CN219877170U - Henhouse air guide device - Google Patents

Abstract

The utility model provides a chicken house air guide device, which comprises a plurality of air guide assemblies and an opening driving rope arranged below the air guide assemblies, wherein the air guide assemblies comprise a mounting frame and an air guide plate, the mounting frame is provided with a mounting cavity, the air guide plate is hinged in the mounting cavity, and a connecting ring is arranged on the inner wall of the air guide plate and connected with the opening driving rope through an auxiliary rope; the upper part of the air deflector is bent and extended to the outer side of the henhouse to form an upper bent part, and the lower part of the air deflector is provided with a weight strip. According to the henhouse air guide device provided by the utility model, the air guide plates are hinged in the mounting cavity, under the action of the lower weight bar, the air guide plates are in a closed state, when the air guide plates are opened, the driving ropes drive the auxiliary ropes to horizontally move, the air guide plates rotate around the hinge shafts under the action of the pull-down of the auxiliary ropes, so that the air guide plates can vertically swing to the upper openings to be opened, and the mounting cavities are in an inner-outer through state.

Description

Henhouse air guide device

Technical Field

The utility model belongs to the technical field of henhouse air supply, and particularly relates to a henhouse air guide device.

Background

With the development of the breeding industry, the number of chicken farms is increased to a certain extent, and sufficient egg and chicken products are provided for daily life of people. The existing henhouse adopts openable small windows in the ventilation process, but the small windows need to be opened and closed one by one, the opening and closing process is relatively complicated, the opening and closing actions need to be driven by power elements, and energy sources are wasted. Meanwhile, the small window is opened, and external air flow is directly and horizontally blown into the henhouse, so that direct impact is caused on the chicken flock, and especially in low-temperature seasons, the chicken flock is easy to induce diseases due to the entry of cold air, so that the whole health of the chicken flock is not facilitated.

Disclosure of Invention

The utility model aims to provide a chicken house air guide device which simplifies the overall structure of an air guide assembly, avoids direct impact of air flow on chicken flocks and ensures the overall health of the chicken flocks.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a chicken coop wind-guiding device, including a plurality of along the trend interval of chicken coop arrange, and inlay the wind guiding subassembly on the chicken coop side wall respectively and set up in wind guiding subassembly below, and be used for driving the opening drive rope that wind guiding subassembly opened, wind guiding subassembly includes:

the middle part of the installation frame is provided with an installation cavity which is internally and externally communicated, and the two sides of the installation frame are respectively provided with a connecting lug connected with the inner wall of the henhouse side wall;

the air deflector is hinged in the mounting cavity and used for opening or plugging the mounting cavity, two sides of the air deflector are respectively provided with a hinge shaft which extends horizontally outwards and is rotationally connected with the mounting frame, the inner wall of the air deflector is provided with a connecting ring, and the connecting ring is connected with the opening driving rope through an auxiliary rope;

the hinge shaft is positioned at the lower part of the air deflector, the upper part of the air deflector is bent and extended to the outer side of the henhouse to form an upper bent part, and the lower edge of the air deflector is provided with a weight bar for enabling the air deflector to vertically swing around the hinge shaft to seal the mounting cavity.

In one possible implementation manner, a guide ring which corresponds to the connecting ring up and down to guide the auxiliary rope is arranged on the side wall of the mounting frame, the penetrating direction of the guide ring forms an acute angle with the horizontal plane, one end of the auxiliary rope is fixed on the guide ring, and the other end of the auxiliary rope sequentially penetrates through the connecting ring and the guide ring and is connected with the opening driving rope.

In one possible implementation manner, the side portion of the mounting frame is further provided with a limiting ring penetrating horizontally, and the limiting ring is used for being sleeved on the periphery of the opening driving rope to limit the trend of the opening driving rope.

In some embodiments, the upper edge of the air deflector is provided with an upper sealing strip which is in fit sealing with the inner top wall of the installation cavity, the lower edge of the air deflector is provided with a lower sealing strip which is in fit sealing with the inner bottom wall of the installation cavity, and the lower sealing strip is positioned below the weight bar.

