CN117373158A

CN117373158A - Intelligent energy-saving access control system

Info

Publication number: CN117373158A
Application number: CN202311309673.0A
Authority: CN
Inventors: 牟隽; 林星运; 王东
Original assignee: Foshan Yiaoyue Technology Co ltd
Current assignee: Foshan Yiaoyue Technology Co ltd
Priority date: 2023-10-11
Filing date: 2023-10-11
Publication date: 2024-01-09

Abstract

The invention discloses an intelligent energy-saving access control system, which comprises a ground beam, wherein the ground beam is fixed in the ground, vertical pipes are fixedly arranged on the front side and the rear side of the ground beam, a controller for driving a camera is fixedly arranged above one of the vertical pipes, the controller comprises a memory, and personnel images are stored in the memory; each vertical pipe is provided with a fence component, a first pedal plate in a shape of a Chinese character kou is connected between the two vertical pipes in a sliding manner along the vertical direction in the ground beam, a pedal platform is arranged in the first pedal plate in the ground beam, and a second pedal plate is connected in a sliding manner along the vertical direction; a transmission assembly connected with the first pedal, the second pedal and the fence assembly is arranged in the vertical pipe; the intelligent energy-saving access control system is simple in structure, safe and reliable and can prevent foreign personnel.

Description

Intelligent energy-saving access control system

Technical Field

The invention relates to the technical field of intelligent access control systems, in particular to an intelligent energy-saving access control system.

Background

Entrance and exit access security management is a requisite configuration of modern urban community units. The community here refers to: for a period of time, a group of people with relatively stable identities may be physically located as a result of social activities such as living, work, learning, travel, medical, training, etc., including, but not limited to: residential communities, office buildings, schools, hotels, apartments, dormitories, hospitals, meetings, convention centers, vacation villages, and the like. With the continuous development of technology, various intelligent access control systems have appeared, when people need to pass through the access control, the door opening actions can be realized by means of mechanical keys, wireless remote control, contact or non-contact card swiping, password input, fingerprint scanning, face recognition and the like, and with the improvement of the living standard of people, the safety in residential communities is also important, so that most communities are all applied with the intelligent access control systems; when entering a cell, the foreign personnel can not enter the cell because the face information or the fingerprint information of the foreign personnel is not recorded in the intelligent system, but when the intelligent access control system is used at present, the foreign personnel generally enter the cell in a following way when householders in the cell enter the cell through the intelligent access control system, and the foreign personnel can still enter the cell regardless of the access control system due to the fact that the daily flow of the people is large, so that the safety in the cell is greatly influenced.

Disclosure of Invention

The invention aims to provide an intelligent energy-saving access control system which is simple in structure, safe and reliable and can prevent foreign personnel.

In order to achieve the above purpose, the present invention provides the following technical solutions: the intelligent energy-saving access control system comprises a ground beam which is fixed in the ground, wherein vertical pipes are fixedly arranged on the front side and the rear side of the ground beam, a controller for driving a camera is fixedly arranged above one of the vertical pipes, the controller comprises a memory, and personnel images are stored in the memory; each vertical pipe is provided with a fence component, a first pedal plate in a shape of a Chinese character kou is connected between the two vertical pipes in a sliding manner along the vertical direction in the ground beam, a pedal platform is arranged in the first pedal plate in the ground beam, and a second pedal plate is connected in a sliding manner along the vertical direction; a transmission assembly connected with the first pedal, the second pedal and the fence assembly is arranged in the vertical pipe; when the first pedal and the second pedal are at the upper end positions, the upper end surfaces of the first pedal, the second pedal, the ground beam and the pedal platform are all in horizontal coplanarity; when the first pedal is at the upper end position and the second pedal is at the lower end position, the transmission assembly controls the fence assembly to be in an open state; when the first pedal is at the lower end position, the transmission assembly controls the fence assembly to be in a closed state.

