CN210168586U - Greenhouse film pressing rope ground buckle device suitable for loose soil - Google Patents

Abstract

The utility model discloses a big-arch shelter pressure membrane rope knot device suitable for loose soil property, including going into the ground pole, it has the round platform to go into the welding of ground pole top, is connected with the becket bridle on the round platform, goes into to have ground to rivet in the welding of the below annular array of round platform on the ground pole, and the lower extreme annular array welding of going into the ground pole has the barb. The fixing of film pressing ropes of a greenhouse often needs a ground buckling device, and the prior art often uses ground piles, even simply ties the film pressing ropes on bricks and buries the bricks into the ground. However, in regions with loose soil, whether ground piles or bricks are used for fixing the film pressing ropes, the firm effect is difficult to achieve, and particularly, the heavy rain weather is difficult to deal with. The utility model aims at above problem, a big-arch shelter press mold rope knot device suitable for loose soil texture is provided, squeezes into darker ground more easily in, has better promptly the effect to the soil simultaneously, fixed press mold rope that can be more stable, and the erection joint of very convenient press mold rope.

Description

Greenhouse film pressing rope ground buckle device suitable for loose soil

Technical Field

The utility model relates to an agricultural greenhouse technical field especially relates to a big-arch shelter press mold rope ground knot device suitable for loose soil property.

Background

The application of the greenhouse in the field of agricultural production is very wide, and the greenhouse is required to be established in various soil environments in different regions. The film pressing rope is used for pressing and shaping the film covered on the surface of the greenhouse framework to play roles of protecting the film, fixing and clamping the film, preventing wind and rain and the like. The fixing of film pressing ropes of a greenhouse often needs a ground buckling device, and the prior art often uses ground piles, even simply ties the film pressing ropes on bricks and buries the bricks into the ground.

However, in regions with loose soil, no matter the ground piles or the brick fixing film pressing ropes are used, the firm effect is difficult to achieve, particularly in the case of rainstorm, soil layers on the surface of a common ground buckle device are washed away under the washing of wind and rain, so that the ground buckle is loosened, even the ground buckle is easy to displace, and the ground buckle can cause great damage to the greenhouse, such as deformation, collapse and the like, and great loss is brought to producers and workers.

SUMMERY OF THE UTILITY MODEL

The utility model aims at above problem, a big-arch shelter press mold rope knot device suitable for loose soil texture is provided, squeezes into darker ground more easily in, has better promptly the effect to the soil simultaneously, fixed press mold rope that can be more stable, and the erection joint of very convenient press mold rope.

In order to realize the above purpose, the utility model adopts the technical scheme that:

a greenhouse film pressing rope ground buckle device suitable for loosening soil comprises a ground rod, wherein the ground rod is of a telescopic structure and is divided into an upper ground rod and a lower ground rod, a round table is welded at the top of the upper ground rod, a rope ring is installed on the round table, an upper fixing sleeve is welded at the position, below the round table, of the upper ground rod, a plurality of ground rivets are hinged to the upper fixing sleeve in an annular array mode, the ground rivets are connected with upper supporting rods through first screws, the lower ends of the upper supporting rods are hinged to upper sliding sleeves, the upper sliding sleeves are sleeved on the upper ground rod and located below the upper fixing sleeves, and upper springs are arranged between the upper sliding sleeves and the upper fixing sleeves; the tail end of the ground rod is of a pointed structure, a lower fixing sleeve is welded at the tail of the ground rod, a plurality of barbs are hinged to the lower fixing sleeve in an annular array mode, a lower supporting rod is connected to the barbs through second screws, the lower end of the lower supporting rod is hinged to the lower sliding sleeve, the lower sliding sleeve is sleeved on the ground rod and located above the lower fixing sleeve, and a lower spring is arranged between the lower sliding sleeve and the lower fixing sleeve.

Further, it has a round hole to go up to open on the pole of going into ground, install the spring buckle on the pole of going into ground down, and go up the internal diameter that goes into the pole of ground is greater than the external diameter of pole of going into ground down, goes up to go into ground pole cover and can slide on the pole of going into ground down, goes into the pole of ground when going into ground down to furthest apart that the spring buckle gets into and carries out the screens fixed in the round hole of pole of going into ground.

Furthermore, a plurality of grooves are formed in the upper fixing sleeve and the lower fixing sleeve in an annular array mode, holes are formed in the end portions of the ground rivet and the barb, the first circular ring and the second circular ring penetrate through the holes in the end portions of the ground rivet and the barb respectively, and then the first circular ring and the second circular ring are welded on the upper fixing sleeve and the lower fixing sleeve respectively.

