mushroom house; a rotary sealing and positioning mechanism is arranged between each vertical rotary baffle plate and the horizontal baffle plate as well as between each vertical rotary baffle plate and the side wall of the cylindrical mushroom house; the utility model aims to provide a photovoltaic energy-saving mushroom house with temperature control and humidification functions, which is reasonable in structure, convenient to use and good in effect.

Description

Energy-conserving mushroom room of photovoltaic with accuse temperature humidification function

Technical Field

The utility model relates to a photovoltaic energy-saving mushroom house, in particular to a photovoltaic energy-saving mushroom house with a temperature control and humidification function.

Background

In recent years, edible fungi are popular among people due to the rich nutritional value, and a large amount of various edible fungi are introduced into the diet of people. The growth conditions of common edible fungi are relatively high, and have relatively strict requirements on air temperature, humidity, illumination intensity and carbon dioxide concentration, but most of the current edible fungi are produced by greenhouse cultivation, the temperature and humidity conditions in the greenhouse are difficult to control, the temperature and humidity conditions are easily influenced by local climate factors, the edible fungi are easily polluted in the growth process, the pollution cannot be timely controlled, the fruiting quality is poor and irregular, and a large amount of loss is caused. The existing edible mushroom cultivation house needs to consume a large amount of electric power, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a photovoltaic energy-saving mushroom house with temperature control and humidification functions, which is reasonable in structure, convenient to use and good in effect, aiming at the defects of the prior art.

The technical scheme of the utility model is realized as follows: a photovoltaic energy-saving mushroom house with temperature control and humidification functions comprises a support, wherein a cylindrical mushroom house is arranged at the top of the support, a horizontal partition plate is arranged in the cylindrical mushroom house close to the bottom, the interior of the cylindrical mushroom house is divided into a culture chamber positioned at the top of the horizontal partition plate and a temperature control chamber positioned at the bottom of the horizontal partition plate through the horizontal partition plate, and a ventilation and humidification mechanism which is communicated with the culture chamber and is used for adjusting the temperature and humidity in the culture chamber is arranged in the temperature control chamber; the support is vertically arranged on the top of the cylindrical mushroom house, and the photovoltaic panel is arranged on the top of the support.

A plurality of vertical rotating baffles are arranged in the culture chamber at intervals along the radial direction, a plurality of layers of fan-shaped trays for placing mushroom culture bags are horizontally arranged between two adjacent vertical rotating baffles at intervals, and a rotating driving mechanism for driving each vertical rotating baffle to rotate is arranged between each vertical rotating baffle and the cylindrical mushroom house; and a rotary sealing and positioning mechanism is arranged between each vertical rotary baffle plate and the horizontal partition plate as well as between each vertical rotary baffle plate and the side wall of the cylindrical mushroom house.

In the photovoltaic energy-saving mushroom house with the temperature control and humidification functions, the ventilation and humidification mechanism comprises a fan which is arranged in a temperature control chamber and is positioned in the middle of the temperature control chamber, vertical partition plates which are in one-to-one correspondence with vertical rotating baffle plates are radially arranged on the periphery of the fan at intervals, an air outlet which is communicated with the temperature control chamber between two adjacent vertical partition plates is arranged at the air outlet end of the fan, an air inlet pipe which is communicated with the fan is arranged at the bottom of the cylindrical mushroom house, and an air filter is arranged at the inlet end of the air inlet pipe; a humidifier is arranged in the temperature control chamber between two adjacent vertical partition plates, a water storage tank communicated with the humidifier is arranged on the outer side wall of the cylindrical mushroom house, and a plurality of vent holes are formed in the horizontal partition plates and the fan-shaped tray; the top of the temperature control chamber between two adjacent vertical partition plates is connected with an exhaust pipe in a conduction manner; a temperature sensor and a humidity sensor are provided in the culture chamber.

In foretell energy-conserving mushroom room of photovoltaic with accuse temperature humidification function, rotary driving mechanism includes along vertical setting in the cultivateing the room and be close to the rotation axis that cylindric mushroom room centre of a circle one end is connected with each vertical rotating barrier, is provided with the mounting bracket in the cylindric mushroom room top outside, is provided with the driving motor who is connected with the rotation axis on the mounting bracket, the cylindric mushroom room top below the photovoltaic board be provided with photovoltaic board electric connection's battery, driving motor and battery electric connection.