Further, the fence component comprises a shearing fork mechanism, a rotating shaft which is rotationally connected in the vertical pipe is fixedly arranged at the lower end of the shearing fork mechanism, which is close to the vertical pipe, and a first sliding block which is slidingly connected in the vertical pipe along the vertical direction is fixedly arranged at the upper end of the shearing fork mechanism, which is close to the vertical pipe; the lower end of the shearing fork mechanism, which is far away from the vertical pipe, is hinged with a vertical rod, and the upper end of the shearing fork mechanism, which is far away from the vertical pipe, is fixedly provided with a first sliding pin which is connected in the vertical rod in a sliding way along the vertical direction; when the fence component is closed, the rotating shaft rotates, and the shearing fork mechanism drives the vertical rod to be far away from the vertical pipe; when the fence component is opened, the rotating shaft reversely rotates, and the shearing fork mechanism drives the vertical rod to be close to the vertical pipe.

Further, first vertical grooves are formed in the ground beam, right and left sides of the first pedal are respectively provided with a first protruding rod extending downwards into the first vertical grooves, first convex edges are respectively arranged at the lower ends of the first protruding rods extending into the first vertical grooves, and a first spring for forcing the first pedal to move upwards is sleeved on each first protruding rod in the ground beam; the ground beam is internally provided with a second vertical groove along the vertical direction under the second pedal, the second pedal is fixedly provided with a second protruding rod which downwards extends into the second vertical groove, the lower end of the second protruding rod which downwards extends into the second vertical groove is provided with a second convex edge, and the ground beam is internally provided with second springs which are used for forcing the second pedal to move upwards in a sleeved mode.

Further, the transmission assembly comprises a turnover rod fixedly arranged on the rotating shaft, and a tension spring is fixedly arranged in the vertical tube and used for forcing the turnover rod to drive the rotating shaft to rotate; a third vertical groove communicated with the vertical pipe is formed in the ground beam, close to the vertical pipe, in the vertical direction, a third protruding rod extending downwards into the third vertical groove is fixedly arranged on the second pedal, and a baffle plate positioned at the lower end of the turning rod is arranged at the lower end of the third protruding rod extending into the third vertical groove; a third spring for forcing the second pedal to move upwards is sleeved on each third protruding rod in the ground beam; when the second pedal is at the upper end position and the overturning rod is in the vertical state, the lower end of the overturning rod is abutted against the end part of the baffle, the overturning rod drives the fence component to be in the closed state through the rotating shaft, at the moment, when the first pedal is at the upper end position and the second pedal is stepped down to drive the baffle to move downwards to the lower end position, the overturning rod drives the rotating shaft to rotate under the action of the tension spring, and the rotating shaft drives the fence component to be opened.

Further, a vertical sliding plate is connected in the vertical pipe in a sliding manner along the vertical direction, a protruding block perpendicular to the overturning rod is arranged at the upper end of the overturning rod, an upper horizontal plate positioned at the upper end of the protruding block is arranged at the upper end of the vertical sliding plate, and a lower connecting block positioned below the first pedal is arranged at the lower end of the vertical sliding plate; when the fence component is in an open state and the first pedal moves downwards, the first pedal drives the lower connecting block to move downwards, the lower connecting block drives the upper horizontal plate to move downwards through the vertical sliding plate, the upper horizontal plate pushes the lug to drive the turning rod to rotate towards the vertical direction, and the turning rod drives the fence component to be closed through the rotating shaft.

Further, be equipped with the horizontal spout that communicates with first vertical groove and second vertical groove along left and right directions in the girder, along left and right directions sliding connection there being the switch board in the horizontal spout, the left end and the right-hand member of switch board are equipped with the first inclined plane that is located first vertical inslot respectively, the middle part of switch board is equipped with the second inclined plane, girder internal fixation is equipped with first electric putter, first electric putter is used for controlling the switch board left or right motion, when first electric putter control switch board left motion, first inclined plane and first chimb cooperation control first pedal are in the upper end position, and second inclined plane and second chimb cooperation control second pedal are in the lower extreme position.

Further, a second electric push rod is fixedly arranged above the upper horizontal plate in each vertical pipe, and the upper horizontal plate is pushed to move downwards when the second electric push rod stretches out.