In some embodiments, side baffles corresponding to the two side edges of the air deflector are respectively arranged at the two side edges of the upper bending part, and side sealing strips which are attached and sealed with the inner side walls of the installation cavity are embedded on the outer side walls of the side baffles.

In one possible implementation manner, a plurality of locking assemblies for fixing the auxiliary ropes are arranged on the opening driving rope at intervals, and the locking assemblies comprise:

the locking sleeve is provided with an axially extending sliding cavity and a radially penetrating through hole, and the opening driving rope and the auxiliary rope are arranged in the through hole in a penetrating manner;

the compression column is connected in the locking sleeve in a sliding manner along the axial direction of the locking sleeve, and a radial hole which is used for being corresponding to the through hole and allowing the opening driving rope and the auxiliary rope to pass through is formed in the compression column;

the elastic piece is arranged in the locking sleeve, one end of the elastic piece is connected to the bottom wall of the sliding cavity, the other end of the elastic piece is connected to the inner end of the compression column, and the elastic piece is used for elastically pushing the compression column outwards so as to lock the opening driving rope and the auxiliary rope in the through hole.

In some embodiments, the henhouse wind guiding device further comprises a supporting wheel connected to the inner wall of the henhouse side wall and extending towards the interior of the henhouse, one end of the opening driving rope is wound on the supporting wheel and connected with a balancing weight, and the other end of the opening driving rope is connected with a push rod motor for horizontally pulling the opening driving rope.

In one possible implementation mode, the top of the installation frame is provided with a shielding cover extending towards the interior of the henhouse, and two sides of the installation frame are respectively provided with a light shielding plate arranged close to the shielding cover, and the plate surface of the light shielding plate extends vertically.

In one possible implementation, the weight bars are arranged on the outer side wall of the air deflector in the horizontal direction, and the cross section of the weight bars is triangular.

In one possible implementation, a shielding grid is further arranged on the outer side of the mounting frame, and the shielding grid is provided with criss-cross barrier bars.

Compared with the prior art, the scheme provided by the embodiment of the utility model has the advantages that the opening driving rope drives the plurality of air guide assemblies to be synchronously opened, the installation frame is embedded on the side wall of the chicken coop, the air guide plate is hinged in the installation cavity, under the action of the lower weight bar, the air guide plate is in a closed state, when the air guide plate is opened, the driving rope drives the auxiliary rope to horizontally move, the air guide plate rotates around the hinge shaft of the auxiliary rope under the action of the pull-down of the auxiliary rope, the plurality of air guide plates can vertically swing to the upper opening to further enable the plurality of installation cavities to be in an inner-outer through state, and outdoor air can enter the chicken coop.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a front view structure of a use state of a henhouse air guiding device according to an embodiment of the present utility model;

FIG. 2 is a schematic view showing a closed state of the air guiding device of the henhouse in FIG. 1 according to an embodiment of the present utility model;

FIG. 3 is a schematic diagram showing a front view of the air guiding device of the henhouse of FIG. 1 according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a left-hand cross-sectional structure of FIG. 2 according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a partial enlarged structure of I in FIG. 4 according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram illustrating a left-hand structure of FIG. 3 according to an embodiment of the present utility model;

FIG. 7 is a schematic cross-sectional view of the locking assembly of FIG. 2 in accordance with an embodiment of the present utility model.

Wherein, each reference sign in the figure:

