CN211267949U - Energy-saving mushroom planting greenhouse convenient for adjusting internal air temperature - Google Patents

Abstract

The utility model discloses a big-arch shelter is planted to energy-saving mushroom of convenient inside temperature of adjusting, including the canopy body, the inboard of the canopy body is connected with the body through the connecting block, and the body runs through the supporting shoe, the upper end of supporting shoe is connected in the top middle part of the canopy body, and the lower extreme of supporting shoe is connected with double-pipe support piece, the both ends of body all are connected with the gas-supply pipe, and the gas-supply pipe at body both ends runs through the upper and lower both sides of double-pipe support piece upper portion pipeline respectively. This convenient energy-saving mushroom of adjusting inside temperature plants big-arch shelter can make the even rise of temperature in the big-arch shelter to avoid local high temperature or low excessively, be favorable to the stable growth that goes on of mushroom in the big-arch shelter, and can go on further support to the canopy body through the body, can preserve the waste heat that the heating wire sent through the heat preservation simultaneously, thereby can be when starting the heating wire next time, utilize this waste heat, be favorable to energy-conservation.

Description

Energy-saving mushroom planting greenhouse convenient for adjusting internal air temperature

Technical Field

The utility model relates to a big-arch shelter technical field is planted to the mushroom specifically is a big-arch shelter is planted to energy-saving mushroom of conveniently adjusting inside temperature.

Background

The mushroom is a usable strain, is rich in nutrition and delicious in taste, is popular with people, is generally planted in a greenhouse in order to improve the growing environment of the mushroom and improve the harvest of the mushroom, and needs to be controlled at the temperature in the greenhouse when the mushroom is planted in the greenhouse, because the mushroom has higher requirements on the growing temperature;

however, the temperature inside the existing mushroom planting greenhouse is inconvenient to adjust, because the existing mushroom planting greenhouse drives the whole inside of the greenhouse to stably rise through the temperature rise of a certain point, the local temperature in the greenhouse is higher or lower, so that the growth of mushrooms is influenced, and the energy is inconvenient to save when the temperature of the existing mushroom planting greenhouse is adjusted.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a conveniently adjust energy-saving mushroom planting big-arch shelter of inside temperature to propose current mushroom planting big-arch shelter and be not convenient for adjust its inside temperature and be not convenient for energy-conserving problem in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an energy-saving mushroom planting greenhouse facilitating adjustment of internal temperature comprises a greenhouse body, wherein the inner side of the greenhouse body is connected with a pipe body through a connecting block, the pipe body penetrates through a supporting block, the upper end of the supporting block is connected to the middle of the top end of the greenhouse body, the lower end of the supporting block is connected with a double-pipeline supporting piece, two ends of the pipe body are connected with gas pipes, the gas pipes at two ends of the pipe body respectively penetrate through the upper side and the lower side of an upper pipeline of the double-pipeline supporting piece, the gas pipes are arranged between the inner side of the upper pipeline of the double-pipeline supporting piece and a rotor, the gas pipes at two ends of the pipe body are connected into the lower pipeline of the double-pipeline supporting piece, the rotor is connected to the outer side of a shaft rod, a shaft rod bearing is connected to the inner part, the shaft lever is connected to the shaft end of the driving motor, the driving motor is installed on the installation frame, the central processing unit is installed on the installation frame, the installation frame is arranged on the double-pipeline supporting piece, the partition plates are arranged inside the lower pipeline of the double-pipeline supporting piece, the heating wire is installed between the partition plates, the heating wire is supported inside the lower pipeline of the double-pipeline supporting piece through the support frame, the two sides of the lower pipeline of the double-pipeline supporting piece are respectively connected with the two ends of the pipe body through the exhaust pipes, the heat preservation layers are arranged on the inner sides of the lower pipeline of the double-pipeline supporting piece, the exhaust pipes are respectively arranged on the two sides of the heating wire and are respectively close to the partition plates on the two sides of the heating wire.

Preferably, the two ends of the pipe body are not communicated, and the structural shape of the pipe body is an arc structure matched with the shed body.

Preferably, the number of the pipe bodies is 2, the 2 pipe bodies are arranged adjacently, and the 2 pipe bodies are respectively connected with a gas pipe and an exhaust pipe.

