Green house is with big-arch shelter pipe of being convenient for installation
Technical Field
The utility model relates to an agricultural greenhouse manages technical field, specifically is an agricultural greenhouse is with big-arch shelter pipe of being convenient for installation.
Background
For improving farming efficiency, conditions such as the reasonable temperature of farming is provided, big-arch shelter farming obtains popularization and application, big-arch shelter farming not only can plant multiple crops simultaneously and shorten the farming time, can also plant out of season required agricultural product, the farming economic benefits who improves to a certain extent, but traditional green house when the installation, it is fixed to need to connect between the big-arch shelter pipe, and these big-arch shelter pipe fixed connection modes are comparatively troublesome, can reduce the work efficiency of green house installation, improve staff's intensity of labour, so need a big-arch shelter pipe with being convenient for installation, in order to solve the problem that proposes in the foregoing.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an agricultural greenhouse is with big shed pipe convenient to installation to solve the problem of proposing among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: a greenhouse pipe convenient to install for an agricultural greenhouse comprises a fixing frame, a greenhouse vertical pipe, a greenhouse horizontal pipe, reinforcing pipes and a connecting device, wherein the greenhouse horizontal pipe is movably connected to the upper side end of the fixing frame, the greenhouse vertical pipe is movably sleeved on the outer surface of the greenhouse horizontal pipe, the reinforcing pipes are fixedly connected to the two ends of the greenhouse vertical pipe, the connecting device is spirally connected to one side of the bottom of the fixing frame, a bottom plate is fixedly installed inside the fixing frame, three groups of supporting pipes are fixedly connected to the top surface of the bottom plate, fixing blocks are welded to the outer surfaces of the upper portions of the supporting pipes, connecting ropes are movably buckled inside the fixing blocks, first threaded holes are formed in the top ends of the supporting pipes, second threaded holes are formed in the side edges of the two ends of the bottom plate, hanging rings are welded to the, the top end swing joint of extrusion screw has the meshing piece, the outer surface spiral connection in both ends upper portion of big-arch shelter standpipe has fastening screw, the tooth's socket has been seted up to the bottom surface that the big-arch shelter was violently managed, the one end welding that the big-arch shelter was violently managed has the metal cutting ferrule, the top surface spiral connection of metal cutting ferrule has the second fastening screw, the top surface spiral connection of reinforcement pipe has the third screw hole, first external screw thread has been seted up at the bottom surface edge of reinforcement pipe, connecting device's inside fixed mounting has the connecting pipe, the second external screw thread has been seted up to the edge surface at both ends of connecting pipe, the surface activity of connecting pipe has cup jointed.
Preferably, the greenhouse transverse pipe is clamped with the top end of the supporting pipe through a metal clamping sleeve at one end, and the second fastening screw is in threaded connection with the first threaded hole in the top surface of the supporting pipe through the metal clamping sleeve.
Preferably, the connecting pipe is tightly and spirally connected with the second threaded hole on the side surface of the bottom plate through the second external thread on the outer surface of one end.
Preferably, the greenhouse vertical pipe is movably sleeved with the outer surface of the greenhouse transverse pipe through a hanging ring, and the extrusion screw is meshed and connected with the tooth socket on the bottom surface of the greenhouse transverse pipe through a meshing block at the top end.
Preferably, the reinforcing pipe is spirally connected with a fourth threaded hole at the top end of the connecting block through a first external thread at the bottom end.
Preferably, two ends of the greenhouse vertical pipe are spirally connected with the third threaded hole in the top surface of the reinforcing pipe through fastening screws.
Compared with the prior art, the beneficial effects of the utility model are as follows:
the utility model can quickly connect the greenhouse horizontal pipe with the top end of the supporting pipe through the clamping connection of the metal cutting sleeve at one end of the greenhouse horizontal pipe with the top end of the supporting pipe, and the second fastening screw is screwed with the first threaded hole on the top surface of the supporting pipe through the metal cutting sleeve, so that the connection of one end of the greenhouse horizontal pipe can be reinforced, the connecting pipe is connected with the second threaded hole on the side surface of the bottom plate through the second external thread on the outer surface of one end, so that the two groups of bottom plates can be fixedly connected, the stability of the connection of the greenhouse base can be increased, the greenhouse vertical pipe is movably sleeved with the outer surface of the greenhouse horizontal pipe through the hanging ring, the arrangement and installation of the greenhouse vertical pipe on the outer surface of the greenhouse horizontal pipe can be facilitated, the extrusion screw is meshed with the tooth socket on the bottom surface of the greenhouse horizontal pipe, the efficiency of the work of installation is improved, the fourth screwed hole screwed connection on first external screw thread and connecting block top that the back up pipe passes through the bottom to the third screwed hole screwed connection of fastening screw and back up pipe top surface is passed through at the both ends of big-arch shelter standpipe, can provide the strong point to the both ends of big-arch shelter standpipe, strengthens big-arch shelter standpipe erection joint's steadiness.
