CN111657016A

CN111657016A - Snow removing and anti-icing agricultural greenhouse

Info

Publication number: CN111657016A
Application number: CN202010575974.8A
Authority: CN
Inventors: 谢芳
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-22
Filing date: 2020-06-22
Publication date: 2020-09-15

Abstract

The invention provides a snow-removing and anti-icing agricultural greenhouse, which comprises a main body frame and a ceiling, wherein the ceiling is erected at the top end of the main body frame through the top of the main body frame so as to plant agricultural plants in the middle inside the main body frame and cover the top end of the main body frame through the ceiling; ceiling bottom middle part supports through supporting component to be connected with the clearance subassembly, clearance subassembly top portion protrusion ceiling surface carries out rotatory gomphosis and connects, this kind of snow removing anti-icing green house is provided with the clearance subassembly, can produce rotatoryly when the frame top descends because snow increases with frozen weight through the drive ring on the clearance subassembly, can drive each ring in the clearance subassembly and reverse ring when the drive ring is rotatory and rotate, the rotation through each ring comes the snow on the top to carry out the application of force to both sides simultaneously, let the snow landing go out.

Description

Snow removing and anti-icing agricultural greenhouse

Technical Field

The invention relates to the technical field of agricultural planting, in particular to an agricultural greenhouse.

Background

Agriculture is an industry for obtaining products by artificial cultivation by utilizing growth and development rules of animals and plants. Agriculture belongs to the first industry, and the science for researching agriculture is agriculture. The agricultural working object is living animals and plants, and the obtained products are the animals and plants. The agricultural greenhouse is planted in the designated greenhouse, then an environment suitable for crop growth is manufactured by controlling the temperature and humidity inside the greenhouse, the agricultural greenhouse is suitable for planting crops which need to be provided for a long time in severe environments, but the top end of the greenhouse can be accumulated with snow and frozen when the existing agricultural greenhouse is used in regions with cold weather and snowfall easily, and the weight of the greenhouse is increased due to accumulated snow and frozen snow, so that the greenhouse is easy to collapse and is damaged when the greenhouse is used.

Disclosure of Invention

The invention aims to solve the technical problem that the greenhouse is easy to collapse and damage due to the fact that accumulated snow and ice on the top end part of the agricultural greenhouse are accumulated in cold weather and in areas prone to snowfall to increase weight and pressure.

The invention discloses a snow-removing and anti-icing agricultural greenhouse, which is achieved by the following specific technical means:

a snow-removing and anti-icing agricultural greenhouse comprises a main body frame and a ceiling, wherein the ceiling is erected at the top end of the main body frame through the top of the main body frame, agricultural plants are planted in the middle of the inside of the main body frame, and the ceiling covers the top end of the main body frame;

the middle part of the bottom end of the ceiling is supported and connected with a cleaning assembly through a supporting assembly, and the top end part of the cleaning assembly protrudes out of the surface of the ceiling to be connected in a rotating embedded mode.

Further preferred embodiments: the main body frame also comprises a frame body;

the telescopic groove is a groove which is formed by connecting the top end of the top part of the frame and the top of the frame in a jogged mode;

the reset spring is a structure which is connected when the frame top is embedded into the telescopic groove.

Further preferred embodiments: the frame top also comprises a frame;

the rotating shaft is embedded in a cylindrical round shaft arranged on one side inside the two sides of the top of the frame, and one side part of the round shaft is arranged on the surfaces of the two sides of the middle of the top of the frame in a protruding mode;

the slotting is a slot which is rectangular at one side of the arc part at the top end of the frame;

the transmission belt is a circulating transmission belt which is embedded in the groove through round shafts on two sides, two end parts of the transmission belt are in contact with a protruding part at the top end of the rotating shaft, and groove marks which are embedded with each other are arranged on the surfaces of the transmission belt and the rotating shaft;

and the transmission groove mark is a groove mark of the surface of the transmission belt facing to one side of the opening of the groove.

Further preferred embodiments: the inner wall of the groove of the telescopic groove is also provided with groove marks which are mutually embedded with the surface of the rotating shaft.

Further preferred embodiments: the cleaning assembly is formed by splicing and combining a plurality of circular rings, and the top end parts of the circular rings are convexly arranged on the top surface of the ceiling.

