CN110093881B - Safety access control equipment - Google Patents

Abstract

The invention discloses a safety entrance guard device, which comprises a base, wherein an open installation cavity is arranged in the base, the base is installed below the ground, a transmission box is installed in the installation cavity in a clamping manner, an accommodating cavity is arranged in the transmission box, blocking devices which are bilaterally symmetrical and block vehicles are arranged in the transmission box, the blocking devices are driven by a driving device arranged in the transmission box to operate, and a blocking device for blocking redundant accumulated water at an outlet of a building is arranged at the rear side of the base. The reliability and the safety of the equipment are greatly improved.

Description

Safety access control equipment

Technical Field

The invention relates to the technical field of building entrance guard, in particular to a safety entrance guard device.

Background

Building entrance guard is used for preventing the entering of external personnel, and is convenient for personnel or pass through after discerning personnel or vehicle, can appear some shortcomings in traditional building entrance guard use, for example: in the use process of some building and garage door control, some vehicles with lower bodies can not be effectively identified when entering and exiting a garage, and the low advantage of the vehicle bodies is utilized to avoid the identification of the building door control, so that the building door control can directly enter and exit a building parking lot, the safety of the building door control can be reduced, and in the actual use process, due to the weather reasons, rainwater, snow or hail can enter the space inside the building along a building entrance and exit, such as an underground parking lot and the like, so that the vehicles or other facilities inside the building are damaged, the problem of the existing building door control is not solved, and in most of time, the vehicles in the underground parking lot can be directly scrapped after being soaked, so that the property loss of personnel is greatly caused, the building door control is very inconvenient to install and adjust, and when some sudden events occur, the inability to better self-adjust makes the device convenient to use.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a security access control device, which can solve the above problems in the prior art.

The invention is realized by the following technical scheme: the safety access control equipment comprises a base, wherein an open installation cavity is formed in the base, the base is installed below the ground, a transmission box is installed in the installation cavity in a clamping mode, an accommodating cavity is formed in the transmission box, blocking devices which are bilaterally symmetrical and block vehicles are arranged in the transmission box, the blocking devices are driven to operate by a driving device arranged in the transmission box, and a blocking device used for blocking redundant accumulated water at an outlet of a building is arranged on the rear side of the base, so that efficient blocking of lower vehicles and blocking of accumulated water and the like are achieved by the aid of the blocking devices, and the lower vehicles are prevented from entering an inner space of the building.

Further technical scheme, stop device including set up in the transmission case and bilateral symmetry's adversion chamber, adversion chamber opening up, adversion intracavity pivoted is provided with the upset pole, the upset pole is T font structure, be provided with opening bottom opening chamber down in the upset pole, bottom opening chamber left side is provided with and is located the chamber that pierces through in the upset pole, bottom opening chamber with pierce through the intracavity and be provided with the baffle subassembly that is used for blockking the vehicle to utilize the baffle subassembly to further block the vehicle.

Further technical scheme, the baffle subassembly including the pivoted set up in pivot between the end wall about the end opening chamber, the pivot surface has set firmly shielding plate one, the pivot pivoted runs through the end opening chamber and stretches into pierce through the intracavity, it is provided with the messenger to pierce through the intracavity the upset pole drives after rotating shielding plate one carries out wobbling swing structure to utilize swing structure, make the upset pole makes under the drive arrangement effect after the swing the shielding plate one also swings.

According to a further technical scheme, the swinging structure comprises a fixed plate fixed on the front end face of the transmission case, a fixed column is fixedly arranged on the rear end face of the fixed plate and extends into the penetration cavity, an upper-meshed bevel gear is fixedly arranged on the rear end face of the fixed column, a driven bevel gear is arranged on one side of the upper-meshed bevel gear in a meshed mode, and the driven bevel gear is fixed with the rotating shaft, so that the upper-meshed bevel gear is fixed, and the rotating shaft swings in a mode that the driven bevel gear rolls on the outer surface of the upper-meshed bevel gear after the overturning rod rotates.

