CN220402588U - Air supply system and fungus room - Google Patents

Abstract

The application discloses air supply system and fungus room relates to refrigeration plant's technical field, including the fan and with the blast pipe that the fan is connected, the air outlet has all been seted up to the blast pipe both sides, the air outlet is followed blast pipe length direction is spaced apart to be equipped with a plurality of, be provided with on the blast pipe and make follow the cold wind upflow's that the air outlet was sent wind-guiding piece, wind-guiding piece with air outlet one-to-one sets up, and this application has the effect that can reduce edible fungus growth and take place askew, improves edible fungus production quality.

Description

Air supply system and fungus room

Technical Field

The application relates to the technical field of refrigeration equipment, in particular to an air supply system and a fungus room.

Background

Edible fungi are large fungi which can be eaten by human beings, common edible fungi comprise mushrooms, oyster mushrooms, pleurotus eryngii and the like, and the edible fungi are generally cultivated in a fungus house or a greenhouse and are controlled by corresponding equipment because the growth of the edible fungi requires proper temperature, humidity, ventilation and the like.

The traditional fungus room is in the mode of adjusting edible fungus's growth environment, mainly is through the external air of fan extraction, after refrigerates, send into in the fungus room through the air supply pipeline, the air supply pipeline is hollow pipe generally, and air supply pipeline one end is connected with the air outlet of fan, and the other end extends in the fungus room to carry out the air supply to the fungus room.

Aiming at the related technology, the refrigerated air is sent into the fungus room through the air supply pipe, the cold air can be concentrated at the pipe orifice part of the air supply pipe, and the growth direction of the edible fungus can be skewed under the action of the cold air for a long time when the edible fungus placed at the pipe orifice part of the air supply pipe is close to the pipe orifice part of the air supply pipe, so that the production quality of the edible fungus is affected.

Disclosure of Invention

In a first aspect, the present application provides an air supply system, which adopts the following technical scheme:

the utility model provides an air supply system, includes the fan and with the blast pipe that the fan is connected, the air outlet has all been seted up to the blast pipe both sides, the air outlet is followed blast pipe length direction is spaced apart to be equipped with a plurality of, be provided with on the blast pipe and make follow the cold wind that the air outlet sent upwards flows the wind guide, the wind guide with the air outlet one-to-one sets up.

By adopting the technical scheme, cold air cooled by the fan is conveyed into the air supply pipe and is sent out through the air outlets at the two sides of the air supply pipe, so that the cold air can be conveyed into the fungus room more uniformly, and the temperature of the fungus room is more uniform; simultaneously, the air guide piece is arranged on the outer side of the air outlet, so that cold air can flow upwards along the air guide piece, and accordingly the cold air is obliquely and upwards sent out from the air outlet, the problem that the cold air is directly blown to the edible fungi, the problem that the edible fungi grow askew due to direct blowing of the cold air is solved, and the production quality of the edible fungi is improved.

Optionally, a buffer member for damping is arranged between the fan and the air supply pipe.

Through adopting above-mentioned technical scheme, the fan can reduce the possibility of transmitting vibration to the blast pipe through the bolster in the course of the work, and the blast pipe is located fungus room, in the shock attenuation, also can the noise abatement through the bolster through the fan.

Optionally, the buffer member is a buffer bag.

Through adopting above-mentioned technical scheme, the buffer bag is flexible material, can be better play buffering shock attenuation effect.

Optionally, a first connecting piece and a second connecting piece are arranged on the air supply pipe, a first connecting piece for connecting the buffer bag is arranged on the first connecting piece, and a second connecting piece for fixing the air supply pipe is arranged on the second connecting piece.

By adopting the technical scheme, the first connecting piece is matched with the first connecting piece to fix the blast pipe to the buffer bag; the second connecting piece is matched with the second connecting piece to fix the blast pipe on the ceiling in the fungus room.

Optionally, the wind guide piece include the slope set up in first wind guide piece on the blast pipe and set up in first wind shield piece of first wind guide piece both sides, the wind guide piece set up in the air outlet outside and with the setting of air outlet one-to-one.

Through adopting above-mentioned technical scheme, first wind-guiding piece slope sets up to cold wind can be upwards send into the fungus room along first wind-guiding piece lateral wall slope, and first wind-guiding piece both sides set up first windshield, can restrict wind and spill from first wind-guiding piece both sides.

Optionally, the wind guiding piece including set up in the second windshield of air outlet both sides and rotate set up in second wind guiding piece on the blast pipe, second wind guiding piece rotate connect in two between the second windshield, second wind guiding piece with be provided with the restriction between the second windshield the second wind guiding piece is followed two between the second windshield the locating part that deviate from, and the drive second wind guiding piece is towards being close to blast pipe direction pivoted elastic component.