In the photovoltaic energy-saving mushroom house with the temperature control and humidification functions, the rotary seal positioning mechanism comprises a seal roller which is vertically arranged at the free end of each vertical rotary baffle plate on one side close to the inner side wall of the cylindrical mushroom house, seal grooves which are matched with the seal rollers and are in one-to-one correspondence are arranged on the inner side wall of the cylindrical mushroom house, a pressure sensor is arranged at the bottom in each seal groove and is electrically connected with an external control terminal, a limit block is arranged in each seal groove at the top of the pressure sensor, a matched reset spring is arranged between the limit block and the pressure sensor, an elastic block connected with the limit block is arranged at the opening end of each seal groove, one end of the elastic block, far away from the limit block, is matched with the seal roller and is obliquely arranged towards the outer side of each seal groove along the rotation direction of the seal roller; the side wall of the cylindrical mushroom house between two adjacent sealing grooves is provided with an opening and closing door matched with the fan-shaped tray.

The sealed film that radially is provided with and horizontal baffle top and cylindric mushroom room top matched with is planted at both ends along cylindric mushroom room about vertical rotating damper, and the height of sealed film all is greater than the interval between each vertical rotating damper bottom and the horizontal baffle top and the interval between each vertical rotating damper top and the cylindric mushroom room top, and sealed film passes through screw and each vertical rotating damper both ends fixed connection.

After the structure is adopted, the cultivation room and the temperature control room are matched with each other, so that the ventilation and humidification mechanism in the temperature control room can effectively adjust the temperature and the humidity in the cultivation room, a proper environmental condition is provided for the growth of edible fungi, and the fruiting quality is improved. Can provide clean sustainable power, reduce cost for the mushroom room through the photovoltaic board. Divide into a plurality of fan-shaped cavitys through vertical rotating baffle with cultivateing indoor, can carry out the isolation in batches to the mushroom culture bag in cultivateing indoor, prevent that one of them mushroom culture bag from taking place to pollute the back and cause the pollution to the mushroom in the whole cultivateing indoor, reduce the loss. Can drive each vertical rotating baffle and fan-shaped tray rotation through rotary driving mechanism, can improve the ventilation cooling efficiency in the culture chamber, conveniently get the mushroom culture bag simultaneously and put. Can drive when each vertical rotating barrier and fan-shaped tray are rotatory at rotary driving mechanism through rotary seal positioning mechanism, seal between each vertical rotating barrier and horizontal baffle and the cylindric mushroom room, can effectively fix a position each vertical rotating barrier and horizontal baffle's rotational position simultaneously, conveniently get and put.

Drawings

The utility model will be further described in detail with reference to examples of embodiments shown in the drawings to which, however, the utility model is not restricted.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

fig. 4 is a partially enlarged view at C in fig. 2.

In the figure: 1. a support; 2. a cylindrical mushroom house; 2a, a horizontal clapboard; 2b, a culture chamber; 2c, a temperature control chamber; 3. a ventilation and humidification mechanism; 3a, a fan; 3b, vertical partition plates; 3c, an air outlet; 3d, an air inlet pipe; 3e, an air filter; 3f, a humidifier; 3g, a water storage tank; 3h, ventilating holes; 3i, an exhaust pipe; 4. a support; 5. a photovoltaic panel; 6. a vertical rotating baffle; 6a, a fan-shaped tray; 7. a rotation driving mechanism; 7a, a rotating shaft; 7b, a mounting rack; 7c, driving a motor; 7d, a storage battery; 8. a rotary seal positioning mechanism; 8a, a sealing roller; 8b, a sealing groove; 8c, a pressure sensor; 8d, a limiting block; 8e, a return spring; 8f, an elastic block; 8g, sealing the rubber sheet; 8h, screwing; 9. opening and closing the door; 10. and (4) an observation window.

Detailed Description

Referring to fig. 1 to 4, the photovoltaic energy-saving mushroom house with temperature control and humidification functions comprises a support 1, a cylindrical mushroom house 2 is arranged at the top of the support 1, a horizontal partition plate 2a is arranged in the cylindrical mushroom house 2 and close to the bottom of the cylindrical mushroom house, the interior of the cylindrical mushroom house 2 is divided into a culture chamber 2b positioned at the top of the horizontal partition plate 2a and a temperature control chamber 2c positioned at the bottom of the horizontal partition plate 2a through the horizontal partition plate 2a, and a ventilation and humidification mechanism 3 which is communicated with the culture chamber 2b and is used for adjusting the temperature and humidity in the culture chamber 2b is arranged in the temperature control chamber 2 c; a support 4 is vertically arranged on the top of the cylindrical mushroom house 2, and a photovoltaic panel 5 is arranged on the top of the support 4; can provide clean sustainable power, reduce cost for the mushroom room through photovoltaic board 5.

