CN223620948U - Mountain region photovoltaic support digs basis - Google Patents

Abstract

This utility model discloses a mountain photovoltaic support excavation foundation, including a slope. The slope's inclined surface is provided with an excavation foundation body and two sets of grooved plates. A pre-drilled hole is provided at the upper part of the excavation foundation body. A pre-embedded pipe is installed above the two sets of grooved plates, and a foot pedal is installed on the side of the pre-embedded pipe. Mounting plates are installed inside both ends of the pre-embedded pipe. Mounting screws are installed on the opposite sides of the two sets of mounting plates, and rotating plates and two sets of mounting nuts are sleeved on the side walls of the two sets of mounting screws. One end of each of the two sets of rotating plates is fixedly connected to the two sets of grooved plates. Multiple sets of mounting shafts and multiple sets of connecting shafts pass through the interior of each set of grooved plates via bearings. Beneficial effects: This utility model uses grooved plates, which facilitate the movement of the pre-embedded pipes for installing the photovoltaic support along the slope to a suitable position by operators, improving the practicality of the mountain photovoltaic support excavation foundation.

Description

Mountain region photovoltaic support digs basis

Technical Field

The utility model relates to the technical field of foundation excavation, in particular to a mountain region photovoltaic bracket foundation excavation.

Background

The foundation is formed by directly digging (drilling) a needed foundation pit in natural soil by using machinery or manpower, directly pouring the steel reinforcement framework and concrete into the foundation pit, and the foundation is installed on the photovoltaic support on the mountain land, and can be realized only by setting the foundation on the mountain land, and the foundation has the advantages of simplicity in operation, stable structure, good use effect and the like in practical use.

The prior art discloses a photovoltaic bracket digging foundation for a complex mountain land, wherein the publication number is CN209162881U, the mountain land slope body has a certain inclination, mechanical equipment cannot be used, an operator cannot move an embedded pipe for installing the photovoltaic bracket to a proper position along the slope body, the use practicability of the utility model is reduced, meanwhile, the mechanical equipment cannot be used, the mountain land slope body has a certain inclination, the operator cannot stand on the slope body, and further, a pit hole for digging the foundation body is difficult to dig in the mountain land slope body, so that the utility model is inconvenient to use.

For the problems in the related art, no effective solution has been proposed at present.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a foundation for digging a mountain photovoltaic bracket, which has the advantages of being convenient for operators to move an embedded pipe for installing the photovoltaic bracket to a proper position along a slope body and for the operators to stand on the mountain slope body for operation, thereby solving the problems in the prior art.

(II) technical scheme

In order to achieve the advantages that the embedded pipe for installing the photovoltaic bracket is convenient for an operator to move to a proper position along a slope body and is convenient for the operator to stand on the mountain slope body for operation, the utility model adopts the following specific technical scheme:

The utility model provides a mountain region photovoltaic support digs foundation, includes the slope body, the inclined plane of slope body is provided with digs foundation body and two sets of recess boards, the upper portion of digging foundation body is provided with the preformed hole, two sets of the top of recess board is installed the embedded pipe, and the pedal is installed to the side of embedded pipe, the mounting panel is all installed to the both ends inside of embedded pipe, two sets of the mounting panel keep away from the face and all install the installation screw rod, and two sets of the lateral wall of installation screw rod has all cup jointed rotor plate and two sets of installation nut, two sets of the one end of rotor plate respectively with two sets of recess board fixed connection, two sets of the inside of recess board has all run through multiunit installation axle and multiunit connecting axle through the bearing, and the homonymy multiunit club is all cup jointed to the lateral wall of installation axle, and homonymy multiunit club are installed to the lateral wall of connecting axle all fixedly cup joints the limiting plate, two sets of the face of keeping away from of recess board all installs the face, two sets of locating plate, four sets of locating posts and four sets of locating posts have on the equal sliding connection board, four sets of locating posts have four sets of locating posts on the equal top surface.

Further, the plurality of groups of handles are all made of iron materials.

