CN113981852A

CN113981852A - Boundary pile positioner for urban development boundary

Info

Publication number: CN113981852A
Application number: CN202111252851.1A
Authority: CN
Inventors: 郭岭; 孙德芳; 高原; 张龙; 孙康平
Original assignee: Anhui Shangyuan Planning Consulting Co ltd
Current assignee: Anhui Shangyuan Planning Consulting Co ltd
Priority date: 2021-10-27
Filing date: 2021-10-27
Publication date: 2022-01-28

Abstract

The invention relates to the technical field of boundary pile positioners, in particular to a boundary pile positioner for a town development boundary, which comprises a cloud platform and a plurality of boundary pile bodies, wherein the boundary pile bodies are in communication connection with the cloud platform, each boundary pile body comprises a shell, an upper cover fixed on the shell, a cylinder body movably arranged in the shell up and down, a lifting driving mechanism used for driving the cylinder body to ascend or descend, a positioner, a controller and a storage battery which are arranged in the shell, a temperature sensing sensor and a first brightness sensing sensor which are embedded in the upper surface of the upper cover, and an electric valve arranged on the upper cover, wherein the lifting driving mechanism is used for driving the cylinder body to penetrate out of or retract into the shell from the electric valve; the invention is arranged under the ground, has longer service life, does not depend on a direct current power supply, and has more stable and reliable use.

Description

Boundary pile positioner for urban development boundary

Technical Field

The invention relates to the technical field of boundary pile positioners, in particular to a boundary pile positioner for an urban development boundary.

Background

The town development boundary refers to the boundary of a town centralized continuous development construction area within a certain planning period, and the division of the town development boundary is an important measure for controlling the disordered spread of towns. In order to control the spread of towns, a plurality of boundary pile positioners are required to be arranged at the development boundary of the towns for planning the development boundary of the towns.

However, the existing boundary pillar positioner has the following problems: firstly, the existing boundary pile positioner is arranged on the ground, so that the normal trip of people is seriously influenced, and the service life of the boundary pile positioner is greatly shortened due to the fact that birds and beasts or people are easily damaged; secondly, current intelligent boundary pile locator all needs direct current power supply circular telegram just can stably use, in case take place local area cable damage, boundary pile locator then can't normally work, seriously influences the normal use of boundary pile locator.

Disclosure of Invention

The invention aims to overcome the defects, and provides the boundary pile positioner which is arranged under the ground, has longer service life, does not depend on a direct-current power supply, and is more stable and reliable to use.

In order to achieve the purpose, the invention adopts the following technical scheme:

a boundary pile positioner for a town development boundary comprises a cloud platform and a plurality of boundary pile bodies which are in communication connection with the cloud platform, wherein each boundary pile body comprises a shell, an upper cover fixed on the shell, a cylinder body movably arranged in the shell up and down, a lifting driving mechanism used for driving the cylinder body to ascend or descend, a positioner, a controller and a storage battery which are arranged in the shell, a temperature sensing sensor and a first brightness sensing sensor which are embedded on the upper surface of the upper cover, and an electric valve arranged on the upper cover, the lifting driving mechanism is used for driving the cylinder body to penetrate out of or retract into the shell through the electric valve, and the bottom end of the lifting driving mechanism is fixedly connected in the shell; the column body comprises a bottom column, a charging column which is coaxially and rotatably connected with the bottom column, and a rotary driving mechanism which is used for driving the charging column to rotate, a through groove is vertically arranged on the charging post, a solar charging component is movably arranged in the through groove, a transverse driving mechanism used for driving the solar charging component to extend out of or retract into the through groove, and a plurality of second luminance induction sensors arranged on the outer side wall of the charging post, the second brightness induction sensor is arranged close to the top end of the charging post, the output end of the solar charging assembly is electrically connected with the output end of the storage battery, the lifting driving mechanism, the positioner, the storage battery, the temperature sensing sensor, the first brightness sensing sensor, the electric valve, the rotary driving mechanism, the transverse driving mechanism and the second brightness sensing sensor are all electrically connected with the controller.