Further technical scheme, drive arrangement including set up in just be located in the transmission case pierce through the internal transmission chamber of chamber rear side, internal transmission chamber bilateral symmetry sets up, and is left the internal transmission chamber front end wall has set firmly driving motor, driving motor's output shaft rear end face has set firmly the driving gear, upset pole pivoted stretches into the internal transmission intracavity, upset pole rear end face has set firmly driven gear, driven gear with the driving gear meshing, internal transmission chamber rear side is provided with and is located the chamber that holds in the transmission case, it is provided with and is used for with driving motor's power transmission makes the right side the upset pole wobbling transmission assembly simultaneously.

According to the technical scheme, the transmission assembly comprises a rotating shaft fixed with the driven gear, the rotating shaft penetrates through the inner transmission cavity in a rotating mode and extends into the accommodating cavity to be connected with the end wall of the accommodating cavity in a rotating fit mode, a meshing belt wheel is fixedly arranged on the outer surface of the rotating shaft, a rear side belt wheel connected with the front end wall and the rear end wall of the accommodating cavity in a rotating fit mode is arranged on the lower side of the meshing belt wheel, the rear side belt wheel and the meshing belt wheel are connected through meshing belt power arranged on the outer surface of the rear side belt wheel and the outer surface of the meshing belt wheel, a belt wheel structure used for driving the rear side belt wheel to rotate simultaneously is arranged between the rear side belt wheels on the left side and the right side, and therefore the rear side.

According to the technical scheme, the belt wheel structure comprises a front side belt wheel which coaxially rotates with a rear side belt wheel, a belt is arranged on the outer surface of the front side belt wheel, the belt is used for connecting the front side belt wheel on the left side and the right side in a power mode, the belt is wound on the outer surface of the front side belt wheel in a cross transmission mode, and therefore the belt is used for connecting the front side belt wheel in a power mode and enabling the front side belt wheel on the left side and the right side to rotate in opposite directions.

According to the technical scheme, the blocking device comprises a top side cavity which is arranged in the base and has an upward opening, spring cavities which are symmetrical front and back are arranged in the lower end wall of the top side cavity in a communicated mode, a bottom inner cavity which is located on the front side of the spring cavities is arranged in the lower end wall of the top side cavity in a communicated mode, a turning plate assembly used for blocking water liquid is arranged in the top side cavity, the turning plate assembly is driven to operate by a power assembly arranged in the bottom inner cavity, and therefore the power assembly is used for driving the turning plate assembly to rotate.

According to the technical scheme, the plate turning assembly comprises a rotating rod connected with the left end wall and the right end wall of the top side cavity in a rotating fit mode, an open transmission inner cavity is formed in the rotating rod, a waterproof baffle is arranged between the rotating rod and the base in a clamping mode, an open water storage cavity is formed in the waterproof baffle, a baffle plate II is arranged below the rotating rod and connected with the left end wall of the top side cavity in a sliding fit mode, the baffle plate II abuts against the rotating rod, bilaterally symmetrical sliding columns are fixedly arranged on the lower end face of the baffle plate II and connected with the spring cavity in a sliding fit mode, and a spring is elastically arranged between the sliding columns and the spring cavity, so that water can be prevented from entering the equipment through the baffle plate II.

Further technical scheme, power component include by motor drive rotate and set up in the meshing gear of end intracavity, meshing gear top meshing is provided with from the rodent wheel, from the rodent wheel with transmission inner chamber fixed coordination is connected, from the rodent wheel with transmission inner chamber coaxial rotation, thereby utilize the meshing gear drive indirectly drive from the rodent wheel the bull stick rotates.

The invention has the beneficial effects that: when the device works, a vehicle enters a building at the moment, the vehicle needs to be released, the driving motor drives the driving gear to rotate after working, the driving gear drives the driven gear to rotate after rotating, the driven gear drives the turnover rod on the left side to swing, the turnover rod swings, the upper bevel gear is meshed with the driven bevel gear, the upper bevel gear is indirectly fixed on the outer surface of the transmission box through the fixed column and the fixed plate, the driven bevel gear is driven to roll on the outer surface of the upper bevel gear after swinging by the turnover rod, the rotating shaft is driven to swing by the driven bevel gear at the moment, the first shielding plate and the rotating shaft also swing, the turnover rod swings upwards, and the first shielding plate swings forwards to the highest position, and then the first shielding plate swings to a position parallel to the horizontal plane Put, because driven gear passes through the transmission of rotation axis and meshing band pulley makes the meshing band pulley passes through the meshing band pulley drives the rear side band pulley rotates, because rear side band pulley and the coaxial rotation of front side band pulley, just cross drive between the front side band pulley makes the left and right side front side band pulley rotates opposite direction, makes the left and right side rotation axis, meshing band pulley and driven gear rotate opposite direction, and make the left and right side upset pole swing opposite direction, the vehicle can enter into the building this moment in, has adopted the design of shielding plate one also can carry out the efficient to some highly lower vehicles and block, has improved the practicality of equipment.