Be provided with a plurality of vertical rotating baffle 6 along radial interval in cultivateing room 2b, horizontal interval is provided with a plurality of layers of fan-shaped tray 6a that are used for placing the mushroom culture bag between two adjacent vertical rotating baffle 6, separates into a plurality of fan-shaped cavitys in cultivateing room 2b through vertical rotating baffle 6, can carry out the isolation in batches to the mushroom culture bag in cultivateing room 2b, prevents that one of them mushroom culture bag from taking place to pollute the back and causing the pollution to the mushroom in whole cultivateing room 2b, reduces the loss. A rotary driving mechanism 7 for driving each vertical rotary baffle 6 to rotate is arranged between each vertical rotary baffle 6 and the cylindrical mushroom house 2; a rotary sealing and positioning mechanism 8 is arranged between each vertical rotary baffle 6 and the horizontal clapboard 2a and between the vertical rotary baffles and the side wall of the cylindrical mushroom house 2.

Preferably, the ventilation and humidification mechanism 3 comprises a fan 3a arranged in the temperature control chamber 2c and positioned in the middle, vertical partition plates 3b corresponding to the vertical rotating baffle plates 6 one by one are radially arranged on the periphery of the fan 3a at intervals, an air outlet 3c communicated with the temperature control chamber 2c between two adjacent vertical partition plates 3b is arranged at the air outlet end of the fan 3a, an air inlet pipe 3d communicated with the fan 3a is arranged at the bottom of the cylindrical mushroom house 2, and an air filter 3e is arranged at the inlet end of the air inlet pipe 3 d; a humidifier 3f is arranged in the temperature control chamber 2c between two adjacent vertical partition plates 3b, a water storage tank 3g communicated with the humidifier 3f is arranged on the outer side wall of the cylindrical mushroom house 2, and a plurality of vent holes 3h are arranged on the horizontal partition plate 2a and the fan-shaped tray 6 a; the top of the temperature control chamber 2c between two adjacent vertical partition plates 3b is connected with an exhaust pipe 3i in a conduction mode. The exhaust pipes correspond to the fan-shaped cavities one by one, ventilation is guaranteed, and air in the adjacent fan-shaped cavities does not interfere with each other when circulating.

Can carry out the reposition of redundant personnel direction to the wind that fan 3a blown out from air outlet 3c through vertical baffle 3b, the wind after the reposition of redundant personnel gets into cultivates room 2b through ventilation hole 3h on horizontal baffle 2a and the fan-shaped tray 6a, and the waste gas in cultivateing room 2b is discharged from blast pipe 3i, can carry out ventilation to the air in cultivateing room 2b, effectively adjusts the temperature in the cultivateing room 2 b. Can filter the air that gets into fan 3a through mutually supporting of air cleaner 3e and air-supply line 3d, prevent that miscellaneous fungus from getting into to cultivate room 2b and causing the pollution, guarantee the fruiting quality. The water mist generated by the humidifier 3f is mixed with the wind generated by the fan 3a and enters the culture chamber 2b, so that the humidity in the culture chamber 2b can be effectively adjusted.

In this embodiment, a temperature sensor and a humidity sensor are disposed in the culture chamber 2b, so as to facilitate real-time monitoring of the temperature and humidity in the culture chamber 2b, and the temperature and humidity in the culture chamber 2b are adjusted by controlling the air flow rate and the amount of water mist generated by the humidifier 3 f. The working principles of the temperature sensor and the humidity sensor and the connection mode of the temperature sensor and the humidity sensor and the fan are the prior art and are not described herein again.

Preferably, the rotary driving mechanism 7 comprises a rotating shaft 7a which is vertically arranged in the cultivation room 2b and is connected with one end of each vertical rotary baffle 6 close to the circle center of the cylindrical mushroom house 2, a mounting frame 7b is arranged on the outer side of the top of the cylindrical mushroom house 2, a driving motor 7c connected with the rotating shaft 7a is arranged on the mounting frame 7b, a storage battery 7d electrically connected with the photovoltaic panel 5 is arranged on the top of the cylindrical mushroom house 2 below the photovoltaic panel 5, and the driving motor 7c is electrically connected with the storage battery 7 d.