Further, the controller is connected with the first electric putter and the second electric putter electricity, when pushing away perambulator or bicycle class volume entering entrance guard, the camera scans personnel's face and send to the controller, and the controller compares the facial and the personnel image of storage of sweeping, confirms to be after the personnel in this district, and control first electric putter stretches out and the shrink of second electric putter, after personnel passes through the entrance guard, the shrink of first electric putter of controller control and second electric putter stretch out.

Advantageous effects

Compared with the prior art, the technical scheme of the invention has the following advantages:

1. the two groups of fence components are respectively arranged on the two vertical pipes, and the two groups of fence components are stretched out and are aligned together by controlling the scissor mechanism, so that the middle of the vertical pipes can be shielded, further, the quick door closing is realized, and the tail entering of external personnel is avoided;

2. the first pedal and the second pedal are arranged on the ground beam, so that when a person who needs to step on different pedals, the door control is in different on-off states, when the person steps on the second pedal alone, the door control is opened, when the person steps on the first pedal after entering, the door control is closed, and the door control is automatically opened and closed without electric control and energy conservation in the process of passing the person;

3. by arranging the first foot pedal and the second foot pedal on the ground beam, when a person passes through, if an external person is trailing, the second foot pedal is smaller and can only accommodate normal stepping by one person, so that the external person trailing can not be stepped on the first foot pedal, the entrance guard can not be opened, the entrance guard can be opened only after the trailing person is retreated, and when the person passes through and comes to the first foot pedal, the entrance guard can be closed, thus the entrance of the external person can be prevented, and the safety is improved;

4. the invention not only can control the entrance guard switch by stepping by personnel, but also can control the entrance guard switch by the controller, so that the entrance guard control is more convenient, the function is comprehensive, the existing problems are avoided, and the function is powerful.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view taken along the direction A-A in FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view taken along the direction B-B in FIG. 2 in accordance with the present invention;

FIG. 4 is a cross-sectional view taken along the direction C-C in FIG. 2 in accordance with the present invention;

FIG. 5 is an enlarged view of the invention at I in FIG. 3;

FIG. 6 is an enlarged view of the entrance guard of FIG. 3 at I when the entrance guard is in an open state;

fig. 7 is a front view of the door of the present invention when the door is opened.

Detailed Description

Referring to fig. 1-7, an intelligent energy-saving access control system comprises a ground beam 11 which is fixed in the ground, wherein vertical pipes 12 are fixedly arranged on the front side and the rear side of the ground beam 11, a controller 2 for driving a camera is fixedly arranged above one of the vertical pipes 12, the controller 2 comprises a memory, and personnel images are stored in the memory; each vertical pipe 12 is provided with a fence component, a first foot pedal 41 in a shape of a Chinese character kou is slidingly connected between the two vertical pipes 12 in the vertical direction in the ground beam 11, a foot pedal platform 111 is arranged in the first foot pedal 41 in the ground beam 11, and a second foot pedal 42 is slidingly connected in the vertical direction; a first pedal 41, a second pedal 42 and a transmission assembly connected with the fence assembly are arranged in the vertical pipe 12; when the first foot pedal 41 and the second foot pedal 42 are both at the upper end positions, the upper end surfaces of the first foot pedal 41, the second foot pedal 42, the ground beam 11 and the foot pedal platform 111 are all in horizontal coplanarity; when the first pedal 41 is at the upper end position and the second pedal 42 is at the lower end position, the transmission assembly controls the fence assembly to be in an open state; with the first foot pedal 41 in the lower position, the transmission assembly controls the barrier assembly to be in a closed state.

The fence component comprises a shearing fork mechanism 3, a rotating shaft 32 which is rotationally connected in the vertical pipe 12 is fixedly arranged at the lower end of the shearing fork mechanism 3 close to the vertical pipe 12, and a first sliding block 33 which is slidingly connected in the vertical pipe 12 along the vertical direction is fixedly arranged at the upper end close to the vertical pipe 12; the lower end of the shearing fork mechanism 3 far away from the vertical pipe 12 is hinged with a vertical rod 34, and the upper end far away from the vertical pipe 12 is fixedly provided with a first sliding pin 35 which is connected in the vertical rod 34 in a sliding manner along the vertical direction; when the fence component is closed, the rotating shaft 32 rotates, and the shearing mechanism 3 drives the vertical rod 34 to be far away from the vertical pipe 12; when the fence assembly is opened, the rotating shaft 32 rotates reversely, and the shearing mechanism 3 drives the vertical rod 34 to approach the vertical pipe 12.