Through adopting above-mentioned technical scheme, the second wind-guiding piece rotates between two second windshields, and the elastic component can drive the second wind-guiding piece and slide towards the blast pipe direction, and when the blast pipe carried the cold wind simultaneously, because the blast pipe in with the blast pipe outside pressure differential, can make the second wind-guiding piece slide towards deviating from the blast pipe direction to in the air supply process, the second wind-guiding piece can constantly rotate between two second windshields, thereby makes the cold wind that sends out from the air outlet, the ascending angle of slope changes, thereby the cold wind that sends out falls on the domestic fungus more evenly.

Optionally, the limiting piece is a limiting rod arranged on the second wind guiding piece, and a limiting groove for sliding the limiting rod is formed in the second wind guiding piece

Through adopting above-mentioned technical scheme, the gag lever post slides with in the spacing groove, can enough make the rotation of second deep bead more stable, also can restrict between two second deep beads of roll out of second aviation baffle.

In a second aspect, the present application provides a bacterial room, which adopts the following technical scheme:

a bacterial room comprising a bacterial room body and the air supply system of any one of the above.

Optionally, the blast pipe is disposed at a middle position in the fungus room body.

Through adopting above-mentioned technical scheme, the blast pipe is located fungus room body intermediate position, and the domestic fungus sets up in this internal both sides in fungus room to make cold wind send out from the blast pipe both sides, comparatively evenly cool down the domestic fungus of both sides.

In summary, the present application includes at least one of the following beneficial effects:

1. by arranging the air outlets on two sides of the air supply pipe along the length direction of the air supply pipe, the cool air can fall into the fungus room more uniformly, so that the temperature in the fungus room is more uniform;

2. the cold air is obliquely and upwards sent out from the air outlet through the air guide piece, so that the phenomenon that the cold air is directly blown to the edible fungi to influence the growth quality of the edible fungi is avoided.

Drawings

FIG. 1 is a schematic structural view of embodiment 1 or embodiment 3;

fig. 2 is a schematic view showing the installation of the blast pipe of embodiment 1 or embodiment 3;

FIG. 3 is a schematic view of the structure of the air guide in embodiment 1;

fig. 4 is a schematic structural view of embodiment 2;

fig. 5 is a schematic structural view of an air guide in embodiment 2.

Reference numerals illustrate: 1. a blower; 2. an air supply pipe; 21. an air outlet; 22. a first connecting piece; 23. a first connector; 24. a second connecting piece; 25. a second connector; 3. an air guide member; 31. a first air guide plate; 32. a first windshield; 33. a second air guiding piece; 34. a second windshield; 341. a limit groove; 4. a buffer member; 41. a buffer bag; 5. a limiting piece; 51. a limit rod; 6. an elastic member; 7. a fungus house body.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

Example 1:

the embodiment of the application discloses air supply system, refer to fig. 1 and 2, and air supply system includes fan 1 and blast pipe 2 that is connected with fan 1, and blast pipe 2 is inside hollow tubular structure for send into in the fungus room with the wind that has cooled in the fan 1. The cross section of the air supply pipe 2 may be circular, may be rectangular or the like, and in this embodiment, the cross section of the air supply pipe 2 is "U" shaped, and when the air supply pipe 2 is installed, the air supply pipe 2 is fixed on the ceiling of the fungus room, so that the pipe wall of the air supply pipe 2 and the ceiling together form a sealed space for air supply.

Referring to fig. 1 and 2, air outlets 21 are formed in both side walls of the air supply duct 2, and the air outlets 21 are arranged in an array on the side walls of the air supply duct 2, so that cold air supplied into the air supply duct 2 can be supplied to both sides of the air supply duct 2 along the length direction of the air supply duct 2. The air guide piece 3 is further arranged on the air supply pipe 2, and the air guide piece 3 is arranged on the outer side of the air outlet 21, so that cold air sent out from the air outlet 21 is obliquely blown upwards under the action of the air guide piece 3, and the phenomenon that the cold air is directly blown onto edible fungi to influence the growth of the edible fungi is avoided.

Referring to fig. 1 and 2, in the present embodiment, the air guiding member 3 includes a first air guiding plate 31 and first air shielding plates 32 disposed on two sides of the first air guiding plate 31, the first air guiding plate 31 may be a metal sheet, the lower end of the first air guiding plate 31 is connected to the air supplying pipe 2, the upper end of the first air guiding plate extends obliquely upward at an included angle with the side wall of the air supplying pipe 2, and the first air shielding plates 32 are connected between the air supplying pipe 2 and the first air guiding plate 31, so that cold air can be delivered obliquely upward along the inner side wall of the first air guiding plate 31.