Further preferred embodiments: the cleaning assembly comprises;

the transmission ring is a groove mark formed by embedding a component consisting of a plurality of circular rings, which is positioned on the surface of one side of the circular rings at two ends and the transmission groove mark;

the embedded groove is a circular groove with smaller diameter at two sides of the cleaning assembly circular ring;

the gear shaft is a circular shaft connected with one side of the middle part of the embedded groove, and a gear-shaped convex block is arranged on the surface of the gear shaft.

The reverse ring is a circular ring with a smaller diameter in the plurality of circular ring arrangement assemblies, two sides of the reverse ring are embedded with the embedding grooves, and the reverse ring and the cleaning assembly circular rings are arranged in a staggered manner;

and the reverse tooth marks are formed by meshing the surfaces on the two sides of the reverse ring with the tooth marks on the peripheral surface of the meshing shaft.

Further preferred embodiments: the top end parts of the circular rings of the cleaning assembly are all arranged in the open grooves on the two sides of the middle part of the ceiling in a penetrating and embedding manner.

Further preferred embodiments: the supporting component comprises;

the bearing plate is a plate arranged in a curved arc shape at the middle part of the bottom end of the supporting assembly, and the curved arc angle of the bearing plate is embedded and attached with the ring of the cleaning assembly;

the sticking groove is a plurality of rectangular grooves on the surface of the bearing plate, and the grooves are uniformly and mutually embedded with the cleaning assembly and the reverse ring in a staggered manner.

Has the advantages that:

(1) this kind of snow removing anti-icing green house is provided with the clearance subassembly, can produce rotatoryly when descending because snow and the weight increase of freezing through the transmission ring on the clearance subassembly at the frame top, can drive each ring in the clearance subassembly and reverse ring when the transmission ring is rotatory, and the in-process that arrives makes its each ring and reverse ring can be to its torsional forces of the crisscross rotation increase of positive and negative direction because reverse ring's antiport, come to carry out the breakage with freezing on surface, come to apply force with the snow on the top to both sides through the rotation of each ring simultaneously, let the snow landing go out.

(2) The device is provided with the rotation axis, can rotate through the groove mark gomphosis at the frame top because pressure drop through the rotation axis, thereby it can let the clearance subassembly begin to operate to drive the drive belt through the rotation of rotation axis and begin to rotate for it can drive its clearance subassembly by oneself and begin to operate when snow and ice to a certain amount on the ceiling.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partial overall structure diagram of the support assembly of the present invention.

Fig. 3 is a schematic view of the overall structure of the frame top of the present invention.

Fig. 4 is an enlarged schematic view of the structure at a in fig. 3 according to the present invention.

Fig. 5 is a schematic view of the overall structure of the telescopic slot of the present invention.

Fig. 6 is a partial overall structure diagram of the ceiling of the present invention.

FIG. 7 is a schematic view of a partial overall cross-sectional structure of a cleaning assembly of the present invention.

In FIGS. 1-7: the roof cleaning device comprises a main body frame 1, a frame top 101, a rotating shaft 1011, a slot 1012, a driving belt 1013, a driving groove trace 1014, a telescopic groove 102, a return spring 103, a roof 2, a cleaning assembly 3, a driving ring 301, a fitting groove 302, a meshing shaft 303, a reverse ring 304, a reverse tooth trace 305, a supporting assembly 4, a bearing plate 401 and a fitting groove 402.

Detailed Description

As shown in figures 1 to 7:

the invention provides a snow-removing and anti-icing agricultural greenhouse, which comprises a main body frame 1 and a ceiling 2, wherein the ceiling 2 is erected at the top end of the main body frame 1 through a frame top 101 of the main body frame to plant agricultural plants in the middle inside the main body frame 1 and cover the top end of the main body frame 2 through the ceiling 2;

the middle part of the bottom end of the ceiling 2 is supported and connected with a cleaning component 3 through a supporting component 4, and the top end part of the cleaning component 3 protrudes out of the surface of the ceiling 2 to be connected in a rotating embedded mode.

Wherein, the main body frame 1 also comprises;

the retractable groove 102 is a groove connecting the top end of the frame top 101 to the frame top 101, and when the surface of the ceiling 2 begins to freeze due to cold, the ceiling 2 will be forced downward due to the weight increase of the ceiling, and the two sides of the frame top 101 will be forced to move along the retractable groove 102.