The ground beam 11 is internally provided with first vertical grooves 7a along the vertical direction right below the left side and the right side of the first foot pedal 41, the first foot pedal 41 is fixedly provided with first convex rods 41a which extend downwards into the first vertical grooves 7a, the lower ends of the first convex rods 41a which extend into the first vertical grooves 7a are respectively provided with a first convex edge 411, and each first convex rod 41a in the ground beam 11 is sleeved with a first spring 431 for forcing the first foot pedal 41 to move upwards; the ground beam 11 is internally provided with a second vertical groove 7b under the second foot pedal 42 along the vertical direction, the second foot pedal 42 is fixedly provided with a second protruding rod 42b which downwards extends into the second vertical groove 7b, the lower end of the second protruding rod 42b which downwards extends into the second vertical groove 7b is provided with a second convex edge 421, and the ground beam 11 is internally sleeved with a second spring 433 which is used for forcing the second foot pedal 42 to move upwards on the second protruding rod 42 b.

The transmission assembly comprises a turnover rod 61 fixedly arranged on the rotating shaft 32, a tension spring 64 is fixedly arranged in the vertical tube 12, and the tension spring 64 is used for forcing the turnover rod 61 to drive the rotating shaft 32 to rotate; a third vertical groove 7c communicated with the vertical pipe 12 is formed in the ground beam 11 near the vertical pipe 12 in the vertical direction, a third protruding rod 42a extending downwards into the third vertical groove 7c is fixedly arranged on the second foot pedal 42, and a baffle 422 positioned at the lower end of the turnover rod 61 is arranged at the lower end of the third protruding rod 42a extending into the third vertical groove 7 c; a third spring 435 for forcing the second foot pedal 42 to move upwards is sleeved on each third protruding rod 42a in the ground beam 11; when the second pedal 42 is at the upper end position and the overturning rod 61 is in the vertical state, the lower end of the overturning rod 61 is abutted against the end part of the baffle 422, the overturning rod 61 drives the fence component to be in the closed state through the rotating shaft 32, and at the moment, when the first pedal 41 is at the upper end position and the second pedal 42 is stepped down to drive the baffle 422 to move downwards to the lower end position, the overturning rod 61 drives the rotating shaft 32 to rotate under the action of the tension spring 64, and the rotating shaft 32 drives the fence component to be opened. A vertical sliding plate 62 is slidably connected in the vertical pipe 12 along the vertical direction, a protruding block 61a perpendicular to the overturning rod 61 is arranged at the upper end of the overturning rod 61, an upper horizontal plate 621 positioned at the upper end of the protruding block 61a is arranged at the upper end of the vertical sliding plate 62, and a lower connecting block 62a positioned below the first pedal 41 is arranged at the lower end of the vertical sliding plate; when the fence assembly is in an open state and the first pedal 41 moves downwards, the first pedal 41 drives the lower connecting block 62a to move downwards, the lower connecting block 62a drives the upper horizontal plate 621 to move downwards through the vertical sliding plate 62, the upper horizontal plate 621 pushes the protruding block 61a to drive the turning rod 61 to rotate in the vertical direction, and the turning rod 61 drives the fence assembly to be closed through the rotating shaft 32.