1. an air guide assembly; 2. a mounting frame; 21. a connecting lug; 23. a guide ring; 24. a limiting ring; 25. a shielding cover; 26. a light shielding plate; 3. an air deflector; 31. an auxiliary rope; 32. a lower bent portion; 33. a weight bar; 34. side baffles; 35. a kick portion; 36. a sealing strip is arranged; 37. a lower sealing strip; 38. a side seal strip; 39. a connecting ring; 4. opening a driving rope; 41. a support wheel; 42. balancing weight; 43. a push rod motor; 5. a locking assembly; 51. a locking sleeve; 511. a sliding cavity; 512. a through hole; 52. a compression column; 521. a radial hole; 53. an elastic member; 6. a shielding grille; 7. chicken house side wall.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or be indirectly on the other element. It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present utility model. The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a number" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 7, the henhouse air guiding device provided by the utility model will be described. The henhouse air guide device comprises a plurality of air guide assemblies 1 which are distributed at intervals along the trend of the henhouse and are respectively embedded on a henhouse side wall 7, and an opening driving rope 4 which is arranged below the air guide assemblies 1 and is used for driving the air guide assemblies 1 to be opened, wherein the air guide assemblies 1 comprise mounting frames 2 and air deflectors 3, the middle parts of the mounting frames 2 are provided with mounting cavities which are internally and externally communicated, and two sides of the mounting frames 2 are respectively provided with connecting lugs 21 which are connected with the inner wall of the henhouse side wall 7; the air deflector 3 is hinged in the installation cavity and used for opening or plugging the installation cavity, two sides of the air deflector 3 are respectively provided with a hinge shaft which extends horizontally outwards and is rotationally connected with the installation frame 2, the inner wall of the air deflector 3 is provided with a connecting ring 39, and the connecting ring 39 is connected with the opening driving rope 4 through an auxiliary rope 31;

the hinge shaft is located at the lower portion of the air deflector 3, the upper portion of the air deflector 3 bends and extends to the outer side of the henhouse to form an upper bending portion 35, and a weight bar 33 used for enabling the air deflector 3 to vertically swing around the hinge shaft to seal the installation cavity is arranged at the lower edge of the air deflector 3.

Compared with the prior art, the henhouse air guide device provided by the embodiment has the advantages that the driving rope 4 is opened to drive the plurality of air guide assemblies 1 to be opened synchronously, the mounting frame 2 is embedded on the henhouse side wall 7, the air guide plate 3 is hinged in the mounting cavity, under the action of the lower weight bar 33, the air guide plate 3 is in a closed state, when the air guide plate 3 is opened, the driving rope 4 is opened to drive the auxiliary rope 31 to move horizontally, the air guide plate 3 rotates around the hinge shaft under the action of the pull-down of the auxiliary rope 31, the plurality of air guide plates 3 can swing vertically to the upper opening to be opened, the mounting cavities are in an inner-outer through state, outdoor air can enter the henhouse, the structure can realize effective ventilation in the henhouse, ventilation efficiency is improved, and ventilation operation is simplified.

On the basis of the structure, the lower part of the air deflector 3 gradually extends to the outside of the henhouse in an inclined mode to form a lower bent part 32, and the arrangement of the lower bent part 32 not only enhances the weight effect of the weight bar 33, but also provides an avoidance space for the vertical swing of the air deflector 3, and is convenient for guaranteeing the ventilation effect.

In one possible implementation, referring to fig. 2 to 3, a guide ring 23 corresponding to the connection ring 39 up and down is provided on the side wall of the mounting frame 2 to guide the auxiliary rope 31, the penetrating direction of the guide ring 23 forms an acute angle with the horizontal plane, one end of the auxiliary rope 31 is fixed on the guide ring 23, and the other end sequentially penetrates through the connection ring 39 and the guide ring 23 and is connected with the opening driving rope 4.

In this embodiment, the installation frame 2 is provided with the guide ring 23 on the side close to the interior of the henhouse, which can effectively guide the auxiliary rope 31, the penetrating direction of the guide ring 23 forms an acute angle with the horizontal direction of 30-50 °, and the axis of the guide ring 23 is inclined to the auxiliary rope 31 to one side upwards, so that the auxiliary rope 31 can be led out from the guide ring 23 and connected to the lifting rope.

Specifically, the end of the auxiliary rope 31 is first fixed to the guide ring 23, then the auxiliary rope 31 extends upward, penetrates the connection ring 39, then extends downward, and finally penetrates the guide ring 23 and is connected to the opening driving rope 4. When the driving rope 4 is opened to horizontally move, the lower end of the auxiliary rope 31 can be driven to horizontally move, so that the upper part of the auxiliary rope 31 drives the connecting ring 39 to move downwards, and finally, the vertical overturning of the air guiding plate is realized, and the upper part of the air guiding plate is opened to form an opening.

On the basis of the above structure, referring to fig. 2 to 3, the side portion of the mounting frame 2 is further provided with a horizontally penetrating limiting ring 24, and the limiting ring 24 is used for being sleeved on the periphery of the opening driving rope 4 to limit the trend of the opening driving rope 4.