Preferably, the material that the gas-supply pipe set up in double-pipe support piece upper portion pipeline is the rubber material, and 2 gas-supply pipes in the double-pipe support piece are respectively with the both ends through connection of body.

Preferably, the shortest distance between the rotor and the inner wall of the upper pipe of the double-pipe support is not more than 1/2 of the inner diameter of the gas pipe.

Preferably, the temperature sensor is electrically connected to the central processor, the central processor is electrically connected to the driving motor and the heating wire, and the heating wire and the driving motor are connected in series.

Compared with the prior art, the beneficial effects of the utility model are that: this convenient energy-saving mushroom of adjusting inside temperature plants big-arch shelter can make the even rise of temperature in the big-arch shelter to avoid local high temperature or low excessively, be favorable to the stable growth that goes on of mushroom in the big-arch shelter, and can go on further support to the canopy body through the body, can preserve the waste heat that the heating wire sent through the heat preservation simultaneously, thereby can be when starting the heating wire next time, utilize this waste heat, be favorable to energy-conservation:

1. the gas pipes at the two ends of the pipe body are respectively arranged at the upper side and the lower side of the shaft rod, so that when the shaft rod rotates, the two ends of the pipe body input external cold air between the clapboards in the lower pipelines of the double-pipeline supporting piece, so that the cold air can be heated, and the heated air enters the other end of the adjacent pipeline through the gas pipe and is discharged, thereby being convenient for the uniform rise of the temperature in the greenhouse, avoiding the over-high or over-low local temperature and being beneficial to the stable growth of the mushrooms in the greenhouse;

2. the arc-shaped pipe body can be used for conveniently supporting the greenhouse body, so that the strength of the greenhouse body can be conveniently increased, and the greenhouse can be easily prevented from being easily damaged under strong wind;

3. through the setting of heat preservation, when the big-arch shelter in the temperature that makes reached suitable temperature and stop the heating wire, the waste heat that sends the heating wire is stored between the baffle of double-pipe support piece lower part pipeline to when starting the heating wire next time, utilize this waste heat, be favorable to energy-conservation.

Drawings

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

FIG. 2 is a schematic side sectional view of the upper portion of the dual-duct support of the present invention;

FIG. 3 is a schematic sectional view of the tube body of the present invention;

FIG. 4 is a schematic view of a side view of the connection between adjacent tubes of the present invention;

fig. 5 is a schematic side sectional view of the lower portion of the dual-pipe support of the present invention.

In the figure: 1. a shed body; 2. connecting blocks; 3. a pipe body; 4. a support block; 5. a gas delivery pipe; 6. an exhaust pipe; 7. an electric heating wire; 8. a double pipe support; 9. a shaft lever; 10. a rotor; 11. air holes; 12. a reinforcing bar; 13. a temperature sensor; 14. a support frame; 15. a partition plate; 16. a heat-insulating layer; 17. a drive motor; 18. a mounting frame; 19. a central processing unit; 20. supporting the circular plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an energy-saving mushroom planting greenhouse facilitating adjustment of internal temperature comprises a greenhouse body 1, a connecting block 2, a pipe body 3, a supporting block 4, a gas pipe 5, an exhaust pipe 6, an electric heating wire 7, a double-pipe supporting piece 8, a shaft rod 9, a rotor 10, gas holes 11, a reinforcing rod 12, a temperature sensor 13, a supporting frame 14, a partition plate 15, a heat preservation layer 16, a driving motor 17, a mounting frame 18, a central processing unit 19 and a supporting circular plate 20, wherein the inner side of the greenhouse body 1 is connected with the pipe body 3 through the connecting block 2, the pipe body 3 penetrates through the supporting block 4, the upper end of the supporting block 4 is connected to the middle part of the top end of the greenhouse body 1, the lower end of the supporting block 4 is connected with the double-pipe supporting piece 8, the two ends of the pipe body 3 are both connected with the gas pipe 5, the gas pipes 5 at the two ends of the pipe body 3, the air pipes 5 at the two ends of the pipe body 3 are connected into the inner part of the lower pipeline of the double-pipeline supporting piece 8, the rotor 10 is connected with the outer side of the shaft lever 9, the shaft lever 9 is in bearing connection with the inner part of the upper pipeline of the double-pipeline supporting piece 8, the rotor 10 is arranged between the supporting circular plates 20, the supporting circular plates 20 are connected with the inner part of the upper pipeline of the double-pipeline supporting piece 8, the shaft lever 9 is connected with the shaft end of the driving motor 17, the driving motor 17 is arranged on the mounting frame 18, the central processing unit 19 is arranged on the mounting frame 18, the mounting frame 18 is arranged on the double-pipeline supporting piece 8, the inner part of the lower pipeline of the double-pipeline supporting piece 8 is provided with a partition plate 15, an electric heating wire 7 is arranged between the partition plates 15, the electric heating wire 7 is supported in the, and the inner side of the lower pipeline of the double-pipeline supporting member 8 is provided with a heat preservation layer 16, the exhaust pipes 6 are respectively arranged at two sides of the heating wire 7, the exhaust pipes 6 are respectively close to the partition plates 15 at two sides of the heating wire 7, a reinforcing rod 12 is connected between the pipe bodies 3, the pipe bodies 3 are provided with air holes 11, and the reinforcing rod 12 is provided with a temperature sensor 13.