Further, the connecting plate is installed to the one end of pedal, and four sets of connecting holes have been seted up to one side of connecting plate, the outer wall of pre-buried pipe is provided with the multiunit slot, and the multiunit four sets of first connecting screw rods are all installed to the inner wall of slot, and four sets of homonymy the lateral wall of first connecting screw rod has all cup jointed first coupling nut, the inner wall of pre-buried pipe is provided with built-in groove, and four sets of second connecting screw rods are installed to the inner wall of built-in groove, and four sets of second connecting screw rods's lateral wall has all cup jointed second coupling nut.

Further, the four groups of first connecting screws on the same side are mutually matched with the four groups of first connecting nuts on the same side in threads.

Further, four groups of second connecting screw rods and four groups of second connecting nut threads are matched with each other.

Further, two groups of the mounting screws and four groups of the mounting nut threads are mutually matched.

(III) beneficial effects

Compared with the prior art, the utility model provides a foundation for digging a mountain photovoltaic bracket, which has the following beneficial effects:

(1) Before the foundation is dug by using the mountain photovoltaic bracket, an operator firstly moves the embedded pipe by hand, a plurality of groups of rollers are respectively driven by friction force of a slope body to rotate, a plurality of groups of installation shafts on the same side are respectively driven to rotate, a plurality of groups of sleeve connection plates on the same side can be driven to rotate when the two groups of groove plates on the same side are rotated, a plurality of groups of rods on the same side can be driven to rotate, the rotating groups of rods on the same side can sequentially strike a plurality of groups of limit plates on the same side, when the groups of rods on the same side are separated from the groups of limit plates on the same side, a plurality of groups of rods on the same side can be pulled to reset and rotate, a plurality of groups of rods on the same side can sequentially strike the limit plates on the same side, meanwhile, a plurality of groups of rollers can be prevented from moving downwards along the slope body to roll, when the two groups of groove plates are moved to a proper position by hand, when the four groups of rods are inserted into the slope body, the two groups of groove plates and the embedded pipe can be fixed, and the photovoltaic bracket can be conveniently moved to the proper position by the operator.

(2) According to the utility model, pedal is adopted, when the embedded pipe is stably fixed, an operator can manually move the pedal, when the connecting plate is inserted into the inside of one group of slots, the four first connecting screws on the same side respectively penetrate through the four groups of connecting holes, then the four first connecting screws on the same side and the four first connecting nuts on the same side are mutually matched through threads, the operator can manually sleeve the four first connecting nuts on the side wall of the four first connecting screws on the same side clockwise to finish the installation work of the pedal, at the moment, the operator can stand on the pedal to perform pit digging operation on the inclined surface of the slope body, after pit digging operation is finished, the foundation body is arranged inside the pit digging hole, the connecting plate is moved into the inside of the built-in slot anticlockwise, when the four second connecting screws respectively penetrate through the four groups of connecting holes, the four second connecting screws and the four second connecting nuts are mutually matched through threads, the four second connecting nuts are sleeved on the side wall of the four second connecting screws clockwise by the operator, the two groups of the two connecting nuts are mutually matched through the two screw nuts, the two sides of the two connecting nuts are mutually matched through the two side of the embedded pipe, the two groups of the embedded pipe can be rotatably installed on the slope body, and the foundation body can be simultaneously removed by the embedded pipe can be inserted into the embedded pipe through the embedded pipe, and the embedded pipe can be simultaneously, and the foundation can be conveniently removed by the embedded pipe is arranged to be conveniently, and the embedded pipe can be simultaneously, the foundation is inserted into the embedded pipe can be conveniently, and can be conveniently and removed by the embedded in the pipe, and can be conveniently inserted into the foundation.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a foundation for digging a mountain photovoltaic bracket;

FIG. 2 is a perspective view of a pedal according to the present utility model;

FIG. 3 is an enlarged view of FIG. 1A in accordance with the teachings of the present utility model;

FIG. 4 is an enlarged view of B of FIG. 1 in accordance with the teachings of the present utility model;

fig. 5 is an enlarged view of C in fig. 1 according to the present utility model.