1. Furthermore, it has a plurality of recesses to go up the equal annular array on sliding sleeve and the lower sliding sleeve, the tip of going up bracing piece and lower support bar all opens porosely, and third ring and fourth ring pass the hole of going up bracing piece and lower support bar tip respectively, then weld respectively on last bracing piece and lower support bar.

Further, go up and install spring buckle and lower spring buckle on going into the ground pole and going into the ground pole down respectively, and go up spring buckle and lower spring buckle and be hemispherical structure.

Furthermore, a through hole is formed in the side face of the circular truncated cone.

Furthermore, the rope ring is a semicircular ring made of steel materials and is arranged in the through hole of the circular table.

Further, the length of the ground entering rod is more than 50 cm when the ground entering rod is stretched to the longest position.

Further, the number of the barbs and the ground rivets is more than 8.

Furthermore, the barb is a straight rod made of steel materials, the ground rivet (3) is a round rod made of steel materials and is divided into two sections, and an included angle of 120-140 degrees is formed between the upper section and the lower section.

The utility model has the advantages that:

1. through the longest length design more than 50 centimetres after drawing the pole that goes into ground, and weld the round platform in pole upper end that goes into ground, can squeeze into the pole that goes into ground more deeply more easily, squeeze into more deeply than ordinary ground stake, can play more firm effect.

2. Through set up barb and ground on going into the ground pole and rivet, the grip of the knot device of reinforcement ground that can be very big for go into the better combination of ground pole and the ground of surrounding certain within range, the knot device of preventing that can be fine takes place the displacement, has also improved the ability of reply stormy weather.

3. By designing the ground rod into a telescopic structure, the ground rod can be compressed during transportation and storage, thereby saving space and facilitating carrying. Meanwhile, the ground rivet and the barb are designed into a structure capable of being contracted and expanded, so that the volume of the device is further reduced during transportation and carrying, and the ground buckle is convenient to transport and install by workers.

4. The rope ring is designed into a rotatable structure, so that the film pressing rope is convenient to connect, the ground penetrating rod is convenient to be driven into deeper ground when the ground buckling device is installed for the first time, and the pull ring is also used when the ground buckling device is finally required to be taken.

Therefore, the utility model provides a big-arch shelter press mold rope buckle device suitable for loose soil property squeezes into darker ground more easily, has stronger effect of grasping to the soil simultaneously, and the steadiness of buckle device has been strengthened to the many-sided, and the fixed press mold rope of hookup that can be more stable, and can make things convenient for the erection joint of press mold rope and buckle device's installation and take out very much.

Drawings

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

Fig. 2 is an installation schematic diagram of the upper and lower spring buckles of the present invention.

Fig. 3 is a schematic view of the front view of the present invention.

Fig. 4 is a schematic structural view of the rope ring of the present invention.

Fig. 5 is an installation schematic diagram of the spring clip of the present invention.

The text labels in the figures are represented as: 1. a circular truncated cone; 2. a rope loop; 3. ground riveting; 4. a ground rod; 401. a ground rod is arranged; 402. a ground rod is put in; 5. a barb; 6. a spring buckle; 7. an upper support rod; 8. an upper spring buckle; 9. a lower spring buckle; 10. a lower support bar; 11. a first circular ring; 12. fixing a sleeve; 13. a first screw; 14. an upper sliding sleeve; 15. a lower sliding sleeve; 16. a second screw; 17. a second circular ring; 18. a lower fixing sleeve; 19. a third circular ring; 20. a fourth ring 21, an upper spring; 22 lower spring.

Detailed Description

In order to make the technical solution of the present invention better understood, the present invention is described in detail below with reference to the accompanying drawings, and the description of the present invention is only exemplary and explanatory, and should not be construed as limiting the scope of the present invention.

Please refer to fig. 1, which is a schematic structural diagram of a preferred embodiment of a film pressing rope buckle device for a loose soil greenhouse according to the present invention.

The greenhouse film pressing rope ground buckle device suitable for loosening soil comprises a ground entering rod 4, wherein the ground entering rod 4 is of a telescopic structure and is divided into an upper ground entering rod 401 and a lower ground entering rod 402, a circular table 1 is welded at the top of the upper ground entering rod 401, a rope ring 2 is installed on the circular table 1, an upper fixing sleeve 12 is welded at the position, below the circular table 1, of the upper ground entering rod 401, a plurality of ground rivets 3 are annularly hinged to the upper fixing sleeve 12 in an array mode, an upper supporting rod 7 is connected to each ground rivet 3 through a first screw 13, the lower end of each upper supporting rod 7 is hinged to an upper sliding sleeve 14, the upper sliding sleeve 14 is sleeved on the upper ground entering rod 401 and located below the upper fixing sleeve 12, and an upper spring 21 is arranged between the upper sliding sleeve 14 and the upper fixing sleeve 12; the tail end of the ground rod 402 is of a pointed structure, a lower fixing sleeve 18 is welded at the tail of the ground rod, a plurality of barbs 5 are hinged on the lower fixing sleeve 18 in an annular array mode, a lower support rod 10 is connected to the barbs 5 through a second screw 16, the lower end of the lower support rod 10 is hinged to a lower sliding sleeve 15, the lower sliding sleeve 15 is sleeved on the ground rod 402 and located above the lower fixing sleeve 18, and a lower spring 22 is arranged between the lower sliding sleeve 15 and the lower fixing sleeve 18.