Further, the top of post that charges is equipped with human proximity sensor, human proximity sensor electric connection the controller.

Further, solar charging subassembly is including just to first mounting panel and the second mounting panel that sets up, the front and the reverse side of first mounting panel and second mounting panel all inlay and are equipped with polylith solar panel, the polylith solar panel connects in parallel.

Further, horizontal actuating mechanism includes fixed connection and is in lead to the mount pad of inslot, and the parallel is located first horizontal electric telescopic handle and the horizontal electric telescopic handle of second in the mount pad, the piston rod pole head level of first horizontal electric telescopic handle stretches out the drive right and is connected with the right side connecting seat, the top fixed connection of first mounting panel the right side connecting seat, the piston rod pole head level of the horizontal electric telescopic handle of second stretches out the drive left and is connected with the left side connecting seat, the top fixed connection of second mounting panel the left side connecting seat.

Further, lift actuating mechanism includes lift electric telescopic handle, lift electric telescopic handle's bottom mounting is in the casing bottom, lift electric telescopic handle's piston rod pole head is vertical stretches out the drive upwards and is connected the bottom of cylinder.

Further, the rotary driving mechanism is a rotary motor arranged in the bottom column, and an output shaft of the rotary motor vertically penetrates out of the bottom column from the top end of the bottom column upwards and is connected with the bottom end of the charging column in a driving mode.

Furthermore, the number of the second brightness induction sensors is four, and the four second brightness induction sensors are distributed at equal angles respectively by taking the axis of the charging column as a center.

The invention has the beneficial effects that:

according to the technical scheme, the invention has the beneficial effects that:

firstly, during installation, a plurality of boundary pile bodies are embedded along the boundary of a town centralized piece-connecting development and construction area, so that the upper surface of an upper cover is flush with the ground, and the plurality of boundary pile bodies are in communication connection with a cloud platform; when the solar energy charging device is used, the boundary pile body is positioned through the positioner, the external temperature and the brightness are monitored through the temperature sensing sensor and the first brightness sensing sensor in real time, the detection result is sent to the controller, when the external temperature and the brightness are high enough, the controller controls the electric valve to be opened, the lifting driving mechanism drives the cylinder body to extend out of the shell from the electric valve, the charging column is made to stand on the ground, the solar energy charging assembly is driven by the transverse driving mechanism to extend out of the through groove, solar energy is converted into light energy through the solar energy charging assembly to be stored in the storage battery, and the storage battery supplies power to the controller; secondly, the direction with the strongest external light is detected through the second brightness induction sensor, the detection result is sent to the controller, the controller drives the charging post to rotate through controlling the rotary driving mechanism, the illumination direction of the solar charging assembly on the charging post is adjusted, and the light energy conversion efficiency is higher;

after charging is finished, the controller controls the transverse driving mechanism to drive the solar charging assembly to retract into the through groove, the lifting driving mechanism drives the column body to retract into the shell from the electric valve, and the electric valve is automatically closed;

the invention is arranged under the ground, has longer service life, does not depend on a direct current power supply, and has more stable and reliable use.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the column of the present invention;

FIG. 3 is a front view of the column of the present invention;

FIG. 4 is a cross-sectional view taken at A-A in FIG. 3

Reference numerals: a housing 1; an upper cover 101; a cylinder 2; a bottom pillar 201; a charging post 202; a through groove 2021; a lifting drive mechanism 3; a positioner 4; a controller 5; a storage battery 6; a temperature-sensitive sensor 7; a first luminance sensing sensor 8; an electrically operated valve 9; a rotation driving mechanism 10; a solar charging assembly 11; a first mounting plate 1101; a second mounting plate 1102; a solar panel 1103; a lateral drive mechanism 12; a mounting seat 1201; a first lateral electric telescopic rod 1202; a second transverse electric telescopic rod 1203; a right connector seat 1204; a left connection mount 1205; a second luminance sensing sensor 13; the human body approaches the sensor 14.

