CN219834028U - Adjustable photovoltaic support synchronizing rod connecting mechanism - Google Patents

Abstract

The utility model provides an adjustable photovoltaic bracket synchronous rod connecting mechanism which comprises a main shaft cylinder, wherein the auxiliary shaft cylinder is welded with the upper side of the main shaft cylinder through H-shaped side plates arranged on two sides of the bottom, the auxiliary shaft cylinder has the same structure as the main shaft cylinder, reserved round openings are arranged at the middle positions of the bottoms of the main shaft cylinder and the auxiliary shaft cylinder, an embedded rotating rod is movably arranged in the reserved round openings, a first threaded rotating rod and a second threaded rotating rod are respectively arranged on two sides of the embedded rotating rod, and the embedded shaft cylinder is slidably arranged in the main shaft cylinder and the auxiliary shaft cylinder through corresponding first threaded rotating rods and second threaded rotating rods. According to the adjustable photovoltaic bracket synchronizing rod connecting mechanism, through the fact that the main shaft cylinder and the embedded shaft cylinder are vertically symmetrical, the embedded shaft cylinder can be synchronously driven to extend through the first threaded rotating rod and the second threaded rotating rod on two sides of the embedded rotating rod by rotating the rotating shaft disc, and compared with the existing synchronizing rod connecting mechanism, the operation is more convenient and labor-saving, and the efficiency is higher in a single person installation process.

Description

Adjustable photovoltaic support synchronizing rod connecting mechanism

Technical Field

The utility model relates to the technical field of synchronous rods of photovoltaic brackets, in particular to a connecting mechanism of a synchronous rod of an adjustable photovoltaic bracket.

Background

The photovoltaic power generation is a technology for directly converting light energy into electric energy by utilizing the photovoltaic effect of a semiconductor interface, and the photovoltaic power generation equipment is generally a photovoltaic bracket erected on the ground or a roof and a photovoltaic module fixedly arranged on the photovoltaic bracket and used for generating power.

There is an adjustable photovoltaic support synchronizing bar coupling mechanism like application publication number CN217486442U among the prior art, it includes initiative pole and the driven lever that coaxial setting, initiative pole and driven lever are the hollow tube of the same specification, the one end that initiative pole and driven lever are close to overlaps jointly and is equipped with a connecting rod, the position that is close to initiative pole and driven lever respectively vertically passes the connecting rod setting and is used for preventing the spacer pin that the connecting rod left and right sides removed, only need one during the installation with the connecting rod cover into owner, driven lever, then install the spacer pin can, an operator just can accomplish whole installation work easily from this.

However, the lengths of the two extended sides in the assembly process can be adjusted and controlled to be equal, but the whole installation convenience is insufficient, so that it is necessary to provide an adjustable photovoltaic bracket synchronous rod connecting mechanism to solve the technical problems.

Disclosure of Invention

The utility model provides an adjustable photovoltaic bracket synchronizing rod connecting mechanism, which solves the problem that the whole installation convenience of the existing adjustable photovoltaic bracket synchronizing rod connecting mechanism is insufficient.

In order to solve the technical problems, the utility model provides an adjustable photovoltaic bracket synchronizing rod connecting mechanism, which comprises: a spindle barrel;

the auxiliary shaft cylinder is welded with the upper surface of the main shaft cylinder through H-shaped side plates arranged on two sides of the bottom, the auxiliary shaft cylinder and the main shaft cylinder have the same structure, and reserved round openings are arranged at the middle positions of the bottoms of the main shaft cylinder and the auxiliary shaft cylinder;

the embedded rotating rod is movably arranged in the reserved circular opening, a rotating shaft disc is fixedly arranged at the middle position of the embedded rotating rod, a first threaded rotating rod and a second threaded rotating rod are respectively arranged at two sides of the embedded rotating rod, and an embedded shaft cylinder is slidably arranged in the main shaft cylinder and the auxiliary shaft cylinder through the corresponding first threaded rotating rod and second threaded rotating rod;

wherein the first threaded rotating rod is opposite to the threaded opening on the surface of the second threaded rotating rod.

The main shaft section of thick bamboo is the square pipe of 30x30mm specification, embedded axle section of thick bamboo is the square pipe of 25x25mm specification, and the material is aluminum alloy.

Preferably, the bottom surface of the embedded shaft cylinder is provided with a nut sleeve corresponding to the first thread rotating rod in a jogging mode, four side angle positions of the bottom surface of the nut sleeve are provided with reserved gaps, and the interiors of the reserved gaps are provided with rotating rods.

Preferably, the rotary drum is movably mounted at the middle position of the outer surface of the rotary rod, the rubber sleeve is mounted on the outer surface of the rotary drum, and the rubber sleeve is attached to the inner wall of the main shaft barrel.

Preferably, the double-layered sleeve disc is installed to the both sides of embedded bull stick, the double-layered sleeve disc activity cover in the outside of reserving round mouth, the double-layered sleeve disc is used for the activity restriction embedded bull stick reciprocates.

Preferably, the embedded rotating rod, the first threaded rotating rod and the second threaded rotating rod are of an integrated structure.