In the figure:

1. The slope body, 2, digging a foundation body, 3, a preformed hole, 4, a groove plate, 5, a pre-buried pipe, 6, a pedal plate, 7, a mounting plate, 8, a mounting screw rod, 9, a rotating plate, 10, a mounting nut, 11, a mounting shaft, 12, a connecting shaft, 13, a roller, 14, a sleeving plate, 15, a club, 16, a limiting plate, 17, a limiting post, 18, a fixing plate, 19, a telescopic spring, 20, a locating plate, 21, a plug rod, 22, a handle, 23, a rectangular plate, 24, a slot, 25, a connecting plate, 26, a connecting hole, 27, a first connecting screw rod, 28, a first connecting nut, 29, a built-in groove, 30, a second connecting screw rod and 31, a second connecting nut.

Detailed Description

For the purpose of further illustrating the various embodiments, the present utility model provides the accompanying drawings, which are a part of the disclosure of the present utility model, and which are mainly used to illustrate the embodiments and, together with the description, serve to explain the principles of the embodiments, and with reference to these descriptions, one skilled in the art will recognize other possible implementations and advantages of the present utility model, wherein elements are not drawn to scale, and like reference numerals are generally used to designate like elements.

According to the embodiment of the utility model, a mountain photovoltaic bracket digging foundation is provided.

The utility model is further described with reference to the accompanying drawings and the specific embodiments, as shown in fig. 1-5, a mountain region photovoltaic bracket according to the embodiment of the utility model digs a foundation, which comprises a slope body 1, wherein the inclined surface of the slope body 1 is provided with a digging foundation body 2 and two groups of groove plates 4, the upper part of the digging foundation body 2 is provided with a preformed hole 3, a pre-buried pipe 5 is arranged above the two groups of groove plates 4, a pedal 6 is arranged on the side of the pre-buried pipe 5, mounting plates 7 are respectively arranged inside two ends of the pre-buried pipe 5, mounting screws 8 are respectively arranged on the far surfaces of the two groups of mounting plates 7, side walls of the two groups of mounting screws 8 are respectively sleeved with a rotating plate 9 and two groups of mounting nuts 10, one end of the two groups of rotating plate 9 is respectively fixedly connected with the two groups of groove plates 4, the inside of the two groups of groove plates 4 is penetrated by a plurality of mounting shafts 11 and a plurality of connecting shafts 12, the side walls of the same side groups of the mounting shafts 11 are respectively provided with a roller 13 and a sleeve plate 14, a plurality of groups of ball rods 15 are respectively arranged on the side walls of the same side of the sleeve plates 14, a plurality of the same group of the ball rods 12 are respectively arranged on the side walls of the sleeve plates, a plurality of the same group of the ball rods 16 are respectively connected with a plurality of the side plates 16, a plurality of the side of the connecting shafts 16 are respectively arranged at the side of the side plates 20, a plurality of the side of the connecting shafts 16 are respectively arranged at the side of the side plates 20, the side of the connecting shafts are respectively, the side plates are respectively connected with a plurality of the front side plates 20, the front side plates 20 are respectively, the front side of the front end plates 20 and the two groups of the front end plates are respectively connected to be fixedly connected with a plurality of the front end plates 20, and are respectively connected with a front end plates 20, and one end 18, and one end plates 20 and are respectively connected respectively, and 20 and are respectively fixedly connected respectively, and 20 and are and installed at fixedly connected, the use practicability of the foundation for digging the mountain region photovoltaic bracket is improved.

In one embodiment, the plurality of sets of handles 22 are all made of a ferrous material to provide a guarantee for the attraction of the four sets of magnet plates.