Detailed Description

Referring to fig. 1, 2, 3 and 4, the embodiment provides a boundary pile locator for a town development boundary, including a cloud platform and a plurality of boundary pile bodies communicatively connected to the cloud platform, the boundary pile body comprises a shell 1, an upper cover 101 fixed on the shell 1, a column body 2 movably arranged in the shell 1 up and down, a lifting driving mechanism 3 used for driving the column body 2 to ascend or descend, a positioner 4, a controller 5 and a storage battery 6 arranged in the shell 1, a temperature induction sensor 7 and a first brightness induction sensor 8 embedded on the upper surface of the upper cover 101, and an electric valve 9 arranged on the upper cover 101, the lifting driving mechanism 3 is used for driving the cylinder 2 to penetrate out of or retract into the shell 1 from the electric valve 9, and the bottom end of the lifting driving mechanism 3 is fixedly connected in the shell 1; the column body 2 comprises a bottom column 201, a charging column 202 coaxially and rotatably connected to the bottom column 201 and a rotary driving mechanism 10 for driving the charging column 202 to rotate, a through groove 2021 is vertically formed in the charging column 202, a solar charging assembly 11 is movably arranged in the through groove 2021 and used for driving the solar charging assembly 11 to extend out or retract into a transverse driving mechanism 12 adopted by the through groove 2021 and a plurality of second brightness induction sensors 13 arranged on the outer side wall of the charging column 202, the second brightness induction sensors 13 are arranged close to the top end of the charging column 202, the output end of the solar charging assembly 11 is electrically connected with the output end of the storage battery 6, and the lifting driving mechanism 3, the positioner 4, the storage battery 6, the temperature induction sensor 7, the first brightness induction sensor 8, the electric valve 9, the rotary driving mechanism 10, The transverse driving mechanism 12 and the second luminance sensing sensor 13 are both electrically connected to the controller 5.

During installation, a plurality of boundary pile bodies are embedded along the boundary of a town centralized piece-connecting development and construction area, so that the upper surface of the upper cover 101 is flush with the ground, and the plurality of boundary pile bodies are in communication connection with the cloud platform; when the solar energy charging device is used, the boundary pile body is positioned through the positioner 4, the external temperature and the brightness are monitored through the temperature sensing sensor 7 and the first brightness sensing sensor 8 at any time, the detection result is sent to the controller 5, when the external temperature and the brightness are high enough, the controller 5 controls the electric valve 9 to be opened, the lifting driving mechanism 3 drives the column body 2 to extend out of the shell 1 from the electric valve 9, the charging column 202 is made to stand on the ground, the solar energy charging assembly 11 is driven to extend out of the through groove 2021 through the transverse driving mechanism 12, solar energy is converted into light energy through the solar energy charging assembly 11 to be stored in the storage battery 6, and the storage battery 6 supplies power to the controller 5; the direction with the strongest external light is detected through the second brightness induction sensor 13, the detection result is sent to the controller 5, the controller 5 drives the charging post 202 to rotate by controlling the rotary driving mechanism 10, the illumination direction of the solar charging assembly 11 on the charging post 202 is adjusted, and the light energy conversion efficiency is higher; after charging, the controller 5 controls the transverse driving mechanism 12 to drive the solar charging assembly 11 to retract into the through groove 2021, the lifting driving mechanism 3 drives the column 2 to retract into the shell 1 from the electric valve 9, and the electric valve 9 is automatically closed; the invention is arranged under the ground, has longer service life, does not depend on a direct current power supply, and has more stable and reliable use.