In this embodiment, the side of the installation frame 2, which is close to the henhouse, is further provided with the limiting ring 24, and the limiting ring 24 integrally limits the opening driving rope 4, so that the opening driving rope 4 is prevented from falling down due to the action of gravity, the opening driving rope 4 tends to be in a horizontal state, and the pulling action on the auxiliary rope 31 is ensured.

In some embodiments, referring to fig. 3, the upper edge of the air deflector 3 is provided with an upper sealing strip 36 which is in fit sealing with the inner top wall of the installation cavity, the lower edge of the air deflector 3 is provided with a lower sealing strip 37 which is in fit sealing with the inner bottom wall of the installation cavity, and the lower sealing strip 37 is located below the weight strip 33. The upper edge of the air deflector 3 is provided with an upper sealing strip 36, the lower edge is provided with a lower sealing strip 37, and gaps between the upper side edge and the lower side edge of the air deflector 3 and the mounting frame 2 can be effectively blocked, so that the sealing performance of the air deflector 3 in a closed state is improved. The lower sealing strip 37 is positioned below the weight strip 33, so that the self weight effect of the weight strip 33 is not affected, the air deflector 3 is stably in a blocking state when not acted by the opening driving rope 4, and the sealing performance is met.

In some embodiments, referring to fig. 3, two side edges of the upturned portion 35 are respectively provided with side baffles 34 extending to two side edges of the air deflector 3, and a side sealing strip 38 which is fit with and sealed with the inner side wall of the installation cavity is embedded on the outer side wall of the side baffles 34.

In this embodiment, the side baffles 34 that cover 25 both sides set up can shelter from the both sides edge position of aviation baffle 3, and when the outside weather that appears of chicken coop, in order to avoid the rain and snow to receive wind-force to influence in entering the chicken coop, the side baffles 34 can shelter from the clearance between the induced air board of open state and the inner wall of installing frame 2, avoid the wind and snow directly to get into the chicken coop and cause the impact to the chicken coop internal environment.

In one possible implementation, referring to fig. 2, 3 and 7, a plurality of locking assemblies 5 for fixing the auxiliary ropes 31 are arranged on the opening driving rope 4 at intervals, the locking assemblies 5 comprise a locking sleeve 51, a compression column 52 and an elastic piece 53, the locking sleeve 51 is provided with an axially extending sliding cavity 511 and a radially penetrating through hole 512, and the opening driving rope 4 and the auxiliary ropes 31 are penetrated in the through hole 512; the compression column 52 is slidably connected in the locking sleeve 51 along the axial direction of the locking sleeve 51, and a radial hole 521 for passing through the opening driving rope 4 and the auxiliary rope 31 is formed in the compression column 52 and corresponds to the through hole 512; the elastic member 53 is disposed in the locking sleeve 51, one end of the elastic member 53 is connected to the bottom wall of the sliding cavity 511, and the other end is connected to the inner end of the compression column 52, and the elastic member 53 is used for elastically pushing the compression column 52 outwards to lock the opening driving rope 4 and the auxiliary rope 31 in the through hole 512.

In the utility model, the auxiliary rope 31 and the opening driving rope 4 are mutually locked by the locking component 5, so that the pulling action of the opening driving rope 4 on the auxiliary rope 31 is realized. The locking sleeve 51 is slidably connected with the compression column 52, the opening driving rope 4 and the auxiliary rope 31 are arranged through the through hole 512 of the locking sleeve 51 and the radial hole 521 of the compression column 52, the compression column 52 is pushed by the elastic piece 53 to enable the compression column 52 to have a trend of moving towards the outer side of the sliding cavity 511, and further relative position dislocation occurs between the through hole 512 and the radial hole 521 in the axial direction of the locking sleeve 51, so that the compression column 52 and the locking sleeve 51 clamp the opening driving rope 4 and the auxiliary rope 31 relatively, and relative position dislocation of the compression column 52 and the auxiliary rope is avoided. When the position of the auxiliary rope 31 needs to be adjusted, the elastic member 53 is contracted by pressing the pressing post 52, and the through hole 512 and the radial hole 521 are aligned with each other, so that the relative positions of the opening driving rope 4 and the auxiliary rope 31 can be adjusted.