Preferably, an open slot is formed in the surface of the rotating shaft disc, and the open slot is used for facilitating rotation to drive the first threaded rotating rod and the second threaded rotating rod to synchronously rotate.

Compared with the related art, the adjustable photovoltaic bracket synchronizing rod connecting mechanism provided by the utility model has the following beneficial effects:

the utility model provides an adjustable photovoltaic bracket synchronizing rod connecting mechanism, which is characterized in that a spindle cylinder and an embedded spindle cylinder are vertically symmetrical and practical, a rotating shaft disc can synchronously drive the embedded spindle cylinder to extend through a first threaded rotating rod and a second threaded rotating rod at two sides of the embedded rotating rod, and compared with the existing synchronizing rod connecting mechanism, the adjustable photovoltaic bracket synchronizing rod connecting mechanism is more convenient and labor-saving to operate, and has higher efficiency in a single person installation process.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a synchronous rod connection mechanism for an adjustable photovoltaic bracket according to the present utility model;

fig. 2 is a schematic structural diagram of an embedded rotating rod of an adjustable photovoltaic bracket synchronizing rod connecting mechanism provided by the utility model;

FIG. 3 is a schematic view of the structure of an embedded shaft of the adjustable photovoltaic bracket synchronizing rod connection mechanism provided by the utility model;

fig. 4 is a schematic structural diagram of a second embodiment of a synchronous rod connection mechanism for an adjustable photovoltaic bracket according to the present utility model;

fig. 5 is a schematic structural view of an embedded groove of the adjustable photovoltaic bracket synchronizing rod connecting mechanism.

Reference numerals in the drawings: 1. the main shaft section of thick bamboo, 2, H type curb plate, 3, reserved circle mouth, 4, embedded bull stick, 5, first screw thread bull stick, 6, second screw thread bull stick, 7, intermediate layer cover dish, 8, pivot dish, 9, embedded axle section of thick bamboo, 10, nut sleeve mouth, 11, reserved breach, 12, bull stick, 13, rotary drum, 14, rubber cover skin, 15, auxiliary shaft section of thick bamboo, 16, embedded groove, 17, scale.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

First embodiment

Referring to fig. 1, fig. 2, and fig. 3 in combination, fig. 1 is a schematic structural diagram of a first embodiment of a synchronous rod connection mechanism for an adjustable photovoltaic bracket according to the present utility model; fig. 2 is a schematic structural diagram of an embedded rotating rod of an adjustable photovoltaic bracket synchronizing rod connecting mechanism provided by the utility model; fig. 3 is a schematic structural view of an embedded shaft of the adjustable photovoltaic bracket synchronizing rod connecting mechanism. An adjustable photovoltaic bracket synchronizing bar connection mechanism comprising: a main shaft cylinder 1;

the auxiliary shaft cylinder 15 is welded with the upper surface of the main shaft cylinder 1 through H-shaped side plates 2 arranged on two sides of the bottom, the auxiliary shaft cylinder 15 and the main shaft cylinder 1 have the same structure, and reserved round openings 3 are arranged at the middle positions of the bottoms of the main shaft cylinder 1 and the auxiliary shaft cylinder 15;

the embedded rotating rod 4 is movably arranged in the reserved circular opening 3, a rotating shaft disc 8 is fixedly arranged at the middle position of the embedded rotating rod 4, a first threaded rotating rod 5 and a second threaded rotating rod 6 are respectively arranged at two sides of the embedded rotating rod 4, and an embedded shaft cylinder 9 is slidably arranged in the main shaft cylinder 1 and the auxiliary shaft cylinder 15 through the corresponding first threaded rotating rod 5 and second threaded rotating rod 6;

wherein the first threaded rotating rod 5 is opposite to the threaded opening on the surface of the second threaded rotating rod 6.

The main shaft cylinder 1 is a square tube with the specification of 30x30mm, the embedded shaft cylinder 9 is a square tube with the specification of 25x25mm, and all materials are aluminum alloy.

The bottom surface of embedded axle section of thick bamboo 9 is installed and is gone up the nut cover 10 that corresponds with first screw thread bull stick 5 gomphosis, and the reservation breach 11 is all installed to the bottom surface four side angular position department of nut cover 10, and the bull stick 12 is all installed to the inside of reservation breach 11.

The rotary drum 13 is movably mounted in the middle of the outer surface of the rotary rod 12, the rubber sleeve 14 is mounted on the outer surface of the rotary drum 13, and the rubber sleeve 14 is attached to the inner wall of the main shaft barrel 1.

The intermediate layer sleeve disk 7 is all installed to the both sides of embedded bull stick 4, and intermediate layer sleeve disk 7 activity cover is in reserving the outside of circle mouth 3, and intermediate layer sleeve disk 7 is used for the activity restriction embedded bull stick 4 to reciprocate.

The embedded rotating rod 4, the first threaded rotating rod 5 and the second threaded rotating rod 6 are of an integrated structure.