In one embodiment, the connecting plate 25 is installed to the one end of pedal 6, and four sets of connecting holes 26 have been seted up to one side of connecting plate 25, the outer wall of embedded pipe 5 is provided with multiunit slot 24, and four sets of first connecting screw 27 are all installed to multiunit slot 24's inner wall, first coupling nut 28 has all been cup jointed to the lateral wall of four sets of first connecting screw 27 of homonymy, the inner wall of embedded pipe 5 is provided with built-in groove 29, and four sets of second connecting screw 30 are installed to the inner wall of built-in groove 29, second coupling nut 31 has all been cup jointed to the lateral wall of four sets of second connecting screw 30, through pedal 6 that sets up, the operation workman of being convenient for stands and operates at mountain slope 1, the operation of foundation is drawn to the mountain region photovoltaic support brings convenience.

In one embodiment, the same-side four sets of first connecting screws 27 and the same-side four sets of first connecting nuts 28 are in threaded engagement with each other, so as to facilitate adjustment of the use positions of the same-side four sets of first connecting nuts 28.

In one embodiment, the four sets of second connecting screws 30 and the four sets of second connecting nuts 31 are threaded to each other, so as to facilitate adjusting the use positions of the four sets of second connecting nuts 31.

In one embodiment, the two sets of mounting screws 8 and the four sets of mounting nuts 10 are threadedly engaged with each other, facilitating adjustment of the use positions of the four sets of mounting nuts 10.

Working principle:

Before the mountain photovoltaic bracket is used for digging a foundation, an operator firstly moves the embedded pipe 5 by hand, a plurality of groups of rollers 13 are under the friction force of the slope body 1 to drive a plurality of groups of installation shafts 11 to rotate respectively, when a group of installation shafts 11 on the same side rotate, a group of sleeved plates 14 on the same side can be driven to rotate, a group of rotating sleeved plates 14 on the same side can drive a plurality of groups of ball bars 15 on the same side to rotate, the rotating groups of ball bars 15 on the same side can sequentially strike a group of limit plates 16 on the same side, when the groups of ball bars 15 on the same side are separated from the group of limit plates 16 on the same side, a group of telescopic springs 19 on the same side can pull a group of limit plates 16 on the same side to reset and rotate, so that a plurality of ball bars 15 on the same side can sequentially strike the same side, a group of limit posts 17 on the same side can avoid the reverse rotation of the group of limit plates 16 on the same side, simultaneously, when two groups of groove plates 4 move to a proper position, the operator moves down four sets of handles 22 by hand, when four sets of inserting rods 21 are inserted into the slope body 1, the fixation of two sets of groove plates 4 and embedded pipes 5 is completed, the embedded pipes 5 for installing the photovoltaic brackets are conveniently moved to proper positions along the slope body 1 by the arranged groove plates 4, the use practicability of the mountain photovoltaic bracket digging foundation is improved, meanwhile, according to the operation, when the embedded pipes 5 are stably fixed, the operator can move the pedal 6 by hand, when the connecting plates 25 are inserted into the slots 24, the four first connecting screws 27 on the same side penetrate through the four connecting holes 26 respectively, the four first connecting screws 27 on the same side and the four first connecting nuts 28 on the same side are mutually matched in threads, the operator manually connects the four first connecting nuts 28 on the same side on the side wall of the four first connecting screws 27 on the same side in a clockwise manner, the installation work of pedal 6 is accomplished, this moment the operation workman can stand on pedal 6, the operation of digging pit is carried out to the inclined plane of the slope body 1, after the completion of digging pit, will dig foundation body 2 and set up inside the hole, four first connecting screw rods 27 of homonymy are lifted off anticlockwise again, afterwards, move into the inside of built-in groove 29 with connecting plate 25, when four second connecting screw rods 30 run through four sets of connecting holes 26 respectively, utilize four second connecting screw rods 30 and four second connecting screw rods 31 screw thread mutually support each other, the operation workman cup joints four second connecting screw rods 31 clockwise at the lateral wall of four second connecting screw rods 30 with the hand, two sets of installation screw rods 8 and four installation screw rods 10 screw threads mutually support of reuse, rotatory lift off four sets of installation screw rods 10, can take out two sets of rotor plates 9, accomplish the dismantlement work of two sets of recess plates 4, afterwards can insert the inside of preformed hole 3 with buried pipe, the concrete cooperation reinforcing bar is used again to accomplish the connection of digging foundation body 2 and pre-buried pipe 5, when accomplishing the connection of preformed pipe 5, the rainwater can get into the side wall of four second connecting screw rods 31 clockwise at four second connecting screw rods 30, the side wall of four sets of second connecting screw rods 30, the operation screw rods 10 with the side wall of four sets of installation screw rods 10 screw rods, the operation of foundation body is convenient for the operation of digging foundation is realized by the slope body, the operation of setting up the slope body is convenient for the foundation is lifted up by the mountain 1.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed, mechanically connected, electrically connected, directly connected, or indirectly connected through an intermediate medium, and may be a communication between two elements or an interaction relationship between two elements, unless explicitly specified otherwise, and it will be understood by those of ordinary skill in the art that the above terms are in specific terms of the present utility model as appropriate.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a mountain region photovoltaic support digs foundation, a serial communication port, including slope body (1), the inclined plane of slope body (1) is provided with digs foundation body (2) and two sets of recess board (4), the upper portion of digging foundation body (2) is provided with preformed hole (3), two sets of recess board (4) installs pre-buried pipe (5) in the top, and pedal (6) are installed to the side of pre-buried pipe (5), mounting panel (7) are all installed to the both ends inside of pre-buried pipe (5), two sets of mounting panel (7) keep away from the face and all install mounting screw (8), and two sets of the lateral wall of mounting screw (8) has all cup jointed rotor plate (9) and two sets of installation nut (10), two sets of the one end of rotor plate (9) respectively with two sets of recess board (4) fixed connection, two sets of recess board (4) inside all has multiunit installation axle (11) and multiunit connecting axle (12) through the bearing, with the side the installation axle (11) all install the face and all install multiunit ball arm (14) and the side wall (16) all cup joints the side wall (14) and the side wall (16) and all has cup jointed recess board (14) Multiunit spacing post (17) and multiunit fixed plate (18), homonymy a set of fixed plate (18) and homonymy a set of install extension spring (19) between limiting plate (16), four sets of the upper portion of locating plate (20) is all slipped and is run through has inserted bar (21), and four sets of handle (22) are all installed to the upper end of inserted bar (21), four sets of rectangular plate (23) are all installed on the upper portion of locating plate (20), and four sets of magnet board is all installed to the inside top surface of rectangular plate (23).