Referring to fig. 1, 2, 3 and 4, a human body proximity sensor 14 is disposed at a top end of the charging post 202, and the human body proximity sensor 14 is electrically connected to the controller 5; in this embodiment, whether someone approaches the charging column 202 is continuously monitored through the human body proximity sensor 14, once someone is sensed to approach, the controller 5 controls the horizontal driving mechanism 12 to drive the solar charging assembly 11 to retract into the through groove 2021, the lifting driving mechanism 3 drives the column body 2 to retract into the casing 1 from the electric valve 9, and the electric valve 9 is automatically closed, so that the charging column 202 is effectively prevented from being damaged.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the solar charging assembly 11 includes a first mounting plate 1101 and a second mounting plate 1102 which are oppositely disposed, a plurality of solar panels 1103 are embedded in front and back surfaces of the first mounting plate 1101 and the second mounting plate 1102, and the plurality of solar panels 1103 are connected in parallel; in this embodiment, through first mounting panel 1101 and second mounting panel 1102 installation solar panel 1103, parallelly connected through polylith solar panel 1103, the effect of charging is better.

Referring to fig. 1, 2, 3 and 4, the transverse driving mechanism 12 includes a mounting base 1201 fixedly connected in the through slot 2021, and a first transverse electric telescopic rod 1202 and a second transverse electric telescopic rod 1203 parallelly disposed in the mounting base 1201, a piston rod head of the first transverse electric telescopic rod 1202 horizontally extends rightward to be drivingly connected with a right connecting base 1204, a top end of the first mounting plate 1101 is fixedly connected with the right connecting base 1204, a piston rod head of the second transverse electric telescopic rod 1203 horizontally extends leftward to be drivingly connected with a left connecting base 1205, and a top end of the second mounting plate 1102 is fixedly connected with the left connecting base 1205; in this embodiment, the first transverse electric telescopic rod 1202 and the second transverse electric telescopic rod 1203 are installed through the installation seat 1201, and the right connection seat 1204 is driven to drive the first installation plate 1101 to extend out of or retract into the through groove 2021 through the extension and retraction of the rod head of the piston rod of the first transverse electric telescopic rod 1202; the piston rod head of the second horizontal electric telescopic rod 1203 stretches out and draws back, drives the left connecting seat 1205 and drives the second mounting plate 1102 and the second mounting plate 1102.

Referring to fig. 1, 2, 3 and 4, the lifting driving mechanism 3 includes a lifting electric telescopic rod, a bottom end of the lifting electric telescopic rod is fixed at the bottom of the housing 1, and a rod head of a piston rod of the lifting electric telescopic rod extends vertically upwards to be connected with a bottom end of the column 2 in a driving manner; in this embodiment, the rod head of the piston rod of the lifting electric telescopic rod extends and retracts to drive the column body 2 to extend or retract into the shell 1.

Referring to fig. 1, 2, 3 and 4, the rotation driving mechanism 10 is a rotating motor disposed in the bottom pillar 201, and an output shaft of the rotating motor vertically penetrates upward through the top end of the bottom pillar 201 and then is drivingly connected to the bottom end of the charging pillar 202; in this embodiment, the direction of the strongest external light is detected by the second luminance sensing sensor 13, and the detection result is sent to the controller 5, the controller 5 drives the charging post 202 to rotate by controlling the rotating motor, the illumination direction of the solar charging assembly 11 on the charging post 202 is adjusted, and the light energy conversion efficiency is higher.

Referring to fig. 1, 2, 3 and 4, four second luminance sensing sensors 13 are provided, and the four second luminance sensing sensors 13 are respectively distributed at equal angles around the axis of the charging post 202; in this embodiment, through setting up four second luminance inductive sensor 13, make second luminance inductive sensor 13 detectable cylinder 2 illumination intensity all around, illumination intensity's detection effect is better.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the described embodiments may be made by those skilled in the art without departing from the scope and spirit of the invention as defined by the accompanying claims.