The rotating shaft 7a is driven to rotate by the driving motor 7c, the rotating shaft 7a drives each vertical rotating baffle 6 to rotate, and then each fan-shaped tray 6a is driven to rotate, so that mushroom culture bags on the fan-shaped trays 6a between two adjacent vertical partition plates 3b can be conveniently taken and placed according to actual needs; meanwhile, the ventilation efficiency among the mushroom culture bags on the fan-shaped tray 6a can be improved, and a proper temperature is provided for mushroom growth. The drive motor 7c can be sufficiently powered by the battery 7 d.

Preferably, the rotary seal positioning mechanism 8 comprises a seal roller 8a which is vertically arranged at the free end of each vertical rotary baffle 6 at one side close to the inner side wall of the cylindrical mushroom house 2, the inner side wall of the cylindrical mushroom house 2 is provided with sealing grooves 8b which are matched with the sealing rollers 8a and correspond to each other one by one, a pressure sensor 8c is arranged at the bottom in the sealing groove 8b, the pressure sensor 8c is electrically connected with an external control terminal, a limit block 8d is arranged in the sealing groove 8b at the top of the pressure sensor 8c, a return spring 8e matched with the limit block 8d and the pressure sensor 8c is arranged between the limit block 8d and the pressure sensor 8c, an elastic block 8f connected with a limiting block 8d is arranged at the opening end of the sealing groove 8b, and one end, far away from the limiting block 8d, of the elastic block 8f is matched with the sealing roller 8a and is obliquely arranged towards the outer side of the sealing groove 8b along the rotating direction of the sealing roller 8 a; an opening and closing door 9 matched with the fan-shaped tray 6a is arranged on the side wall of the cylindrical mushroom house 2 between two adjacent sealing grooves 8 b.

Through mutual matching among the elastic block 8f, the reset spring 8e and the pressure sensor 8c, when the sealing roller 8a rotates to be in contact with the elastic block 8f and pushes the elastic block 8f to compress the reset spring 8e, the pressure sensor 8c senses the pressure of the reset spring 8e and controls the driving motor 7c to stop rotating through an external control terminal, and the rotating position of the sealing roller 8a is positioned; simultaneously, mutually support between sealing roller 8a and the elastic block 8f and seal, can improve the sealed effect between each vertical whirl baffle 6 and the cylindric mushroom room 2 lateral wall. Can cooperate the rotation driving mechanism 7 through the door 9 that opens and shuts to conveniently get and put the mushroom culture bag on fan-shaped tray 6a between two adjacent vertical baffle 3b wherein, guarantee simultaneously getting get the temperature in the culture room 2b between the in-process external environment can not influence all the other vertical baffle 3b of putting, guarantee cylindric mushroom room 2's sealing performance.

Preferably, the driving motor 7c is a servo motor, and the positioning of the rotational position of the sealing roller 8a can be achieved by controlling the angle of rotation of the servo motor, as will be apparent to those skilled in the art.

The both ends are radially provided with along cylindric mushroom room 2 with 2a tops of horizontal baffle and 2 tops matched with sealing film 8g in cylindric mushroom room on vertical rotating damper 6, and sealing film 8g highly all is greater than the interval between 6 bottoms of each vertical rotating damper and 2a tops of horizontal baffle and the interval between 6 tops of each vertical rotating damper and 2 tops of cylindric mushroom room, and sealing film 8g passes through screw 8h and 6 both ends fixed connection of each vertical rotating damper. Cooperate with 2 tops of horizontal baffle 2a and 2 tops of cylindric mushroom room respectively through sealed film 8g and seal, can improve the sealed effect of fan-shaped cavity between two adjacent vertical baffles 3b, prevent that miscellaneous fungus from polluting whole cultivation room 2b, reduce the loss.

Preferably, the side wall of the cylindrical mushroom house 2 between two adjacent layers of the fan-shaped trays 6a and the opening and closing door 9 are provided with matched observation windows 10.

The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.

Claims (4)

1. A photovoltaic energy-saving mushroom house with temperature control and humidification functions comprises a support (1), wherein a cylindrical mushroom house (2) is arranged at the top of the support (1), and is characterized in that a horizontal partition plate (2a) is arranged in the cylindrical mushroom house (2) close to the bottom of the cylindrical mushroom house, the interior of the cylindrical mushroom house (2) is divided into a culture chamber (2b) positioned at the top of the horizontal partition plate (2a) and a temperature control chamber (2c) positioned at the bottom of the horizontal partition plate (2a) through the horizontal partition plate (2a), and a ventilation and humidification mechanism (3) which is communicated with the culture chamber (2b) and is used for adjusting the temperature and humidity in the culture chamber (2b) is arranged in the temperature control chamber (2 c); a support (4) is vertically arranged on the top of the cylindrical mushroom house (2), and a photovoltaic panel (5) is arranged on the top of the support (4);

