TWM585482U - Greenhouse assembly structure - Google Patents

Abstract

This creative department provides a greenhouse assembly structure, especially designed for the construction of greenhouse frameworks with curved surfaces such as round or dome. It mainly uses various types of crosses, single characters, ㄒ characters, and three axes ‧‧‧ The pipe joint is used as the connection and connection of the skeleton rod to form a complete greenhouse skeleton. The pipe joint includes a base portion and at least two sleeve intubation portions extending from the base portion in each direction. The sleeve intubation part extends at a predetermined angle with the base, and the angle of the sleeve intubation part must be set at different angles according to the size of the greenhouse that it wants to build. Each set of pipe joints of the pipe joint can use its oblique angle to form a round, dome or spherical curved greenhouse structure, which breaks through the limitation of the existing greenhouse that can only be built in a rectangular shape, giving more Flexible industry uses value.

Description

Greenhouse assembly structure

This creation is to provide a greenhouse assembly structure, especially through the structural design of the pipe joints for the skeleton rods to be inserted, so that it can build a greenhouse skeleton of various curved shapes such as round, dome or spherical, to respond to All kinds of different industry demanders.

According to the general crops, when they are cultivated, they often face natural weather factors that affect the growth of the crops, causing the harvest to be worse than expected. In order to solve this problem, some farmers use greenhouse cultivation to grow and manage crops. Isolating the crops from the outside environment makes it easy to carry out environmental control to create a suitable growing environment, and can reduce the use of pests and pesticides to improve product quality and food safety.

In the construction of traditional greenhouses, a skeleton rod of a predetermined length is mainly used in conjunction with various cross, flat, sigma, three-axis ‧‧‧ and other types of pipe joints as connecting members to form a complete greenhouse skeleton and skeleton rod. The links are connected in series to form a complete greenhouse skeleton, and then the canvas or transparent canvas 菶 is covered on the outside of the skeleton to form a complete and independent greenhouse space.

The above-mentioned temperature indication is on the construction. Because the sockets of the pipe sockets of the pipe joints are all extended straight from the base, they can only be used in a straight and vertical manner on the socket connection with the skeleton rod. Due to the connection between them, the construction of the greenhouse is limited to various rectangular or square structural forms. Not only is there a lack of changes in the shape, especially in the face of terrain or special needs, it must be warmed in radians. When a room is set up, there is a very high degree of difficulty, and it is necessary to try to solve it.

In view of the existing greenhouse's construction, due to the structural type of its pipe joints, it can only be constructed in a rectangular or square shape, which cannot meet the actual and various changing needs. Based on this, the creator specially prepared Research and design, and then create the greenhouse assembly structure of this creation.

In order to break through the restrictions of the existing greenhouse building types, this creation is in the structural design. It mainly uses various types of cross, flat, ㄒ, three-axis ‧‧‧ and other types of pipe joints as the connection and connection of the skeleton rods. The completed greenhouse skeleton is formed, and the pipe joint includes a base portion and at least two sleeve intubation portions extending from the base portion in each direction, and each of the sleeve intubation portions is at a predetermined angle with the base portion. Extended, and the angle of the tube intubation part must be set at different angles according to the size of the greenhouse it wants to build, so that when the skeleton rod is inserted into each tube intubation part of the pipe joint, it can be used The oblique angle constitutes the greenhouse skeleton with various curved shapes of round, dome or spherical surface, which breaks through the limitation that the existing greenhouse can only be constructed in a rectangular shape.

The assembly structure of the greenhouse created by this creation extends through the arc of the pipe socket's omnidirectional sleeve and the base, so that when the skeleton rod is socketed, it can construct a curved shape that forms an arc, and then a circle It is a complete or partial greenhouse skeleton structure of the shape, dome or various curved shapes in front, which makes its industrial use more flexible.

(10) ‧‧‧pipe joint

(11) ‧‧‧Base

(12) ‧‧‧Intubation Department

(13) ‧‧‧Perforation

(14) ‧‧‧Abut the bump

(20) ‧‧‧Skeleton rod

(30) ‧‧‧Bolt

(31) ‧‧‧Nut

Figure 1: Schematic diagram of the pipe joint structure of the preferred embodiment of the present invention.

Figure 2: This is a side view of the structure of a pipe joint in the preferred embodiment of the present invention.

Fig. 3: Schematic diagram of other types of pipe joints in the preferred embodiment of the present invention.

FIG. 4 is a partial structural decomposition diagram of the preferred embodiment of the present invention.

FIG. 5 is a schematic diagram of a partial structure combination of the preferred embodiment of the present invention.

FIG. 6 is a schematic diagram of a partial structural relationship of the preferred embodiment of the present invention.