Referring to fig. 1 and 3, the fan 1 has an air supply port, a buffer member 4 is arranged between the air supply port of the fan 1 and the air supply pipe 2, vibration can be generated when the fan 1 works, the buffer member 4 can offset the vibration of the fan 1, and the influence of the vibration of the fan 1 on the air supply pipe 2 is less. Specifically, the buffer member 4 may be a buffer bag 41, two ends of the buffer bag 41 are opened, and are respectively connected to the air supply port of the fan 1 and the end portion of the air supply pipe 2, and the buffer bag 41 is made of a flexible material, so that the vibration generated on the fan 1 is difficult to be transferred to the air supply pipe 2, and in other embodiments, the buffer member 4 may also be a hose, an organ pipe, or the like.

Referring to fig. 1 and 3, in the present embodiment, a first connection piece 22 is provided at a portion of the blast pipe 2 connected to the buffer bag 41, the first connection piece 22 is provided along a circumferential side wall of the blast pipe 2, and a first connection piece 23 for connecting the buffer bag 41 is provided on the first connection piece 22.

Specifically, in this embodiment, a partition wall is disposed between a space for cultivating edible fungi in the fungus room and a space for placing the fan 1, one end of the buffer bag 41 extends out of the partition wall to be connected with the air supply pipe 2, the first connecting piece 23 may be a screw, the first connecting piece 22 abuts against an end of the buffer bag 41, and abuts the buffer bag 41 against a wall surface of the partition wall, and the buffer bag 41 is fixed by the screw, and the buffer bag 41 is connected with the air supply pipe 2.

Referring to fig. 1 and 3, in the present embodiment, the end of the buffer bag 41 remote from the air supply duct 2 may be connected to the buffer bag 41 and the air supply port of the blower 1 by means of screws or the like.

Referring to fig. 1 and 3, in the present embodiment, second connection pieces 24 are welded to two parallel side walls of the air supply duct 2, the second connection pieces 24 extend along the length direction of the air supply duct 2, and second connection pieces 25 for fixing the air supply duct 2 are provided on the first connection pieces 22. Specifically, the second connecting piece 25 may be a screw, and when the upper end of the air supply pipe 2 abuts against the ceiling in the fungus room, the screw can penetrate through the second sheet connecting piece and be connected with the ceiling, and a plurality of screws are arranged along the length direction of the air supply pipe 2, so that the air supply pipe 2 is fixed on the ceiling of the fungus room.

Further, the second connecting piece 24 may be fixedly connected with a sealing pad by means of glue, and the sealing pad may be made of elastic material such as rubber, so that when the second connecting piece 24 is fixed on the ceiling, the sealing pad can limit the cool air in the pipeline from leaking from the connection position of the air supply pipe 2 on the ceiling, and the air supply effect is improved.

The implementation principle of the air supply system in the embodiment of the application is as follows: air outside the fungus room is pumped into the fan 1 through the fan 1 and cooled, and then the cooled air is sent into the air supply pipe 2 through the buffer bag 41 and is sent into the fungus room through the air outlets 21 on two sides of the air supply pipe 2.

Example 2:

the difference between this embodiment and embodiment 1 is that the air guiding member 3 is different from the air guiding member 3, referring to fig. 4 and 5, the air guiding member 3 includes second wind shielding plates 34 welded at both sides of the air outlet 21, and second wind guiding plates 33 rotatably connected to the air supplying pipe 2, and the second wind guiding plates 33 are obliquely rotated upwards between the two second wind shielding plates 34. The lower end of the second air guide piece 33 is penetrated with a rotating shaft which is fixedly connected with the second air guide piece 3, and the second air guide piece 33 is rotatably connected with the air supply pipe 2 at the penetrating position of the two ends of the rotating shaft, so that the second air guide piece 33 is rotatably connected with the air supply pipe 2; a limiting piece 5 for limiting the second wind guiding piece 33 from falling out from between the two second wind guiding pieces 34 and an elastic piece 6 for driving the second wind guiding piece 33 to rotate towards the direction approaching to the blast pipe 2 are arranged between the upper end of the second wind guiding piece 33 and the second wind guiding piece 34.

Referring to fig. 4 and 5, the limiting member 5 is a limiting rod 51, the limiting rod 51 may be cylindrical, the limiting rod 51 may also be spherical, frustum-shaped, and the like, in this embodiment, the limiting rod 51 is cylindrical, the limiting rod 51 is welded to two side walls of the second wind guiding sheets 33 that are parallel to each other, a limiting groove 341 in which the limiting rod 51 slides is formed on a side wall of the two second wind guiding sheets 34 facing the second wind guiding sheets 33, the limiting groove 341 is an arc groove, and when the second wind guiding sheets 34 rotate, the limiting rod 51 can just slide in the arc groove.