Drawings
FIG. 1 is a schematic view of the main structure of the present invention;
FIG. 2 is a schematic view of the fixing frame of the present invention;
fig. 3 is a schematic view of the structure of the vertical rod of the present invention;
FIG. 4 is a schematic view of the cross bar structure of the present invention;
FIG. 5 is a schematic view of the structure of the reinforcing rod of the present invention;
fig. 6 is a schematic structural diagram of the connection device of the present invention.
In the figure: 1-fixing frame, 2-greenhouse vertical pipe, 3-greenhouse horizontal pipe, 4-reinforcing pipe, 5-connecting device, 6-first threaded hole, 7-fixing block, 8-connecting rope, 9-second threaded hole, 10-bottom plate, 11-supporting pipe, 12-fastening screw, 13-hanging ring, 14-extrusion screw, 15-meshing block, 16-second fastening screw, 17-metal clamping sleeve, 18-tooth space, 19-third threaded hole, 20-first external thread, 21-connecting block, 22-second external thread, 23-connecting pipe and 24-fourth threaded hole.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-6, the present invention provides an embodiment: a greenhouse pipe convenient to install for an agricultural greenhouse comprises a fixing frame 1, greenhouse vertical pipes 2, greenhouse horizontal pipes 3, reinforcing pipes 4 and connecting devices 5, wherein the greenhouse horizontal pipes 3 are movably connected to the upper side ends of the fixing frame 1, the greenhouse vertical pipes 2 are movably sleeved on the outer surfaces of the greenhouse horizontal pipes 3, the reinforcing pipes 4 are fixedly connected to the two ends of the greenhouse vertical pipes 2, the connecting devices 5 are spirally connected to one side of the bottom of the fixing frame 1, a bottom plate 10 is fixedly installed inside the fixing frame 1, three groups of supporting pipes 11 are fixedly connected to the top surface of the bottom plate 10, fixing blocks 7 are welded to the outer surfaces of the upper portions of the supporting pipes 11, connecting ropes 8 are movably buckled inside the fixing blocks 7, first threaded holes 6 are formed in the top ends of the supporting pipes 11, second threaded holes 9 are formed in the side edges of the two ends of the bottom plate 10, hanging, the top end of the extrusion screw 14 is movably connected with an engagement block 15, the outer surface of the upper part of the two ends of the greenhouse vertical pipe 2 is spirally connected with a fastening screw 12, the bottom surface of the greenhouse horizontal pipe 3 is provided with a tooth groove 18, one end of the greenhouse horizontal pipe 3 is welded with a metal cutting sleeve 17, the top surface of the metal cutting sleeve 17 is spirally connected with a second fastening screw 16, the top surface of the reinforcing pipe 4 is spirally connected with a third threaded hole 19, the edge of the outer surface of the bottom end of the reinforcing pipe 4 is provided with a first external thread 20, the connecting pipe 23 is fixedly arranged inside the connecting device 5, the outer surface of the edge of the two ends of the connecting pipe 23 is provided with a second external thread 22, the outer surface of the connecting pipe 23 is movably sleeved with a connecting block 21, the top end of the connecting block 21 is provided with a fourth threaded, the second fastening screw 16 is screwed with the first threaded hole 6 on the top surface of the supporting tube 11 through the metal cutting sleeve 17, so that one end of the greenhouse transverse tube 3 can be connected and reinforced, the connecting tube 23 is screwed with the second threaded hole 9 on the side surface of the bottom plate 10 through the second external screw 22 on the outer surface of one end, so that two groups of bottom plates 10 can be fixedly connected, and the stability of the connection of the greenhouse base can be improved, the greenhouse vertical tube 2 is movably sleeved with the outer surface of the greenhouse transverse tube 3 through the hanging ring 13, so that the greenhouse vertical tube 2 can be conveniently arranged and installed on the outer surface of the greenhouse transverse tube 3, the extrusion screw 14 is meshed and connected with the tooth grooves 18 on the bottom surface of the greenhouse transverse tube 3 through the meshing block 15 on the top end, so that the position of the greenhouse vertical tube 2 on the outer surface of the greenhouse transverse tube 3 can be quickly fixed, the installation work efficiency is improved, the reinforcing tube, and the third screw hole 19 looks screwed connection of fastening screw 12 and reinforcing pipe 4 top surface is passed through at the both ends of big-arch shelter standpipe 2, can provide the strong point to the both ends of big-arch shelter standpipe 2, strengthens the steadiness of big-arch shelter standpipe 2 erection joint.
