CN211881307U

CN211881307U - Novel photovoltaic greenhouse device for rice planting

Info

Publication number: CN211881307U
Application number: CN202020172776.2U
Authority: CN
Inventors: 郎春华
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-02-16
Filing date: 2020-02-16
Publication date: 2020-11-10
Anticipated expiration: 2030-02-16

Abstract

The novel photovoltaic greenhouse device for rice planting comprises a photovoltaic greenhouse steel frame, a steel frame supporting frame, a positioning supporting rod, a fixed connecting seat, a positioning supporting seat, a hanging hook, an inclined supporting rod and a fastening screw rod, the photovoltaic greenhouse steel frame is internally connected with a plurality of steel frame supporting frames, the steel frame supporting frames are uniformly distributed in the photovoltaic greenhouse steel frame, the upper part of each steel frame supporting frame is provided with a cross-shaped supporting seat, the upper part of the cross-shaped supporting seat is connected with a steel frame supporting frame, the left side and the right side of the steel frame supporting frame are provided with auxiliary supporting rods, the auxiliary supporting rods are symmetrically arranged, the upper parts of the auxiliary supporting rods are connected with the photovoltaic greenhouse steel frame, the front side and the rear side of the steel frame supporting frame are connected with the inclined supporting rods, the inclined support rod is internally provided with a positioning slot, the front side and the rear side of the steel frame support frame are provided with positioning bulges, the positioning bulges are matched with the positioning slot, and the inner side of the positioning slot is connected with the positioning bulges.

Description

Novel photovoltaic greenhouse device for rice planting

Technical Field

The utility model relates to a photovoltaic big-arch shelter field especially relates to a novel rice is planted and is used photovoltaic big-arch shelter device.

Background

In the use of rice planting with photovoltaic big-arch shelter, most of rice planting are shorter with the unstable life of photovoltaic big-arch shelter structure, often can be scraped down under the effect of wind to cause the rice planting to be died with the inside rice kind of photovoltaic big-arch shelter, bring inconvenience for the user.

SUMMERY OF THE UTILITY MODEL

The utility model discloses it is not enough to the above-mentioned that prior art exists, provide a longer novel rice plants and uses photovoltaic big-arch shelter device of life.

The utility model aims at realizing through the following technical scheme:

a novel photovoltaic greenhouse device for rice planting comprises a photovoltaic greenhouse steel frame, a steel frame supporting frame, positioning supporting rods, a fixed connecting seat, positioning supporting seats, hanging hooks, inclined supporting rods and fastening screws, wherein the photovoltaic greenhouse steel frame is internally connected with a plurality of steel frame supporting frames, the steel frame supporting frames are uniformly distributed in the photovoltaic greenhouse steel frame, the upper part of each steel frame supporting frame is provided with a cross supporting seat, the upper part of each cross supporting seat is connected with the steel frame supporting frame, the left side and the right side of each steel frame supporting frame are provided with auxiliary supporting rods which are symmetrically arranged, the upper parts of the auxiliary supporting rods are connected with the photovoltaic greenhouse steel frame, the front side and the rear side of each steel frame supporting frame are connected with the inclined supporting rods, the inner parts of the inclined supporting rods are provided with positioning lugs, the, the outside of the steel frame support frame is connected with a fixed connection seat, and the inside of the fixed connection seat is connected with a positioning support rod through a rotating shaft.

The photovoltaic greenhouse frame is characterized in that the positioning support rods rotate in the rotating shaft, the lower portions of the positioning support rods are connected with the photovoltaic greenhouse steel frame, the upper portions of the positioning support seats are connected with the positioning support rods, the lower portions of the positioning support seats penetrate through the photovoltaic greenhouse steel frame to be connected with the fastening nuts, supporting protrusions are arranged on two sides of the steel frame support frame, and fixing grooves are formed in the supporting protrusions.

The outer side of the steel frame supporting frame is connected with two hanging hooks through fastening screws, the hanging hooks are symmetrically arranged, the outer sides of the hanging hooks are connected with supporting protrusions, the hanging hooks are matched with fixing grooves, the inner sides of the fixing grooves are connected with the hanging hooks, and the bottom of the steel frame supporting frame is connected with the ground through expansion bolts.

Has the advantages that:

at the steelframe support frame, the location bracing piece, under the mutually supporting of bearing diagonal pole, support and fixed action have been played to photovoltaic big-arch shelter steelframe, the stability of photovoltaic big-arch shelter steelframe overall structure has been improved, the effectual photovoltaic big-arch shelter steelframe that has prevented is blown down by the wind, the life of photovoltaic big-arch shelter steelframe has been prolonged, and fastening screw, support under the bellied combined action, support and fixed action have been played to the mounted hook, make the more firm of being connected of mounted hook and steelframe support frame, make overall structure more reasonable, can hang the bugZapper on the mounted hook simultaneously, high durability and convenient use.

Drawings

Fig. 1 is the structure schematic diagram of the novel photovoltaic greenhouse device for rice planting.

Fig. 2 is a longitudinal sectional view of the novel photovoltaic greenhouse device for rice planting.

Fig. 3 is the schematic diagram of the structure of the steel frame support frame of the novel photovoltaic greenhouse device for rice planting.