When severe weather such as rain, snow and the like is met, the meshing gear rotates under the driving of the motor, the meshing gear drives the driven gear to rotate, the driven gear drives the rotating rod to swing after rotating, the rotating rod swings to an inclined position, the waterproof baffle is installed between the base and the rotating rod, the water storage cavity in the driven gear is of an inclined slope opening structure and is used for blocking water entering the building, the second shielding plate and the sliding column are jacked upwards under the action of the spring to keep a state of propping against the transmission inner cavity, the second shielding plate prevents sundries such as water from entering the building from affecting the operation of equipment, and the structure can prevent the water from entering the building inner space and effectively protect the property of personnel;

the equipment has a simple structure, adopts the blocking device and the stopping device, can efficiently block vehicles with lower body heights, effectively prevents rainwater from entering the internal space of the building under severe conditions, such as rain, snow and the like, prevents loss of personnel and property in the building, and greatly improves the reliability and the safety of the equipment.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic view of an internal overall structure of a security access control device according to the present invention;

FIG. 2 is a schematic view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic view of the direction B in FIG. 1;

FIG. 4 is a schematic view of FIG. 3 taken along direction C;

in the figure, a belt 102, a mounting cavity 103, a front side belt wheel 104, a rear side belt wheel 105, a base 106, an engaging belt 107, an accommodating cavity 108, a transmission case 109, an inner rotating cavity 110, a turnover rod 111, a bottom opening cavity 112, a rotating shaft 113, a first shielding plate 114, a driven gear 201, a rotating shaft 202, an engaging belt wheel 203, a driving gear 204, an inner transmission cavity 205, a driving motor 206, a driven bevel gear 207, a penetrating cavity 208, an inner opening cavity 210, an upper bevel gear 212, a fixing plate 213, a fixing column 214, a bottom inner cavity 301, an engaging gear 302, a driven gear 303, a spring cavity 304, a spring 305, a top side cavity 306, a sliding column 307, a second shielding plate 308, a transmission inner cavity 310, a rotating rod 311, a waterproof baffle 313 and a water storage cavity 314.

Detailed Description

As shown in fig. 1 to 4, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down, left-right, front-back direction is consistent with the up-down, left-right, front-back direction of the projection relation of the base 106, the safety access control device comprises a base 106, an open installation cavity 103 is arranged in the base 106, the base 106 is installed below the ground, a transmission box 109 is installed in the installation cavity 103 in a clamping mode, an accommodating cavity 108 is arranged in the transmission box 109, blocking devices which are bilaterally symmetrical and block vehicles are arranged in the transmission box 109, the blocking devices are driven to operate by a driving device arranged in the transmission box 109, and a blocking device used for blocking redundant accumulated water at an outlet of a building is arranged on the rear side of the base 106, so that efficient blocking of lower vehicles and blocking of accumulated water and the like are achieved by the aid of the device, and the accumulated water and the like are prevented from entering an internal.

Beneficially, the blocking device includes an inner rotation cavity 110 which is arranged in the transmission case 109 and is bilaterally symmetrical, the opening of the inner rotation cavity 110 faces upwards, an overturning rod 111 is rotatably arranged in the inner rotation cavity 110, the overturning rod 111 is of a T-shaped structure, a bottom opening cavity 112 with a downward opening is arranged in the overturning rod 111, a penetrating cavity 208 which is located in the overturning rod 111 is arranged on the left side of the bottom opening cavity 112, and baffle plate assemblies for blocking the vehicle are arranged in the bottom opening cavity 112 and the penetrating cavity 208, so that the vehicle is further blocked by the baffle plate assemblies.