A return spring 103, wherein the return spring 103 is connected when the frame top 101 is inserted into the telescopic slot 102.

Wherein, the frame top 101 also comprises;

the rotating shaft 1011 is embedded with a cylindrical round shaft arranged on one side of the inner part of the two sides of the frame top 101, and one side part of the round shaft is arranged on the surfaces of the two sides of the middle part of the frame top 101 in a protruding manner; when the two sides of the frame top 101 contract and move towards the telescopic slot 102, the inner rotating shaft 1011 protrudes from one side of the surface and can be attached to the groove mark on the inner wall of the telescopic slot 102 to move, and the rotating shaft 1011 can be driven to rotate when the attached surface moves through the groove marks which are embedded with each other.

The slot 1012 is a slot with a rectangular shape at one side of the arc part at the top end of the frame top 101; when the belt 1013 starts to rotate, the driving groove 1014 on one side of the belt 1013 contacts the driving ring 301 on one side of the cleaning assembly 3 because one side of the slot 1012 is hollow, and when the driving groove contacts the driving ring 301 on one side, the driving ring 301 is driven to rotate.

A transmission belt 1013, the transmission belt 1013 is a circulating transmission belt fitted in the slot 1012 through round shafts at both sides, and both ends of the transmission belt 1013 are in contact with the projecting part at the top end of the rotating shaft 1011, and the surfaces of the two are provided with groove marks fitted with each other; when the rotating shaft 1011 rotates, because the part of the rotating shaft 1011 at the top end is arranged at one end of the middle part of the slot 1012 in a protruding manner, the rotating shaft will be attached to one end surface of the transmission belt 1013 at the middle part of the slot 1012 during rotation, and the transmission belt 1013 will be driven to start rotating when the rotating shaft 1011 rotates through the mutually embedded slot marks on the surfaces.

Drive groove trace 1014. drive groove trace 1014 is the surface of belt 1013 facing the side of the opening in slot 1012.

The inner wall of the groove of the telescopic groove 102 is also provided with a groove mark which is mutually embedded with the surface of the rotating shaft 1011.

Wherein, clearance subassembly 3 is the subassembly that the mutual concatenation combination of a plurality of ring set up, and the top portion protrusion of ring sets up on 2 top surfaces of ceiling.

Wherein, the cleaning component 3 comprises;

the transmission ring 301 is a groove mark formed by embedding a component consisting of a plurality of circular rings, which is positioned on the surface of one side of the circular rings at two ends and the transmission groove mark 1014; when the driving ring 301 rotates, the engaging groove 302 on the other side engages with the reverse ring 304, so that when the cleaning assembly 3 provided with the driving ring 301 starts to rotate, the engaging shaft 303 on the middle side of the engaging groove 302 engages with the reverse tooth mark 305 on the reverse ring 304 to rotate, so as to drive the reverse ring 304 to rotate in the reverse direction.

The embedding groove 302 is a circular groove with smaller diameter at two sides of the circular ring of the cleaning component 3;

the meshing shaft 303 is a circular shaft connected to one side of the middle of the groove of the fitting groove 302, and a gear-shaped projection is disposed on the surface of the meshing shaft 303.

The reverse ring 304, the reverse ring 304 is a circular ring with a smaller diameter in the several circular ring arrangement components, and both sides of the reverse ring 304 are embedded with the embedding groove 302, and the reverse ring 304 and the cleaning component 3 are arranged in a staggered way; and because its clearance subassembly 3's ring and reverse ring 304 are that each ring and reverse ring 304 of staggered arrangement set up can be different direction of rotation and rotate, drive its surperficial snow through its rotation and to one side landing, increase its torsional forces through its different direction of rotation simultaneously and also carry out the destruction of one side with the freezing of surface through its torque force for its surface can not a large amount of icing, rotatory ice cube that also can go out broken to both sides landing simultaneously.

Reverse teeth 305, the reverse teeth 305 are teeth on both side surfaces of the reverse ring 304 and the peripheral surface of the meshing shaft 303.

Wherein, the top end parts of the circular rings of the cleaning component 3 are all arranged in the slots at the two sides of the middle part of the ceiling 2 in a penetrating and embedding way.