The horizontal chute communicated with the first vertical groove 7a and the second vertical groove 7b is arranged in the ground beam 11 along the left-right direction, the switch plate 51 is slidably connected in the horizontal chute along the left-right direction, the left end and the right end of the switch plate 51 are respectively provided with a first inclined surface 511 positioned in the first vertical groove 7a, the middle part of the switch plate 51 is provided with a second inclined surface 513, the ground beam 11 is internally and fixedly provided with a first electric push rod 52, the first electric push rod 52 is used for controlling the switch plate 51 to move leftwards or rightwards, when the first electric push rod 52 controls the switch plate 51 to move leftwards, the first inclined surface 511 and the first convex edge 411 are matched to control the first pedal 41 to be at an upper end position, and the second inclined surface 513 and the second convex edge 421 are matched to control the second pedal 42 to be at a lower end position. A second electric push rod 63 is fixedly arranged above the upper horizontal plate 621 in each vertical pipe 12, and the second electric push rod 63 pushes the upper horizontal plate 621 to move downwards when extending.

The controller 2 is electrically connected with the first electric push rod 52 and the second electric push rod 63, when the baby carriage or the bicycle enters the entrance guard, the camera scans the face of the person and sends the face to the controller 2, the controller 2 compares the face of the scanned face with the stored person image, after the person is determined to be the person in the district, the controller 2 controls the first electric push rod 52 to extend and the second electric push rod 63 to shrink, and after the person passes through the entrance guard, the controller 2 controls the first electric push rod 52 to shrink and the second electric push rod 63 to extend.

The working principle of the invention is as follows: when the personnel in the district passes through the invention (passes from left to right in fig. 2), firstly, the camera of the controller 2 scans and analyzes the face of the passing personnel, after the personnel in the district is determined, the first electric push rod 52 and the second electric push rod 63 are controlled to be kept at the contracted positions (as shown in fig. 2 and 3), so that the invention is in a manual opening and closing state, the electromagnet on the vertical rod 34 is controlled to be powered off, the two vertical rods 34 are not clung, then the personnel walk forwards, when the passing personnel steps on the first pedal 41, the first pedal 41 is pressed by the weight of the personnel, the two first springs 431 are overcome to move downwards, the lower connecting block 62a is pushed to drive the vertical slide plate 62 to move downwards, the vertical slide plate 62 is kept at the lower position, the lug 61a is pushed by the upper horizontal plate 621 to drive the turning rod 61 to be kept at the position shown in fig. 5, the rotating shaft 32 is prevented from rotating, the shearing fork mechanism 3 is prevented from stretching, and the door guard is kept in the closed state.

When a person leaves the first pedal 41 and steps on the second pedal 42, the first pedal 41 is reset under the action of the first spring 431, the second pedal 42 is pressed by the weight of the person, the second spring 433 and the third spring 435 are overcome, the baffle 422 is further driven to move downwards, the turning rod 61 is unlocked, the turning rod 61 is driven to rotate under the action of the tension spring 64, the rotating shaft 32 is driven to rotate (as shown in fig. 6), the scissor mechanism 3 is driven to retract due to the rotation of the connecting rod 31 on the scissor mechanism 3, and the first sliding pin 35 is in sliding fit in the groove 341 due to the sliding of the first sliding block in the groove 121, and then the vertical rod 34 is driven to move to two sides when the scissor mechanism 3 is retracted, so that the door is opened by the person; if a trailing person follows the person while the passing person steps on the second foot pedal 42, the trailing person has to step on the first foot pedal 41 because the second foot pedal 42 is small, the first foot pedal 41 moves downward against the first spring 431, thereby pushing the vertical slide plate 62 downward so that the vertical slide plate 62 is kept in the lower position, and the turning rod 61 is kept in the position shown in fig. 5 by pushing the upper horizontal plate 621 so that the scissors mechanism 3 does not shrink, the entrance guard does not open, and the entrance guard can be opened only after the trailing person is retracted.

When a person arrives at the footrest 111 through the entrance guard, the pawl 61 is kept at the position shown in fig. 6 by the tension spring 64, so that the entrance guard is kept open and the person can pass smoothly.