Beneficially, the baffle plate assembly includes a rotating shaft 113 rotatably disposed between left and right end walls of the bottom opening cavity 112, a first shielding plate 114 is fixedly disposed on an outer surface of the rotating shaft 113, the rotating shaft 113 rotatably penetrates through the bottom opening cavity 112 and extends into the penetrating cavity 208, and a swinging structure is disposed in the penetrating cavity 208, so that the first shielding plate 114 is swung by the swinging structure after the overturning rod 111 swings under the action of the driving device.

Advantageously, the swing structure comprises a fixing plate 213 fixed to a front end surface of the transmission case 109, a fixing post 214 is fixed to a rear end surface of the fixing plate 213, the fixing post 214 extends into the penetration cavity 208, an upper bevel gear 212 is fixed to a rear end surface of the fixing post 214, a driven bevel gear 207 is engaged with one side of the upper bevel gear 212, the driven bevel gear 207 is fixed to the rotating shaft 113, so that the upper bevel gear 212 is fixed, and the rotating shaft 113 is swung by the reversing lever 111 after rotating in a manner that the driven bevel gear 207 rolls on an outer surface of the upper bevel gear 212.

Beneficially, the driving device includes an inner transmission cavity 205 disposed in the transmission box 109 and located at the rear side of the penetration cavity 208, the inner transmission cavity 205 is disposed in bilateral symmetry, a driving motor 206 is fixedly disposed in the front end wall of the inner transmission cavity 205 at the left side, a driving gear 204 is fixedly disposed on the rear end surface of an output shaft of the driving motor 206, the turnover rod 111 rotatably extends into the inner transmission cavity 205, a driven gear 201 is fixedly disposed on the rear end surface of the turnover rod 111, the driven gear 201 is engaged with the driving gear 204, an accommodating cavity 108 located in the transmission box 109 is disposed at the rear side of the inner transmission cavity 205, and a transmission assembly for transmitting the power of the driving motor 206 to the right side to enable the turnover rods 111 at the left side and the right side to swing simultaneously is disposed in the accommodating cavity 108.

Advantageously, the transmission assembly comprises a rotating shaft 202 fixed to the driven gear 201, the rotating shaft 202 penetrates through the inner transmission cavity 205 and extends into the accommodating cavity 108 to be connected with the end wall of the accommodating cavity 108 in a rotationally matched manner, an engaging pulley 203 is fixedly arranged on the outer surface of the rotating shaft 202, a rear pulley 105 connected with the front end wall and the rear end wall of the accommodating cavity 108 in a rotationally matched manner is arranged on the lower side of the engaging pulley 203, the rear pulley 105 and the engaging pulley 203 are in power connection through an engaging belt 107 arranged on the outer surface of the rear pulley 105 and the engaging pulley 203, a pulley structure for driving the rear pulley 105 to rotate simultaneously is arranged between the rear pulleys 105 on the left side and the right side, and therefore the rear pulleys 105 on the left side and the right side are driven to rotate simultaneously by the pulley structure.

Advantageously, the pulley structure comprises a front pulley 104 rotating coaxially with the rear pulley 105, the outer surface of the front pulley 104 is provided with a belt 102, the belt 102 connects the left and right front pulleys 104 in a power connection manner, the belt 102 is wound around the outer surface of the front pulley 104 in a cross transmission manner, so that the belt 102 connects the front pulleys 104 in a power connection manner and the left and right front pulleys 104 rotate in opposite directions.

Beneficially, the blocking device includes a top side cavity 306 disposed in the base 106 and having an upward opening, a front-back symmetrical spring cavity 304 is disposed in a lower end wall of the top side cavity 306 in a communicating manner, a bottom inner cavity 301 located in front of the spring cavity 304 is disposed in a lower end wall of the top side cavity 306 in a communicating manner, a flap assembly for blocking water liquid is disposed in the top side cavity 306, and the flap assembly is driven by a power assembly disposed in the bottom inner cavity 301 to operate, so that the flap assembly is driven by the power assembly to rotate.