Referring to fig. 4 and 5, in the present embodiment, the elastic member 6 is a spring, a baffle is welded on a side wall of the second wind shielding plate 34 adjacent to each other, the baffle is obliquely disposed, one end of the spring is fixed on the baffle side wall, and the other end of the spring may abut against the second wind guiding plate 33, or may be fixed with the second wind guiding plate 33, when no air is sent in the air sending pipe 2, in a natural state, the spring is slightly compressed under the pressure of the second wind guiding plate 33, and at this time, a gap between the second wind shielding plate 34 and the side wall of the air sending pipe 2 is smaller; when the air supply pipe 2 supplies air, the second air guide piece 33 rotates outwards under the pressure effect of the air, and the inclination angle of the second air guide piece 33 is continuously changed in the continuous air supply process, so that the angle of cold air supply can be changed, and the cold air supply is more uniform when falling into a fungus room.

Example 3:

the embodiment of the application discloses fungus room, fungus room includes fungus room body 7, installs the air supply system in embodiment 1 or the embodiment 2 in the fungus room body 7.

Referring to fig. 1 and 2, the fungus room body 7 may be rectangular, the air supply pipe 2 fixes the second connecting piece 24 on the ceiling in the fungus room body 7 through the second connecting piece 25, and the air supply pipe 2 is located at the middle position of the fungus room body 7, and the edible fungi are cultivated on two sides of the air supply pipe 2, so that the components sent out by the air supply pipe 2 can be uniformly dropped on the edible fungi on two sides. The air intake has still been seted up to fungus room body 7 both sides, in the air intake can be with external new trend suction fan 1, the fan 1 is provided with the partition wall with the space that is used for breeding the domestic fungus in the fungus room body 7, has seted up the vent on the partition wall, and the baffle bag 41 wears to establish the partition wall, and the vent pipe is fixed connection mutually with the baffle bag 41 through first connecting piece 23 to be fixed in the baffle wall with the baffle bag 41, make external new trend pass through fan 1 cooling back, in the buffer bag 41 carries blast pipe 2.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. An air supply system, characterized in that: including fan (1) and with blast pipe (2) that fan (1) is connected, air outlet (21) have all been seted up to blast pipe (2) both sides, air outlet (21) are followed blast pipe (2) length direction is spaced apart and is equipped with a plurality ofly, be provided with on blast pipe (2) and make follow air guide piece (3) that cold wind that air outlet (21) sent upwards flows, air guide piece (3) with air outlet (21) one-to-one sets up.

2. A blowing system according to claim 1, wherein: a buffer piece (4) for damping is arranged between the fan (1) and the air supply pipe (2).

3. A blowing system according to claim 2, wherein: the buffer piece (4) is a buffer bag (41).

4. A blowing system according to claim 3, wherein: be provided with first connecting piece (22) and second connection piece (24) on blast pipe (2), be provided with on first connecting piece (22) and be used for connecting first connecting piece (23) of buffer bag (41), be provided with on second connection piece (24) and be used for fixing second connecting piece (25) of blast pipe (2).

5. A blowing system according to claim 1, wherein: the air guide piece (3) comprises a first air guide piece (31) obliquely arranged on the air supply pipe (2) and first air shields (32) arranged on two sides of the first air guide piece (31), and the air guide piece (3) is arranged on the outer side of the air outlet (21) and is in one-to-one correspondence with the air outlet (21).

6. A blowing system according to claim 1, wherein: the air guide piece (3) comprises second air guide pieces (34) arranged on two sides of the air outlet (21) and second air guide pieces (33) arranged on the air supply pipe (2) in a rotating mode, the second air guide pieces (33) are connected between the two second air guide pieces (34) in a rotating mode, limiting pieces (5) for limiting the second air guide pieces (33) to deviate from between the two second air guide pieces (34) are arranged between the second air guide pieces (33) and the second air guide pieces (33) are driven to rotate towards elastic pieces (6) close to the direction of the air supply pipe (2).

7. The air supply system of claim 6, wherein: the limiting piece (5) is a limiting rod (51) arranged on the second air guide piece (33), and the second air guide piece (34) is provided with a limiting groove (341) for the limiting rod (51) to slide.

8. The utility model provides a fungus room which characterized in that: comprising a bacterial house body (7) and an air supply system according to any one of claims 1-7.

9. A bacterial room according to claim 8 wherein: the air supply pipe (2) is arranged at the middle position in the fungus house body (7).