The surface of the rotating shaft disc 8 is provided with an open slot for facilitating rotation to drive the first threaded rotating rod 5 and the second threaded rotating rod 6 to synchronously rotate.

The working principle of the adjustable photovoltaic bracket synchronizing rod connecting mechanism provided by the utility model is as follows: when the photovoltaic support is used, the rotating shaft disc 8 inside the H-shaped side plate 2 is rotated, the first threaded rotating rod 5 and the second threaded rotating rod 6 on two sides of the embedded rotating rod 4 can be rotated, the embedded shaft cylinder 9 which is embedded and installed through the nut sleeve opening 10 can synchronously extend outwards under the driving action, the length of the synchronous rod connecting mechanism can be adjusted through rotating the rotating shaft disc 9, the photovoltaic support is convenient to assemble, and the embedded shaft cylinder 9 extends out to assist in sliding by utilizing the rotating cylinder 13 inside the reserved gap 11.

Compared with the related art, the adjustable photovoltaic bracket synchronizing rod connecting mechanism provided by the utility model has the following beneficial effects:

through the upper and lower symmetry reality of main shaft section of thick bamboo and embedded axle section of thick bamboo, rotate the pivot dish and can stretch out through embedded axle section of thick bamboo of first screw thread bull stick, second screw thread bull stick synchronous drive of embedded bull stick both sides, compare current synchronizing lever coupling mechanism operation more convenient laborsaving, single installation in-process efficiency is higher.

Second embodiment

Referring to fig. 4-5, fig. 4 is a schematic structural diagram of a second embodiment of a synchronous rod connection mechanism for adjustable photovoltaic brackets according to the present utility model. Based on the adjustable photovoltaic bracket synchronization rod connection mechanism provided by the first embodiment of the utility model, the second embodiment of the utility model provides another adjustable photovoltaic bracket synchronization rod connection mechanism. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the second embodiment of the present utility model provides a connection mechanism for a synchronization rod of an adjustable photovoltaic bracket, which is different in that, the four angular positions of the outer surface of the embedded shaft barrel 9 are fixedly provided with embedded grooves 16.

The surface of the embedded groove 16 is provided with a graduated scale 17.

Working principle: when the adjustable synchronous rod connecting mechanism is used, the scales 17 arranged at four side angles of the outer surface of the embedded shaft barrel 9 can be accurately adjusted through scales on any one surface in the extending process, so that the adjustable controllable effect of the adjustable synchronous rod connecting mechanism is further improved.

The beneficial effects are that: through the scale 17 of embedded axle section of thick bamboo 9 surface four side angle installation, in stretching out the in-process, can carry out accurate regulation through the scale of arbitrary one side, further improve synchronizing lever coupling mechanism's adjustable controllable effect.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. An adjustable photovoltaic bracket synchronizing bar connection mechanism, comprising: a spindle barrel;

the auxiliary shaft cylinder is welded with the upper surface of the main shaft cylinder through H-shaped side plates arranged on two sides of the bottom, the auxiliary shaft cylinder and the main shaft cylinder have the same structure, and reserved round openings are arranged at the middle positions of the bottoms of the main shaft cylinder and the auxiliary shaft cylinder;

the embedded rotating rod is movably arranged in the reserved circular opening, a rotating shaft disc is fixedly arranged at the middle position of the embedded rotating rod, a first threaded rotating rod and a second threaded rotating rod are respectively arranged at two sides of the embedded rotating rod, and an embedded shaft cylinder is slidably arranged in the main shaft cylinder and the auxiliary shaft cylinder through the corresponding first threaded rotating rod and second threaded rotating rod;

wherein the first threaded rotating rod is opposite to the threaded opening on the surface of the second threaded rotating rod.

2. The adjustable photovoltaic bracket synchronizing rod connecting mechanism according to claim 1, wherein a nut sleeve corresponding to the first threaded rotating rod is installed on the bottom surface of the embedded shaft cylinder, reserved gaps are installed at four corner positions of the bottom surface of the nut sleeve, and rotating rods are installed in the reserved gaps.

3. The adjustable photovoltaic bracket synchronizing bar connecting mechanism according to claim 2, wherein the rotating bars are movably provided with rotating drums at intermediate positions on the outer surfaces, rubber sleeve covers are arranged on the outer surfaces of the rotating drums, and the rubber sleeve covers are attached to the inner walls of the main shaft cylinders.

4. The adjustable photovoltaic bracket synchronizing bar connecting mechanism according to claim 1, wherein an interlayer sleeve is mounted on both sides of the embedded rotating bar, the interlayer sleeve is movably sleeved on the outer side of the reserved circular opening, and the interlayer sleeve is used for movably limiting the embedded rotating bar to move up and down.

5. The adjustable photovoltaic bracket synchronization bar connection mechanism of claim 1, wherein the embedded rotating bar is of unitary construction with the first threaded rotating bar and the second threaded rotating bar.

6. The adjustable photovoltaic bracket synchronizing bar coupling mechanism of claim 1 wherein the surface of the spindle disk is provided with an open slot for facilitating rotation to drive the first threaded rotating bar and the second threaded rotating bar to rotate in synchronization.