Claims

1. The utility model provides a boundary stake locator is used on town development border which characterized in that: comprises a cloud platform and a plurality of boundary pile bodies which are in communication connection with the cloud platform, wherein each boundary pile body comprises a shell (1), an upper cover (101) fixed on the shell (1), and a column body (2) which is movably arranged in the shell (1) from top to bottom, a lifting driving mechanism (3) used for driving the column body (2) to ascend or descend, a positioner (4), a controller (5) and a storage battery (6) which are arranged in the shell (1), a temperature induction sensor (7) and a first brightness induction sensor (8) which are embedded on the upper surface of the upper cover (101), and an electric valve (9) which is arranged on the upper cover (101), the lifting driving mechanism (3) is used for driving the cylinder (2) to penetrate out of the electric valve (9) or retract into the shell (1), the bottom end of the lifting driving mechanism (3) is fixedly connected in the shell (1);

the column body (2) comprises a bottom column (201), a charging column (202) coaxially and rotatably connected to the bottom column (201) and used for driving the rotation driving mechanism (10) adopted by the rotation of the charging column (202), a through groove (2021) is vertically formed in the charging column (202), a solar charging assembly (11) is movably arranged in the through groove (2021) and used for driving the solar charging assembly (11) to extend out or retract into a transverse driving mechanism (12) adopted by the through groove (2021) and a plurality of second brightness induction sensors (13) arranged on the outer side wall of the charging column (202), the second brightness induction sensors (13) are arranged close to the top end of the charging column (202), the output end of the solar charging assembly (11) is electrically connected with the output end of the storage battery (6), and the lifting driving mechanism (3), The positioner (4), the storage battery (6), the temperature sensing sensor (7), the first brightness sensing sensor (8), the electric valve (9), the rotary driving mechanism (10), the transverse driving mechanism (12) and the second brightness sensing sensor (13) are all electrically connected with the controller (5).

2. The delimitation pile locator for the town development boundary according to claim 1, characterized in that: the top of post (202) charges is equipped with human proximity sensor (14), human proximity sensor (14) electric connection controller (5).

3. The delimitation pile locator for the town development boundary according to claim 1, characterized in that: solar charging subassembly (11) are including just to first mounting panel (1101) and second mounting panel (1102) that set up, the front and the reverse side of first mounting panel (1101) and second mounting panel (1102) all inlay and are equipped with polylith solar panel (1103), polylith solar panel (1103) are parallelly connected.

4. The delimitation stake locator for the town development boundary of claim 3, wherein: horizontal actuating mechanism (12) include fixed connection and are in mount pad (1201) in leading to groove (2021), the parallel is located first horizontal electric telescopic handle (1202) and the horizontal electric telescopic handle (1203) of second in mount pad (1201), the piston rod head level of first horizontal electric telescopic handle (1202) stretches out the drive right and is connected with right side connecting seat (1204), the top fixed connection of first mounting panel (1101) right side connecting seat (1204), the piston rod head level of the horizontal electric telescopic handle (1203) of second stretches out the drive left and is connected with left side connecting seat (1205), the top fixed connection of second mounting panel (1102) left side connecting seat (1205).

5. The delimitation pile locator for the town development boundary according to claim 1, characterized in that: the lifting driving mechanism (3) comprises a lifting electric telescopic rod, the bottom end of the lifting electric telescopic rod is fixed to the bottom of the shell (1), and a piston rod head of the lifting electric telescopic rod vertically extends upwards to drive and connect with the bottom end of the column body (2).

6. The delimitation pile locator for the town development boundary according to claim 1, characterized in that: the rotary driving mechanism (10) is a rotary motor arranged in the bottom column (201), and an output shaft of the rotary motor vertically penetrates out of the bottom column (201) from the top end and is connected with the bottom end of the charging column (202) in a driving mode.

7. The delimitation pile locator for the town development boundary according to claim 1, characterized in that: the number of the second brightness induction sensors (13) is four, and the four second brightness induction sensors (13) are distributed at equal angles by taking the axis of the charging column (202) as the center.