When a person arrives at the first pedal 41 on the right side from the pedal platform 111, the weight of the person presses the first pedal 41 to overcome the first spring 431 to move downwards, so that the vertical sliding plate 62 is pushed to move downwards, the vertical sliding plate 62 moves to the lower position, the upper horizontal plate 621 pushes the turning rod 61 to rotate, the rotating shaft 32 rotates, the scissor mechanism 3 stretches out, the door is closed, the turning rod 61 rotates and pushes the baffle 422 to descend, when the turning rod 61 rotates to the initial position, the space is reserved, the second pedal 42 is pushed to ascend under the action of the second spring 433 and the third spring 435, the baffle 422 is driven to ascend to position the turning rod 61, and the door is automatically closed.

When a person arrives at the first pedal 41 on the right side from the pedal platform 111, if the following person steps on the second pedal 42, the camera of the controller 2 scans and analyzes the face of the following person, and after determining that the person is not the person in the community, the second electric push rod 63 is controlled to extend, the first electric push rod 52 is kept motionless, so that the extending second electric push rod 63 pushes the upper horizontal plate 621 to descend, and the turning rod 61 is pushed to forcibly rotate to the initial position, so that the entrance guard is driven to close by the rotating shaft 32, and the entering of the external following person is prevented.

If the amount of the stroller or the bicycle enters the door control, firstly, the camera of the controller 2 scans and analyzes the face of the person, after the person is determined to be the person in the district, the second electric push rod 63 is controlled to shrink, the first electric push rod 52 is extended, the control switch board 51 is pushed to slide, the first convex edge 411 is kept at an upper position under the action of the first inclined plane 511, the first pedal 41 is kept at an upper position, meanwhile, the second convex edge 421 is pushed under the action of the second inclined plane 513, the second pedal 42 is driven to overcome the second spring 433 and the third spring 435 to descend, the baffle 422 is driven to move downwards, the turnover rod 61 is unlocked, the door control is opened under the action of the tension spring 64, the door control is kept in an open state, after the person passes through, the first electric push rod 52 is controlled to shrink, the second electric push rod 63 is controlled to extend, and the door control is closed, so that the electric switch of the door control is realized.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims

1. The intelligent energy-saving access control system is characterized by comprising a ground beam which is fixed in the ground, wherein vertical pipes are fixedly arranged on the front side and the rear side of the ground beam, a controller for driving a camera is fixedly arranged above one of the vertical pipes, the controller comprises a memory, and personnel images are stored in the memory; each vertical pipe is provided with a fence component, a first pedal plate in a shape of a Chinese character kou is connected between the two vertical pipes in a sliding manner along the vertical direction in the ground beam, a pedal platform is arranged in the first pedal plate in the ground beam, and a second pedal plate is connected in a sliding manner along the vertical direction; a transmission assembly connected with the first pedal, the second pedal and the fence assembly is arranged in the vertical pipe; when the first pedal and the second pedal are at the upper end positions, the upper end surfaces of the first pedal, the second pedal, the ground beam and the pedal platform are all in horizontal coplanarity; when the first pedal is at the upper end position and the second pedal is at the lower end position, the transmission assembly controls the fence assembly to be in an open state; when the first pedal is at the lower end position, the transmission assembly controls the fence assembly to be in a closed state.

2. The intelligent energy-saving access control system according to claim 1, wherein the fence component comprises a scissor mechanism, a rotating shaft which is rotationally connected in the vertical pipe is fixedly arranged at the lower end of the scissor mechanism, which is close to the vertical pipe, and a first sliding block which is slidingly connected in the vertical pipe along the vertical direction is fixedly arranged at the upper end of the scissor mechanism, which is close to the vertical pipe; the lower end of the shearing fork mechanism, which is far away from the vertical pipe, is hinged with a vertical rod, and the upper end of the shearing fork mechanism, which is far away from the vertical pipe, is fixedly provided with a first sliding pin which is connected in the vertical rod in a sliding way along the vertical direction; when the fence component is closed, the rotating shaft rotates, and the shearing fork mechanism drives the vertical rod to be far away from the vertical pipe; when the fence component is opened, the rotating shaft reversely rotates, and the shearing fork mechanism drives the vertical rod to be close to the vertical pipe.