2. A mountain photovoltaic stand foundation according to claim 1, wherein the plurality of handles (22) are all made of ferrous material.

3. The mountain region photovoltaic support digs basis according to claim 1, characterized in that, connecting plate (25) is installed to the one end of pedal (6), and four sets of connecting holes (26) have been seted up to one side of connecting plate (25), the outer wall of pre-buried pipe (5) is provided with multiunit slot (24), and multiunit four sets of first connecting screw (27) are all installed to the inner wall of slot (24), and four sets of homonymy first connecting screw (27)'s lateral wall has all cup jointed first connecting nut (28), the inner wall of pre-buried pipe (5) is provided with built-in groove (29), and four sets of second connecting screw (30) are installed to the inner wall of built-in groove (29), and four sets of second connecting screw (30)'s lateral wall has all cup jointed second connecting nut (31).

4. A mountain photovoltaic bracket foundation according to claim 3, characterized in that the four sets of first connecting screws (27) on the same side and the four sets of first connecting nuts (28) on the same side are threaded with each other.

5. A mountain photovoltaic bracket excavation foundation according to claim 3, characterized in that four sets of said second connecting screws (30) and four sets of said second connecting nuts (31) are threadedly engaged with each other.

6. A mountain photovoltaic bracket foundation according to claim 1, characterized in that two sets of said mounting screws (8) and four sets of said mounting nuts (10) are threaded with each other.