Wherein, the supporting component 4 comprises;

the bearing plate 401 is a plate material which is arranged in a curved arc shape in the middle of the bottom end of the supporting assembly 4, and the curved arc angle of the bearing plate 401 is embedded and attached with the ring of the cleaning assembly 3; when the cleaning assembly 3 starts to rotate, the bottom end part of the cleaning assembly 3 is propped against the bearing plate 401 of the supporting assembly 4, and the circular ring which is attached to the cleaning assembly 3 through the arc bending of the bearing plate 401 enables the circular ring to have a supporting point when rotating so as to enable the circular ring to rotate more stably.

The attaching groove 402 is a plurality of rectangular grooves on the surface of the bearing plate 401, the grooves are uniformly embedded with the cleaning component 3 and the reverse ring 304 in a staggered manner, and the attaching groove 402 on the bearing plate 401 is embedded with the grooves formed by the cleaning component 3 and the reverse ring 304 in a staggered manner, so that the cleaning component 3 and the reverse ring 304 can be embedded with the grooves formed by the cleaning component 3 and the reverse ring 304, and the supporting rotation of the attaching groove is not influenced by the fact that the attaching groove is not embedded with the grooves formed by the reverse ring 304.

The working principle is as follows:

the specific use mode and function of this embodiment are that firstly, the material for shielding is laid around the main frame 1 through each support of the main frame 1 to form a greenhouse, then the ceiling 2 is erected through the frame top 101, so that a closed environment is formed inside the greenhouse, then crops are planted in the greenhouse, in some cold and snowy areas, when snow falls and accumulates on the ceiling or when the surface of the ceiling 2 begins to freeze due to cold, the ceiling 2 is pressed downwards due to the increase of the weight of the snow, so that the two sides of the frame top 101 are forced to contract and move along the telescopic slots 102, and when the two sides of the frame top 101 contract and move into the telescopic slots 102, the side of the inner rotating shaft 1011 projecting out of the surface is attached to the slot marks on the inner wall of the telescopic slots 102 to move, and through the slot marks which the two are mutually embedded, when the rotating shaft 1011 rotates, the top end of the rotating shaft 1011 protrudes from one end of the middle of the slot 1012, so that the rotating shaft is attached to one end surface of the transmission belt 1013 in the middle of the slot 1012, when the rotating shaft 1011 rotates, the transmission belt 1013 starts to rotate by the groove mark of the surface which is embedded with each other, when the transmission belt 1013 starts to rotate, the transmission groove mark 1014 on one side of the transmission belt 1013 contacts with the transmission ring 301 on one side of the cleaning component 3 because one side of the slot 1012 is hollow, when the transmission ring 1013 starts to rotate, the transmission ring 301 starts to rotate, when the transmission ring 301 rotates, the embedding groove 302 on the other side of the transmission ring 301 is embedded with the reverse ring 304, when the cleaning component 3 provided with the transmission ring 301 starts to rotate, the meshing shaft 303 on one side of the middle of the embedding groove 302 of the transmission ring 301 and the reverse ring 302 of the cleaning component 3 are embedded with the reverse ring 301 The reverse tooth marks 305 on one side of the ring 304 are engaged and rotated, so that the reverse ring 304 is driven to rotate in the reverse direction, the ring and the reverse ring 304 of the cleaning assembly 3 are arranged in a staggered manner, so that the rings and the reverse ring 304 rotate in different rotating directions, snow on the surface of the cleaning assembly 3 is driven to slide to one side through the rotation of the rings, the torque force of the cleaning assembly is increased through the different rotating directions to damage the ice on the surface of the cleaning assembly so that the surface of the cleaning assembly is not greatly frozen, the broken ice blocks can slide out to two sides through the rotation, finally, the bottom end part of the cleaning assembly 3 is abutted against the bearing plate 401 of the supporting assembly 4 when the cleaning assembly 3 starts to rotate, the circular arc of the bearing plate 401 is bent to be attached to the ring of the cleaning assembly 3, so that the ring has a supporting point to enable the ring to rotate more stably, meanwhile, the fit grooves 402 on the bearing plate 401 are staggered as the cleaning assembly 3 circular ring and the reverse ring 304, so that the grooves formed by the cleaning assembly 3 and the reverse ring 304 can be also embedded, and the support rotation of the cleaning assembly is not influenced by the fact that the cleaning assembly cannot be embedded with the grooves of the reverse ring 304.