3. The intelligent energy-saving access control system according to claim 2, wherein first vertical grooves are formed in the ground beam, right below the left side and the right side of the first pedal, in the vertical direction, first convex rods extending downwards into the first vertical grooves are fixedly arranged on the first pedal, first convex edges are formed in the lower ends of the first convex rods extending into the first vertical grooves, and a first spring for forcing the first pedal to move upwards is sleeved on each first convex rod in the ground beam; the ground beam is internally provided with a second vertical groove along the vertical direction under the second pedal, the second pedal is fixedly provided with a second protruding rod which downwards extends into the second vertical groove, the lower end of the second protruding rod which downwards extends into the second vertical groove is provided with a second convex edge, and the ground beam is internally provided with second springs which are used for forcing the second pedal to move upwards in a sleeved mode.

4. The intelligent energy-saving access control system according to claim 3, wherein the transmission assembly comprises a turnover rod fixedly installed on the rotating shaft, a tension spring is fixedly arranged in the vertical tube, and the tension spring is used for forcing the turnover rod to drive the rotating shaft to rotate; a third vertical groove communicated with the vertical pipe is formed in the ground beam, close to the vertical pipe, in the vertical direction, a third protruding rod extending downwards into the third vertical groove is fixedly arranged on the second pedal, and a baffle plate positioned at the lower end of the turning rod is arranged at the lower end of the third protruding rod extending into the third vertical groove; a third spring for forcing the second pedal to move upwards is sleeved on each third protruding rod in the ground beam; when the second pedal is at the upper end position and the overturning rod is in the vertical state, the lower end of the overturning rod is abutted against the end part of the baffle, the overturning rod drives the fence component to be in the closed state through the rotating shaft, at the moment, when the first pedal is at the upper end position and the second pedal is stepped down to drive the baffle to move downwards to the lower end position, the overturning rod drives the rotating shaft to rotate under the action of the tension spring, and the rotating shaft drives the fence component to be opened.

5. The intelligent energy-saving access control system according to claim 4, wherein a vertical sliding plate is connected in the vertical pipe in a sliding manner along the vertical direction, a protruding block perpendicular to the turning rod is arranged at the upper end of the turning rod, an upper horizontal plate positioned at the upper end of the protruding block is arranged at the upper end of the vertical sliding plate, and a lower connecting block positioned below the first pedal is arranged at the lower end of the vertical sliding plate; when the fence component is in an open state and the first pedal moves downwards, the first pedal drives the lower connecting block to move downwards, the lower connecting block drives the upper horizontal plate to move downwards through the vertical sliding plate, the upper horizontal plate pushes the lug to drive the turning rod to rotate towards the vertical direction, and the turning rod drives the fence component to be closed through the rotating shaft.

6. The intelligent energy-saving access control system according to claim 5, wherein a horizontal chute communicated with the first vertical chute and the second vertical chute is arranged in the ground beam along the left-right direction, a switch plate is slidably connected in the horizontal chute along the left-right direction, a first inclined surface positioned in the first vertical chute is arranged at the left end and the right end of the switch plate respectively, a second inclined surface is arranged at the middle part of the switch plate, a first electric push rod is fixedly arranged in the ground beam and used for controlling the switch plate to move leftwards or rightwards, when the first electric push rod controls the switch plate to move leftwards, the first inclined surface and the first convex edge cooperate to control the first pedal to be at an upper end position, and the second inclined surface and the second convex edge cooperate to control the second pedal to be at a lower end position.

7. The intelligent energy-saving access control system according to claim 6, wherein a second electric push rod is fixedly arranged above the upper horizontal plate in each vertical pipe, and the second electric push rod pushes the upper horizontal plate to move downwards when extending.

8. The intelligent energy-saving access control system according to claim 7, wherein the controller is electrically connected with the first electric push rod and the second electric push rod, when the baby carriage or the bicycle enters the access control, the camera scans the face of the person and sends the face to the controller, the controller compares the face of the sweeping surface with the stored person image, after the person is determined to be the person in the district, the controller controls the first electric push rod to extend and the second electric push rod to retract, and after the person passes through the access control, the controller controls the first electric push rod to retract and the second electric push rod to extend.