Fig. 4 is the novel rice is planted with photovoltaic big-arch shelter device location supporting seat structure sketch map.

Fig. 5 is the schematic view of the structure of the oblique supporting rod of the novel photovoltaic greenhouse device for rice planting.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples:

a novel photovoltaic greenhouse device for rice planting comprises a photovoltaic greenhouse steel frame 01, steel frame support frames 02, positioning support rods 03, a fixed connecting seat 04, a positioning support seat 05, a suspension hook 06, inclined support rods 07 and fastening screws 08, wherein the photovoltaic greenhouse steel frame 01 is internally connected with a plurality of steel frame support frames 02, the steel frame support frames 02 are uniformly distributed in the photovoltaic greenhouse steel frame 01, a cross-shaped support seat 10 is arranged at the upper part of each steel frame support frame 02, the upper part of each cross-shaped support seat 10 is connected with the corresponding steel frame support frame 02, auxiliary support rods 09 are arranged on the left side and the right side of each steel frame support frame 02, the auxiliary support rods 09 are symmetrically arranged, the upper parts of the auxiliary support rods 09 are connected with the photovoltaic greenhouse steel frame 01, the inclined support rods 07 are connected with the front side and the rear side of, the positioning protrusion 14 is matched with the positioning slot 13, the positioning protrusion 14 is connected to the inner side of the positioning slot 13, the fixed connection seat 04 is connected to the outer side of the steel frame support frame 02, and the inside of the fixed connection seat 04 is connected with the positioning support rod 03 through a rotating shaft.

The utility model discloses a photovoltaic greenhouse, including the pivot, the bracing piece 03, the bracing piece 02, the bracing piece 11 is inside to have fixed recess 12, the bracing piece 03 rotates in the pivot, bracing piece 03 sub-unit connection photovoltaic greenhouse steelframe 01, bracing piece 03 is connected on bracing piece 05 upper portion, and bracing piece 05 lower part passes photovoltaic greenhouse steelframe 01 and connects fastening nut, and steelframe support frame 02 both sides have supporting protrusion 11, supporting protrusion 11 is inside to.

The outer side of the steel frame support frame 02 is connected with two hanging hooks 06 through fastening screws 08, the hanging hooks 06 are symmetrically arranged, the outer side of each hanging hook 06 is connected with a supporting protrusion 11, each hanging hook 06 is matched with a fixing groove 12, the inner side of each fixing groove 12 is connected with the corresponding hanging hook 06, and the bottom of the steel frame support frame 02 is connected with the ground through expansion bolts.

At steelframe support frame 02, the bracing piece 03 of location, under the mutually supporting of bearing diagonal 07, support and fixed action have been played to photovoltaic big-arch shelter steelframe 01, the stability of photovoltaic big-arch shelter steelframe 01 overall structure has been improved, the effectual photovoltaic big-arch shelter steelframe 01 that has prevented is blown down by the wind, the life of photovoltaic big-arch shelter steelframe 01 has been prolonged, and fastening screw 08, under the combined action of support arch 11, support and fixed action have been played to the mounted hook 06, make the more firm of being connected of mounted hook 06 and steelframe support frame 02, make overall structure more reasonable, can hang the bugZapper on the mounted hook 06 simultaneously, and the use is very convenient.

Claims

1. A novel photovoltaic greenhouse device for rice planting is characterized by comprising a photovoltaic greenhouse steel frame, a steel frame supporting frame, positioning supporting rods, a fixed connecting seat, positioning supporting seats, hanging hooks, inclined supporting rods and fastening screws, wherein the photovoltaic greenhouse steel frame is internally connected with a plurality of steel frame supporting frames which are uniformly distributed in the photovoltaic greenhouse steel frame, the upper part of each steel frame supporting frame is provided with a cross supporting seat, the upper part of each cross supporting seat is connected with the steel frame supporting frame, the left side and the right side of each steel frame supporting frame are provided with auxiliary supporting rods which are symmetrically arranged, the upper parts of the auxiliary supporting rods are connected with the photovoltaic greenhouse steel frame, the front side and the rear side of each steel frame supporting frame are connected with the inclined supporting rods, the inside of each inclined supporting rod is provided with a positioning slot, the front side and the, the outside of the steel frame support frame is connected with a fixed connection seat, and the inside of the fixed connection seat is connected with a positioning support rod through a rotating shaft.

2. The novel photovoltaic greenhouse device for rice planting as claimed in claim 1, wherein the positioning support rod rotates on the rotating shaft, the lower portion of the positioning support rod is connected with a photovoltaic greenhouse steel frame, the upper portion of the positioning support seat is connected with the positioning support rod, the lower portion of the positioning support seat penetrates through the photovoltaic greenhouse steel frame to be connected with a fastening nut, support protrusions are arranged on two sides of a steel frame support frame, and fixing grooves are formed in the support protrusions.

3. The novel photovoltaic greenhouse device for rice planting as claimed in claim 2, wherein two hanging hooks are connected to the outer side of the steel frame support frame through fastening screws, the hanging hooks are symmetrically arranged, supporting protrusions are connected to the outer sides of the hanging hooks, the hanging hooks are matched with fixing grooves, the hanging hooks are connected to the inner sides of the fixing grooves, and the bottom of the steel frame support frame is connected to the ground through expansion bolts.