Claims

1. A snow-removing and anti-icing agricultural greenhouse comprises a main body frame (1) and a ceiling (2), wherein the ceiling (2) is erected at the top end of the main body frame (1) through a frame top (101) of the main body frame, agricultural plants are planted in the middle of the inside of the main body frame (1), and the ceiling (2) covers the top end of the main body frame, and the snow-removing and anti-icing agricultural greenhouse is characterized in that;

the ceiling cleaning device is characterized in that the middle of the bottom end of the ceiling (2) is supported and connected with a cleaning assembly (3) through a supporting assembly (4), and the top end part of the cleaning assembly (3) protrudes out of the surface of the ceiling (2) to be connected in a rotating embedded mode.

2. The snow-removing and ice-preventing agricultural greenhouse of claim 1, wherein: the main body frame (1) also comprises a frame body;

the telescopic groove (102) is a groove which is connected with the top end of the frame top (101) and is embedded with the frame top (101);

the frame top (101) is embedded in the telescopic groove (102) and connected with the frame top (103), and the reset spring (103) is connected with the frame top (101).

3. The snow-removing and ice-preventing agricultural greenhouse of claim 1, wherein: the frame top (101) also comprises a frame body;

the rotating shaft (1011) is embedded in a cylindrical round shaft arranged on one side of the inner part of the two sides of the frame top (101), and one side part of the round shaft is arranged on the surfaces of the two sides of the middle part of the frame top (101) in a protruding mode;

the groove (1012) is a rectangular groove at one side of the arc part at the top end of the frame top (101);

the transmission belt (1013) is a circulating transmission belt which is embedded in the groove (1012) through round shafts at two sides, two ends of the transmission belt (1013) are in contact with a convex part at the top end of the rotating shaft (1011), and the surfaces of the transmission belt (1013) and the rotating shaft are provided with groove marks which are embedded with each other;

and the transmission groove mark (1014), wherein the transmission groove mark (1014) is the groove mark of the transmission belt (1013) facing to the surface of one side of the opening of the slot (1012).

4. The snow-removing and ice-preventing agricultural greenhouse of claim 1, wherein: the inner wall of the groove of the telescopic groove (102) is also provided with groove marks which are mutually embedded with the surface of the rotating shaft (1011).

5. The snow-removing and ice-preventing agricultural greenhouse of claim 1, wherein: the cleaning assembly (3) is an assembly formed by splicing and combining a plurality of circular rings, and the top end parts of the circular rings are convexly arranged on the top surface of the ceiling (2).

6. The snow-removing and ice-preventing agricultural greenhouse of claim 1, wherein: the cleaning component (3) comprises;

the transmission ring (301) is a groove mark formed by embedding a component consisting of a plurality of circular rings, wherein the surface of one side of each circular ring at two ends of the component is embedded with the transmission groove mark (1014);

the embedding groove (302) is a circular groove with smaller diameter at two sides of the circular ring of the cleaning assembly (3);

the gear shaft (303), the gear shaft (303) is the circular shaft that joggles groove (302) recess middle part one side and connects, and the gear form lug is provided with on the surface of gear shaft (303).

The reverse ring (304) is a ring with a smaller diameter in the plurality of ring-arranged components, two sides of the reverse ring (304) are embedded with the embedding groove (302), and the reverse ring (304) and the cleaning component (3) are arranged in a staggered mode;

and the reverse tooth marks (305) are formed by meshing the two side surfaces of the reverse ring (304) with the tooth marks on the peripheral surface of the meshing shaft (303).

7. The snow-removing and ice-preventing agricultural greenhouse of claim 1, wherein: the top end parts of the circular rings of the cleaning component (3) are all arranged in the open grooves at the two sides of the middle part of the ceiling (2) in a penetrating and embedding way.

8. The snow-removing and ice-preventing agricultural greenhouse of claim 1, wherein: the supporting component (4) comprises;

the bearing plate (401) is a plate arranged in a curved arc shape in the middle of the bottom end of the supporting assembly (4), and the curved arc angle of the bearing plate (401) is embedded and attached with the ring of the cleaning assembly (3);

the adhering groove (402) is formed by a plurality of rectangular grooves on the surface of the bearing plate (401), and the grooves are uniformly and mutually embedded with the cleaning assembly (3) and the reverse ring (304) in a staggered mode.