Preferably, please refer to fig. 2 and 3, it has a round hole to open on the pole 401 of going into ground, install spring buckle 6 on the pole 402 of going into ground down, and the inner diameter of the pole 401 of going into ground on is greater than the external diameter of the pole 402 of going into ground down, go into the pole 401 cover of ground on the pole 402 of going into ground down and can slide, go into the pole 401 of ground down when going into ground down to the farthest distance spring buckle 6 gets into and goes into the round hole of pole 401 of going into ground and carry out the screens fixed, so realize the telescopic structure design of pole 4 of going into ground to compress when transportation and storage, save space and convenient transport.

Preferably, as shown in fig. 3, a plurality of grooves are formed in an annular array on each of the upper fixing sleeve 12 and the lower fixing sleeve 18, holes are formed at the ends of the ground rivet 3 and the barb 5, and the first circular ring 11 and the second circular ring 17 respectively penetrate through the holes at the ends of the ground rivet 3 and the barb 5 and are then welded to the upper fixing sleeve 12 and the lower fixing sleeve 18, so that the ground rivet 3 and the barb 5 are hingedly connected to the upper fixing sleeve 12 and the lower fixing sleeve 18.

Preferably, as shown in fig. 3, a plurality of grooves are formed in the upper sliding sleeve 14 and the lower sliding sleeve 15 in an annular array, holes are formed in the end portions of the upper supporting rod 7 and the lower supporting rod 10, and the third circular ring 19 and the fourth circular ring 20 respectively penetrate through the holes in the end portions of the upper supporting rod 7 and the lower supporting rod 10 and are then welded to the upper supporting rod 7 and the lower supporting rod 10, so that the upper supporting rod 7 and the lower supporting rod 10 are hinged to the upper sliding sleeve 14 and the lower sliding sleeve 15.

Preferably, as shown in fig. 4, an upper spring catch 8 and a lower spring catch 9 are respectively mounted on the ground ascending rod 401 and the ground descending rod 402, and both the upper spring catch 8 and the lower spring catch 9 are of a hemispherical structure.

Preferably, as shown in fig. 1, a through hole is formed in a side surface of the circular truncated cone 1.

Preferably, as shown in fig. 3, the rope ring 2 is a semicircular ring made of steel material and is installed in the through hole of the circular table 1, so that the film pressing rope can be conveniently connected, the ground engaging rod 4 can be conveniently driven into the deeper ground when the ground engaging device is initially installed, and the pull ring can be used when the ground engaging device is finally taken out.

Preferably, as shown in fig. 1 and 2, the length of the ground rod 4 is more than 50 cm when the ground rod is stretched to the longest position, so as to form a more stable ground buckle by penetrating into the ground.

Preferably, as shown in fig. 1, the number of the barbs 5 and the ground rivets 3 is more than 8, so that stronger grip can be formed.

Preferably, as shown in fig. 1 and 2, the barb 5 is a straight rod made of a steel material, and the ground rivet 3 is a round rod made of a steel material, and is divided into two sections, and an included angle of 120-140 degrees is formed between the upper section and the lower section.

The utility model discloses before the installation, can also shorten length to the compression of going into ground pole 4 on earth, rivet 3 and barb 5 through removing upper sliding sleeve 14 and gliding cover 15 all can tighten up in order to save space, convenient transportation and transport ground. When the device needs to be installed on site, the ground entering rod 4 is stretched and limited through the spring buckle 6, so that the ground entering rod 4 is fixed to the longest length; the ground rivet 3 can be unfolded by moving the upper sliding sleeve 14 and clamping the upper sliding sleeve through the upper spring buckle 8, the barb 5 can be unfolded by moving the lower sliding sleeve 15 and clamping the lower sliding sleeve through the lower spring buckle 9, and then the local buckling device can be deeply driven into the ground, and the film pressing rope is tied on the rope ring 2, so that the effect of stably compressing the greenhouse can be achieved.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention have been explained herein using specific examples, which are presented only to assist in understanding the methods and their core concepts. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the above technical features can be combined in a proper manner; these modifications, variations or combinations, or direct applications of the concepts and solutions of the present invention to other applications without further modifications, are intended to be included within the scope of the present invention.