In some embodiments, referring to fig. 1, the henhouse wind guiding device further includes a supporting wheel 41 connected to the inner wall of the henhouse side wall 7 and extending towards the interior of the henhouse, one end of the opening driving rope 4 is wound on the supporting wheel 41 and connected with a balancing weight 42, and the other end of the opening driving rope 4 is connected with a push rod motor 43 for horizontally pulling the opening driving rope 4.

In this embodiment, in order to facilitate the pulling and returning of the opening driving rope 4, the two ends of the opening driving rope 4 are respectively provided with a balancing weight 42 and a push rod motor 43, the push rod motor 43 is used for pulling the opening driving rope 4 to achieve the driving effect on the auxiliary rope 31, and the balancing weight 42 is used for returning the opening driving rope 4 to close the air deflector 3, so that the air guiding assembly 1 is in a closed state.

Specifically, be equipped with on the chicken coop side wall 7 to chicken coop inside horizontally extending's supporting wheel 41, open the driving rope 4 from the top of supporting wheel 41 around to the supporting wheel 41 one side below that keeps away from push rod motor 43, the balancing weight 42 is connected in the lower extreme of opening driving rope 4, through the gravity effect to opening driving rope 4, make and open driving rope 4 and auxiliary rope 31 between not having the effect, aviation baffle 3 return under the action of weight strip 33 this moment. When the air deflector 3 needs to be opened, the push rod motor 43 is started, the push rod motor 43 overcomes the gravity action of the balancing weight 42, and the driving rope 4 is started to drive the auxiliary rope 31 to move downwards to the air deflector 3 to be opened.

The push rod motor 43 is also called a linear actuator, and is an electric actuator that converts the rotational motion of a motor into linear reciprocating motion of a push rod.

In one possible implementation, referring to fig. 4 and 6, the top of the mounting frame 2 is provided with a shielding cover 25 extending toward the interior of the henhouse, two sides of the mounting frame 2 are respectively provided with a shielding plate 26 disposed close to the shielding cover 25, and the plate surface of the shielding plate 26 extends vertically.

In this embodiment, the upper portion of the installation frame 2 is provided with a shielding cover 25 and a shielding plate 26 positioned at two sides of the shielding cover, so that light shielding can be performed on the upper portion and two sides of the air deflector 3 when the air deflector 3 is in a closed state, and external light is prevented from affecting the light environment in the henhouse.

In one possible implementation, referring to fig. 2, the weight bar 33 is disposed on the outer sidewall of the air deflector 3 in the horizontal direction, and the weight bar 33 has a triangular cross section. The counterweight strip is integrally formed on the outer side wall of the air deflector 3, the forming mode is simple, and the air deflector 3 can be effectively plugged in the mounting cavity under the traction effect of the opening driving rope 4.

In one possible implementation, referring to fig. 3, the outer side of the mounting frame 2 is further provided with a shielding grid 6, and the shielding grid 6 has criss-cross barrier bars. The shielding grille 6 is used for blocking external birds, insects, sundries and the like from entering the henhouse, and criss-cross barrier strips form a reliable blocking effect, so that adverse effects on the interior of the henhouse are avoided.

The using method comprises the following steps:

under normal conditions, the balancing weight 42 forms a gravity action on the opening driving rope 4, so that no force acts between the opening driving rope 4 and the auxiliary rope 31, and at the moment, the air deflector 3 returns under the action of the weight bar 33 and is blocked in the installation cavity. When the air deflector 3 needs to be opened, the push rod motor 43 is started, the push rod motor 43 is utilized to overcome the gravity effect of the balancing weight 42, the opening driving rope 4 is driven to horizontally move, the air deflector 3 rotates around the hinge shaft under the pull-down effect of the auxiliary rope 31, the air deflector 3 vertically swings to the upper opening to be opened, the inside and outside of the installation cavity are communicated, and outdoor air can enter the henhouse to realize effective ventilation in the henhouse.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The utility model provides a chicken coop wind-guiding device, its characterized in that includes a plurality of along the trend interval of chicken coop arrange, and inlay respectively on the chicken coop side wall wind guide assembly and set up in wind guide assembly below, and be used for driving the opening drive rope that wind guide assembly opened, wind guide assembly includes:

the chicken coop comprises a mounting frame, wherein an inner and outer through mounting cavity is arranged in the middle of the mounting frame, and connecting lugs connected with the inner wall of the chicken coop side wall are respectively arranged on two sides of the mounting frame;

the air deflector is hinged in the mounting cavity and used for opening or blocking the mounting cavity, two sides of the air deflector are respectively provided with a hinge shaft which extends horizontally outwards and is rotationally connected with the mounting frame, the inner wall of the air deflector is provided with a connecting ring, and the connecting ring is connected with the opening driving rope through an auxiliary rope;

the hinged shaft is located at the lower portion of the air deflector, the upper portion of the air deflector bends and extends to the outer side of the henhouse to form an upper bent portion, and the lower edge of the air deflector is provided with a weight bar used for enabling the air deflector to vertically swing around the hinged shaft to seal the installation cavity.

2. The henhouse wind-guiding device of claim 1, wherein a guiding ring which corresponds to the connecting ring vertically and guides the auxiliary rope is arranged on the side wall of the mounting frame, the penetrating direction of the guiding ring forms an acute angle with the horizontal plane, one end of the auxiliary rope is fixed on the guiding ring, and the other end of the auxiliary rope sequentially penetrates through the connecting ring and the guiding ring and is connected with the opening driving rope.

3. The henhouse wind-guiding device of claim 2, wherein the side part of the mounting frame is further provided with a limiting ring penetrating horizontally, and the limiting ring is used for being sleeved on the periphery of the opening driving rope to limit the trend of the opening driving rope.

4. The henhouse air guiding device of claim 1, wherein an upper sealing strip which is in fit sealing with the inner top wall of the installation cavity is arranged at the upper edge of the air guiding plate, a lower sealing strip which is in fit sealing with the inner bottom wall of the installation cavity is arranged at the lower edge of the air guiding plate, and the lower sealing strip is located below the weight pressing strip.

5. The henhouse air guide device of claim 4, wherein side baffles corresponding to the two side edges of the air guide plate are respectively arranged at the two side edges of the upper bending part, and side sealing strips which are attached and sealed with the inner side walls of the installation cavity are embedded on the outer side walls of the side baffles.

6. The henhouse air guiding device of claim 1, wherein a plurality of locking assemblies for fixing the auxiliary ropes are arranged on the opening driving ropes at intervals, and the locking assemblies comprise:

the locking sleeve is provided with an axially extending sliding cavity and a radially penetrating through hole, and the opening driving rope and the auxiliary rope are arranged in the penetrating through hole in a penetrating way;

the compression column is connected in the locking sleeve in a sliding manner along the axial direction of the locking sleeve, and a radial hole which is used for being corresponding to the through hole and allowing the opening driving rope and the auxiliary rope to pass through is formed in the compression column;

the elastic piece is arranged in the locking sleeve, one end of the elastic piece is connected to the bottom wall of the sliding cavity, the other end of the elastic piece is connected to the inner end of the compression column, and the elastic piece is used for elastically pushing the compression column outwards so that the opening driving rope and the auxiliary rope are locked in the through hole.

7. The henhouse wind-guiding device of claim 6, further comprising a supporting wheel connected to the inner wall of the henhouse side wall and extending towards the interior of the henhouse, wherein one end of the opening driving rope is wound on the supporting wheel and connected with a balancing weight, and the other end of the opening driving rope is connected with a push rod motor for horizontally pulling the opening driving rope.

8. The henhouse wind-guiding device of any one of claims 1-7, wherein a shielding cover extending towards the interior of the henhouse is arranged at the top of the mounting frame, light shielding plates arranged close to the shielding cover are respectively arranged on two sides of the mounting frame, and the plate surfaces of the light shielding plates extend vertically.

9. The henhouse wind-guiding device of any one of claims 1-7, wherein the weight bars are horizontally arranged on the outer side wall of the wind guiding plate, and the weight bars are triangular in cross section.

10. The henhouse wind-guiding device of any one of claims 1-7, further comprising a shielding grille on the outer side of the mounting frame, wherein the shielding grille has criss-cross barrier bars.