The greenhouse horizontal pipe 3 is clamped with the top end of the supporting pipe 11 through the metal clamping sleeve 17 at one end, the second fastening screw 16 is in threaded connection with the first threaded hole 6 on the top surface of the supporting pipe 11 through the metal clamping sleeve 17, the connecting pipe 23 is in threaded connection with the second threaded hole 9 on the side surface of the bottom plate 10 through the second external thread 22 on the outer surface of one end, the greenhouse vertical pipe 2 is movably sleeved with the outer surface of the greenhouse horizontal pipe 3 through the hanging ring 13, the extrusion screw 14 is meshed with the tooth groove 18 on the bottom surface of the greenhouse horizontal pipe 3 through the meshing block 15 on the top end, the reinforcing pipe 4 is in threaded connection with the fourth threaded hole 24 on the top end of the connecting block 21 through the first external thread 20 on the bottom end, and the two ends of the greenhouse vertical pipe 2 are in threaded connection with the third threaded.
The working principle is as follows: when the method is installed, firstly, the required building size of the greenhouse is limited, then, base mounting grooves are excavated on the ground where the greenhouse is selected to be built, then, bases of the greenhouse are assembled, firstly, the fixing frame 1 is placed in the excavated grooves, then, two groups of connecting pipes 23 sleeved with a corresponding number of connecting blocks 21 are respectively in spiral connection with second threaded holes 9 on the two end sides of the bottom plate 10, then, the other end of the connecting device 5 is in spiral connection with second threaded holes 9 on the side sides of the other group of bottom plate 10, then, the bottom plate 10 and the connecting pipes 23 are buried, then, one end of the connecting rope 8 is connected with the outer surfaces of the supporting pipes 11 through the fixing block 7, then, the greenhouse vertical pipes 2 in a corresponding number are movably sleeved with the outer surfaces of the three groups of greenhouse transverse pipes 3 through the hanging rings 13, then, two ends of the greenhouse transverse pipes 3 are erected to enable metal clamping sleeves 17 at two, then, the second fastening screws 16 are rotated to be in spiral connection with the first threaded holes 6 at the top ends of the supporting pipes 11, then the greenhouse vertical pipes 2 corresponding to the outer surfaces of the greenhouse horizontal pipes 3 are uniformly arranged to enable the distances between the greenhouse vertical pipes 2 to be the same, then three groups of extrusion screws 14 at the bottom surfaces of the greenhouse vertical pipes 2 are spirally rotated one by one to push the meshing blocks 15 at the top surfaces to be meshed and clamped with the tooth grooves 18 at the bottom surfaces of the greenhouse horizontal pipes 3, so that the positions of the greenhouse vertical pipes 2 on the outer surfaces of the greenhouse horizontal pipes 3 are fixed, then the reinforcing pipes 4 at the two ends of the bottom plate 10 are righted to be vertical to the ground, then the top ends of the reinforcing pipes 4 are aligned with the two ends of the greenhouse vertical pipes 2, then the fastening screws 12 are spirally fastened and connected with the third threaded holes 19 at the top ends of the reinforcing pipes 4, so that the two ends of the greenhouse vertical pipes 2 are reinforced, thereby play the reinforcing effect to mount 1 and guarantee the stability of mount 1, accomplish the erection joint of agricultural greenhouse pipe, promote the meshing piece 15 and violently manage 3 bottom surface tooth's socket 18 meshing of 3 through rotating extrusion screw 14, can fix the position of big-arch shelter standpipe 2 fast, improve the ann efficiency of big-arch shelter pipe, reduce staff's intensity of labour.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.