Claims (10)

1. The greenhouse film pressing rope ground buckle device suitable for loose soil is characterized by comprising a ground entering rod (4), wherein the ground entering rod (4) is of a telescopic structure, the ground penetrating rod is divided into an upper ground penetrating rod (401) and a lower ground penetrating rod (402), a circular truncated cone (1) is welded at the top of the upper ground penetrating rod (401), a rope ring (2) is installed on the circular truncated cone (1), an upper fixing sleeve (12) is welded at the position, below the circular truncated cone (1), of the upper ground penetrating rod (401), a plurality of ground rivets (3) are hinged to the upper fixing sleeve (12) in an annular array mode, an upper supporting rod (7) is connected to each ground rivet (3) through a first screw (13), the lower end of the upper supporting rod (7) is hinged to an upper sliding sleeve (14), the upper sliding sleeve (14) is sleeved on the upper ground penetrating rod (401) and located below the upper fixing sleeve (12), and an upper spring (21) is arranged between the upper sliding sleeve (14) and the upper fixing; the tail end of the ground rod (402) is of a pointed structure, the tail of the ground rod is welded with a lower fixing sleeve (18), the lower fixing sleeve (18) is hinged with a plurality of barbs (5) in an annular array mode, the barbs (5) are connected with a lower supporting rod (10) through second screws (16), the lower end of the lower supporting rod (10) is hinged to a lower sliding sleeve (15), the lower sliding sleeve (15) is sleeved on the ground rod (402) and located above the lower fixing sleeve (18), and a lower spring (22) is arranged between the lower sliding sleeve (15) and the lower fixing sleeve (18).

2. The greenhouse film pressing rope ground buckling device suitable for loose soil according to claim 1, wherein a round hole is formed in the ground entering rod (401), the ground entering rod (402) is provided with a spring buckle (6), the inner diameter of the ground entering rod (401) is larger than the outer diameter of the ground entering rod (402), the ground entering rod (401) is sleeved on the ground entering rod (402) and can slide, and the spring buckle (6) enters the round hole of the ground entering rod (401) to be clamped and fixed when the ground entering rod (401) slides upwards to the farthest distance.

3. The greenhouse film pressing rope ground buckle device suitable for loose soil as claimed in claim 1, wherein the upper fixing sleeve (12) and the lower fixing sleeve (18) are provided with a plurality of grooves in an annular array, the ends of the ground rivet (3) and the barb (5) are provided with holes, and the first circular ring (11) and the second circular ring (17) respectively penetrate through the holes at the ends of the ground rivet (3) and the barb (5) and are then respectively welded on the upper fixing sleeve (12) and the lower fixing sleeve (18).

4. The greenhouse film pressing rope ground buckle device suitable for loose soil according to claim 1, wherein the upper sliding sleeve (14) and the lower sliding sleeve (15) are provided with a plurality of grooves in an annular array, the ends of the upper supporting rod (7) and the lower supporting rod (10) are provided with holes, and the third circular ring (19) and the fourth circular ring (20) respectively penetrate through the holes at the ends of the upper supporting rod (7) and the lower supporting rod (10) and are welded on the upper supporting rod (7) and the lower supporting rod (10) respectively.

5. The greenhouse film pressing rope ground buckle device suitable for loose soil according to claim 1, wherein an upper spring buckle (8) and a lower spring buckle (9) are respectively installed on the ground ascending rod (401) and the ground descending rod (402), and the upper spring buckle (8) and the lower spring buckle (9) are both of a hemispherical structure.

6. The greenhouse film pressing rope buckling device suitable for loose soil according to claim 1, wherein a through hole is formed in the side surface of the circular table (1).

7. The greenhouse film pressing rope buckling device suitable for loose soil according to any one of claims 1 or 2, wherein the rope loop (2) is a semicircular ring made of steel materials and is installed in the through hole of the circular table (1).

8. A greenhouse film pressing rope ground buckle device suitable for loose soil according to claim 1, wherein the length of the ground rod (4) when stretched to the longest position is more than 50 cm.

9. The greenhouse film pressing rope ground buckle device suitable for loose soil according to claim 1, wherein the number of the barbs (5) and the ground rivets (3) is more than 8.

10. The greenhouse film pressing rope ground buckle device suitable for loose soil as claimed in claim 1, wherein the barb (5) is a straight rod made of steel material, the ground rivet (3) is a round rod made of steel material, and the ground rivet is divided into two sections, and an included angle of 120-140 degrees is formed between the upper section and the lower section.

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