FIG. 7 is a partial structural decomposition diagram of another implementation type of the preferred embodiment of the present invention.

FIG. 8 is a reference diagram of the implementation status of the preferred embodiment of the present invention.

FIG. 9 is a reference diagram of another implementation state of the preferred embodiment of the present invention.

Regarding the structural composition, technical means and effects of the creation of this creation, I would like to further explain it in detail with the drawings: please refer to Figures 1 to 9 to illustrate the best implementation of this creation, as shown in the figure As shown in the figure, this creation is in structural design. It mainly uses various types of cross joints, single-line, cross-shaped, three-axis ‧‧‧ and other types of pipe joints (10) as the connection and connection of the skeleton rod (20). The completed greenhouse skeleton is made, wherein: the pipe joint (10) includes a base (11) and at least two sleeve intubation parts (12) extending from the base (11) in each direction. The extension direction of the cannula cannula part (12) can be perpendicular to each other, straight or intersect at a predetermined angle, and each cannula cannula part (12) extends at a predetermined angle with the base (11). The angle of the aforementioned intubation sections (12) must be set at different angles depending on the size of the greenhouse to be built. Generally, the arc of the greenhouse to be built is relatively large, and the sleeve of the pipe joint (10) is set. The larger the angle between the intubation part (12) and the base part (11), conversely, if the arc curvature of the greenhouse is smaller, the sleeve intubation part (12) of the pipe joint (10) The base portion (11) form an angle smaller, relatively simultaneously manufactured through the perforations provided at a predetermined position of each of the cannula sleeve portion (12) (13), if necessary, it is more A convex abutment projection (14) is provided at a predetermined position on the outer edge surface of the sleeve intubation part (12), and the sleeve rod (20) is inserted into each sleeve intubation part (10) of the tube joint (10). After 12), in addition to the locking positioning effect obtained by the abutment projections (14), the bolt rod (30) and the nut (31) can be further locked and locked, so that the sleeve cannula can be used. (12) The oblique angle with the base (11) constitutes a greenhouse skeleton with various curved shapes of round, dome or spherical surface, breaking through the limitation that the existing greenhouse can only be constructed in a rectangular shape; that is, the greenhouse of this creation is in In construction, in order to break through the limitations of its existing rectangular construction type, under the existing functional framework, through the structural design of the pipe joint, the inwardly extending sleeve cannula and the base are in a predetermined inclined slope. The angle, so that these greenhouse skeleton rods can use pipe joints to obtain a socket connection with each other, can connect the structure to form a curved shape such as round, dome or spherical surface, so that it can respond to various needs or places. Make flexible installation and change, and break through the limitation that the conventional greenhouse can only be built in a rectangular shape, giving better industrial applicability With practical value; in summary, the greenhouse assembly structure of this creation, through the structural design of the pipe joints for the skeleton rods, utilizes the oblique angle of the arc between the pipe insertion part and the base of the pipe joint. It is planned to be able to connect the skeleton rods to form a greenhouse with a variety of curved shapes such as round, dome, or sphere. In response to various industrial needs, it has broken through the existing greenhouses that can only be constructed in rectangular shapes. The limitations, on the whole, are indeed more in line with the flexibility and practicability of industrial utilization. It is an outstanding and outstanding innovative design, and has filed patent applications according to law.

Claims (4)

A greenhouse assembly structure mainly uses a plurality of pipe joints of various types as the connection and concatenation of a plurality of skeleton rods to form a complete greenhouse skeleton. The improvement is that the pipe joints include The base, and at least two or more sleeve intubation portions extending from the base in each direction, and each of the sleeve intubation portions extends at a predetermined angle with the base, and the predetermined positions of the sleeve intubation portions are respectively Relatively perforated perforations are made so that after the skeleton rod is inserted into each set of intubation parts of the pipe joint, the bolt can be fitted with the nut to lock and fix, and the inclination of the intubation part and the base can be used. Those who construct the greenhouse skeleton with round, dome or spherical surfaces in various angles. According to the greenhouse assembly structure described in item 1 of the scope of the patent application, the angle of each set of intubation parts of the pipe joints can be set at different angles depending on the size of the greenhouse to be built. According to the greenhouse assembly structure described in item 1 of the scope of the patent application, wherein the pipe joints extend at least two or more intubations in each direction, the extension directions may be perpendicular to each other, straight or intersect at a predetermined angle. According to this, various types of pipe joints with cross, single-line, double-line, and triaxial shapes are made. According to the greenhouse assembly structure described in item 1 of the scope of the patent application, wherein the pipe insertion portion of the pipe joint extending in all directions is provided with a convex stop protrusion at a predetermined position on the outer edge surface, according to which Those who have obtained the socket stability of the skeleton rod.