The two ends of the pipe body 3 are not communicated, and the structural shape of the pipe body 3 is an arc structure inosculated with the shed body 1, so that the strength of the shed body 1 can be conveniently enhanced.

Body 3 is provided with 2 kinds, and 2 adjacent settings of body 3 to 2 connect gas-supply pipe 5 and blast pipe 6 on the body 3 respectively, can make gas-supply pipe 5 follow 3 inhales cold air of first kind of body, and make 3 blowout hot air of second kind of body through blast pipe 6.

The material that gas-supply pipe 5 set up in 8 upper portion pipelines of double pipe support piece is the rubber material, and 2 gas-supply pipes 5 in the double pipe support piece 8 respectively with the both ends through connection of body 3, the shortest distance between the inner wall of rotor 10 and 8 upper portion pipelines of double pipe support piece is not more than 1/2 of 5 internal diameters of gas-supply pipe, can be when rotor 10 rotates, the inner wall of 8 upper portion pipelines of cooperation double pipe support piece carries out continuous extrusion to gas-supply pipe 5, so that gas-supply pipe 5 inputs double pipe support piece 8's lower part pipeline with cold air.

The temperature sensor 13 is electrically connected to the central processor 19, the central processor 19 is electrically connected to the driving motor 17 and the heating wire 7, the heating wire 7 and the driving motor 17 are connected in series, the central processor 19 can judge whether the temperature in the greenhouse body 1 is too low through the temperature sensor 13, and can control the driving motor 17 and the heating wire 7 to be started synchronously through the central processor 19.

The working principle is as follows: install this energy-saving mushroom planting big-arch shelter of inside temperature of conveniently adjusting in the position of use at first to switch on the device's power, later, use according to following mode:

according to fig. 1-5, the temperature sensor 13 and the central processing unit 19 are operated under the power supply of the external power source, the temperature sensor 13 transmits the sensed temperature to the central processing unit 19, when the central processing unit 19 judges that the temperature is lower, the heating wire 7 and the driving motor 17 are started, the driving motor 17 drives the shaft lever 9 to rotate, and further the rotor 10 is rotated to match the inner side of the upper pipeline of the double-pipeline supporting member 8 to continuously extrude the rubber part of the air pipe 5, so that the cold air in the greenhouse body 1 is sucked into the air pipe 5 through the air hole 11 at one side of the pipe body 3 and is transmitted to the space between the partition plates 15 in the lower pipeline of the double-pipeline supporting member 8 to be heated through the heating wire 7, after the cold air is heated, the air is transmitted to the other end of the pipe body 3 connected with the pipe body 3 from the exhaust pipe 6 connected with the space formed between the partition, and is discharged from the air hole 11 at the other end of the tube body 3 connected with the tube body 3;

because the gas pipes 5 connected with the two ends of the pipe body 3 are respectively positioned at the upper side and the lower side of the shaft lever 9, cold air at one end of the pipe body 3 can be sprayed out from the other end of the adjacent pipe body 3 after being heated, so that the temperature in the shed body 1 can be uniformly increased, and stable growth of mushrooms can be facilitated;

after the central processing unit 19 judges that the temperature in the booth body 1 is at a suitable temperature through the temperature sensor 13, the heating wire 7 and the driving motor 17 are stopped, and the waste heat generated by the heating wire 7 is sealed in the lower pipeline of the double-pipeline supporting member 8 through the heat insulating layer 16 to reduce the loss of heat energy, so that the heat in the double-pipeline supporting member 8 can be utilized when the heating wire 7 and the driving motor 17 are started next time, which is beneficial to energy saving.