a plurality of vertical rotating baffles (6) are arranged in the culture chamber (2b) at intervals along the radial direction, a plurality of layers of fan-shaped trays (6a) for placing mushroom culture bags are horizontally arranged between two adjacent vertical rotating baffles (6) at intervals, and a rotating driving mechanism (7) for driving each vertical rotating baffle (6) to rotate is arranged between each vertical rotating baffle (6) and the cylindrical mushroom house (2); a rotary sealing and positioning mechanism (8) is arranged between each vertical rotary baffle (6) and the horizontal clapboard (2a) and between the vertical rotary baffle and the side wall of the cylindrical mushroom house (2).

2. The photovoltaic energy-saving mushroom house with the temperature control and humidification functions as claimed in claim 1, characterized in that the ventilation and humidification mechanism (3) comprises a fan (3a) arranged in the temperature control chamber (2c) and located in the middle, vertical partition plates (3b) corresponding to the vertical rotating baffle plates (6) one by one are radially arranged on the periphery of the fan (3a) at intervals, an air outlet (3c) communicated with the temperature control chamber (2c) between two adjacent vertical partition plates (3b) is arranged at the air outlet end of the fan (3a), an air inlet pipe (3d) communicated with the fan (3a) is arranged at the bottom of the cylindrical mushroom house (2), and an air filter (3e) is arranged at the inlet end of the air inlet pipe (3 d); a humidifier (3f) is arranged in the temperature control chamber (2c) between two adjacent vertical partition plates (3b), a water storage tank (3g) communicated with the humidifier (3f) is arranged on the outer side wall of the cylindrical mushroom house (2), and a plurality of vent holes (3h) are arranged on the horizontal partition plate (2a) and the fan-shaped tray (6 a); exhaust pipes (3i) are connected to the tops of the temperature control chambers (2c) between two adjacent vertical partition plates (3b) in a conduction mode; a temperature sensor and a humidity sensor are provided in the culture chamber (2 b).

3. The energy-conserving mushroom room of photovoltaic with accuse temperature humidification function of claim 1, characterized by, rotatory actuating mechanism (7) include along vertical setting in cultivateing room (2b) and with each vertical rotating baffle (6) be close to the rotation axis (7a) that cylindric mushroom room (2) centre of a circle one end is connected, be provided with mounting bracket (7b) outside cylindric mushroom room (2) top, be provided with driving motor (7c) that are connected with rotation axis (7a) on mounting bracket (7b), cylindric mushroom room (2) top below photovoltaic board (5) is provided with battery (7d) with photovoltaic board (5) electric connection, driving motor (7c) and battery (7d) electric connection.

4. The energy-saving photovoltaic mushroom house with the temperature control and humidification functions as claimed in claim 1, wherein the rotary seal positioning mechanism (8) comprises a seal roller (8a) vertically arranged at the free end of each vertical rotary baffle (6) near one side of the inner side wall of the cylindrical mushroom house (2), a seal groove (8b) matched with the seal roller (8a) and in one-to-one correspondence with the seal roller (8a) is arranged on the inner side wall of the cylindrical mushroom house (2), a pressure sensor (8c) is arranged at the bottom in the seal groove (8b), the pressure sensor (8c) is electrically connected with an external control terminal, a limit block (8d) is arranged in the seal groove (8b) at the top of the pressure sensor (8c), a return spring (8e) matched with the limit block (8d) is arranged between the limit block (8d) and the pressure sensor (8c), an elastic block (8f) connected with the limit block (8d) at the open end is arranged in the seal groove (8b), one end of the elastic block (8f), which is far away from the limiting block (8d), is matched with the sealing roller (8a) and is obliquely arranged towards the outer side of the sealing groove (8b) along the rotating direction of the sealing roller (8 a); the side wall of the cylindrical mushroom house (2) between two adjacent sealing grooves (8b) is provided with an opening and closing door (9) matched with the fan-shaped tray (6 a);

both ends are radially provided with along cylindric mushroom room (2) with horizontal baffle (2a) top and cylindric mushroom room (2) top matched with sealing film (8g) about vertical rotating damper (6), the interval between interval and each vertical rotating damper (6) top and cylindric mushroom room (2) top between the high equal greater than each vertical rotating damper (6) bottom and horizontal baffle (2a) top of sealing film (8g), sealing film (8g) pass through screw and each vertical rotating damper (6) both ends fixed connection.

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