It is to be understood that the terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the purpose of convenience and simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operated in a particular orientation, and are not to be construed as limiting the scope of the present invention.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a conveniently adjust energy-saving mushroom planting big-arch shelter of inside temperature, includes the canopy body (1), its characterized in that: the inner side of the shed body (1) is connected with a pipe body (3) through a connecting block (2), the pipe body (3) penetrates through a supporting block (4), the upper end of the supporting block (4) is connected to the middle part of the top end of the shed body (1), the lower end of the supporting block (4) is connected with a double-pipeline supporting piece (8), two ends of the pipe body (3) are connected with gas pipes (5), the gas pipes (5) at two ends of the pipe body (3) respectively penetrate through the upper side and the lower side of an upper pipeline of the double-pipeline supporting piece (8), the gas pipes (5) are arranged between the inner side of the upper pipeline of the double-pipeline supporting piece (8) and a rotor (10), the gas pipes (5) at two ends of the pipe body (3) are connected into the inner part of a lower pipeline of the double-pipeline supporting piece (8), the rotor (10) is connected to the outer side of a shaft lever (, the rotor (10) is arranged between the supporting circular plates (20), the supporting circular plates (20) are connected to the inner part of the upper pipeline of the double-pipeline supporting piece (8), the shaft rod (9) is connected to the shaft end of the driving motor (17), the driving motor (17) is installed on the installation frame (18), the central processing unit (19) is installed on the installation frame (18), the installation frame (18) is arranged on the double-pipeline supporting piece (8), the partition plates (15) are arranged inside the lower pipeline of the double-pipeline supporting piece (8), the heating wires (7) are installed between the partition plates (15), the heating wires (7) are supported inside the lower pipeline of the double-pipeline supporting piece (8) through the supporting frame (14), the two sides of the lower pipeline of the double-pipeline supporting piece (8) are respectively connected with the two ends of the pipe body (3) through the exhaust pipes (6), and the heat preservation layers (16) are arranged on the inner, the exhaust pipe (6) is arranged on two sides of the heating wire (7) respectively, the exhaust pipe (6) is close to the partition plates (15) on two sides of the heating wire (7) respectively, a reinforcing rod (12) is connected between the pipe bodies (3), an air hole (11) is formed in each pipe body (3), and a temperature sensor (13) is installed on each reinforcing rod (12).

2. The energy-saving mushroom planting greenhouse convenient for adjusting the internal air temperature as claimed in claim 1, wherein: the two ends of the pipe body (3) are not communicated, and the structural shape of the pipe body (3) is an arc-shaped structure matched with the shed body (1).

3. The energy-saving mushroom planting greenhouse convenient for adjusting the internal air temperature as claimed in claim 1, wherein: the pipe body (3) is provided with 2 kinds, and 2 kinds of pipe bodies (3) are adjacent to be set up to connect gas-supply pipe (5) and blast pipe (6) respectively on 2 kinds of pipe bodies (3).

4. The energy-saving mushroom planting greenhouse convenient for adjusting the internal air temperature as claimed in claim 1, wherein: the material that gas-supply pipe (5) set up in double-pipe support piece (8) upper portion pipeline is the rubber material, and 2 gas-supply pipes (5) in double-pipe support piece (8) are connected with the both ends link up of body (3) respectively.

5. The energy-saving mushroom planting greenhouse convenient for adjusting the internal air temperature as claimed in claim 1, wherein: the shortest distance between the rotor (10) and the inner wall of the upper pipeline of the double-pipeline supporting piece (8) is not more than 1/2 of the inner diameter of the air conveying pipe (5).

6. The energy-saving mushroom planting greenhouse convenient for adjusting the internal air temperature as claimed in claim 1, wherein: the temperature sensor (13) is electrically connected to the central processor (19), the central processor (19) is electrically connected with the driving motor (17) and the heating wire (7), and the heating wire (7) and the driving motor (17) are connected in series.

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