Beneficially, the flap assembly includes a rotating rod 311 connected with the left and right end walls of the top side cavity 306 in a rotating fit manner, an open transmission inner cavity 310 is arranged in the rotating rod 311, a waterproof baffle 313 is arranged between the rotating rod 311 and the base 106 in a clamping manner, an open water storage cavity 314 is arranged in the waterproof baffle 313, a second shielding plate 308 is arranged below the rotating rod 311, the second shielding plate 308 is connected with the left end wall of the top side cavity 306 in a sliding fit manner, the second shielding plate 308 abuts against the rotating rod 311, bilaterally symmetrical sliding columns 307 are fixedly arranged on the lower end face of the second shielding plate 308, the sliding columns 307 are connected with the spring cavity 304 in a sliding fit manner, and a spring 305 is elastically arranged between the sliding columns 307 and the spring cavity 304, so that the second shielding plate 308 is used for preventing water from entering the device.

Beneficially, wherein, the power assembly includes a meshing gear 302 driven by the motor to rotate and arranged in the bottom inner cavity 301, a slave tooth wheel 303 is arranged above the meshing gear 302 in a meshing manner, the slave tooth wheel 303 is fixedly and cooperatively connected with the transmission inner cavity 310, the slave tooth wheel 303 rotates coaxially with the transmission inner cavity 310, so that the slave tooth wheel 303 is driven by the meshing gear 302 to indirectly drive the rotating rod 311 to rotate.

When the device works, the device and the components are in a non-blocking state for accumulated water and the like, and the turnover rod 111 is in a horizontal state.

When the equipment works, the vehicle enters a building at the moment, and the vehicle needs to be released, the driving motor 206 works to drive the driving gear 204 to rotate, the driving gear 204 rotates to drive the driven gear 201 to rotate, so that the driven gear 201 drives the left turnover rod 111 to swing, after the turnover rod 111 swings, the upper bevel gear 212 is meshed with the driven bevel gear 207, the upper bevel gear 212 is indirectly fixed on the outer surface of the transmission box 109 through the fixed column 214 and the fixed plate 213, the turnover rod 111 swings to drive the driven bevel gear 207 to roll on the outer surface of the upper bevel gear 212, at the moment, the driven bevel gear 207 drives the rotating shaft 113 to swing, the first shielding plate 114 and the rotating shaft 113 also swing, and at the moment, the turnover rod 111 swings upwards, in addition, in a state that the first shielding plate 114 swings forwards, after the first shielding plate 114 swings upwards to the highest position, the first shielding plate 114 swings to a position parallel to the horizontal plane, the driven gear 201 drives the engaging pulley 203 to drive the rear pulley 105 to rotate through the engaging belt 107 through the transmission of the rotating shaft 202 and the engaging pulley 203, the rear pulley 105 and the front pulley 104 rotate coaxially, and the front pulley 104 is in cross transmission, so that the rotating directions of the front pulleys 104 on the left side and the right side are opposite, the rotating directions of the rotating shaft 202, the engaging pulley 203 and the driven gear 201 on the left side and the right side are opposite, and the swinging directions of the first shielding plate 114 on the left side and the right side are opposite, so that vehicles can enter into the building, and the design of the first shielding plate 114 can also perform efficient blocking for some vehicles with lower heights, the practicability of the equipment is improved.

When severe weather, such as rain, snow and the like, occurs, the meshing gear 302 is driven by the motor to rotate, the meshing gear 302 drives the driven gear 303 to rotate, the driven gear 303 drives the rotating rod 311 to swing after rotating, the rotating rod 311 swings to an inclined position, the waterproof baffle 313 is installed between the base 106 and the rotating rod 311, the water storage cavity 314 in the slave rodent wheel 303 is of an inclined slope opening structure, so that the water storage cavity 314 is used for blocking water liquid entering the building, at the moment, the second shielding plate 308 and the sliding column 307 are jacked up upwards under the action of the spring 305 to keep a state of being abutted against the transmission inner cavity 310, at the moment, the second shielding plate 308 prevents impurities such as water liquid and the like from entering equipment to influence the work of the equipment, above-mentioned structure makes entrance guard can prevent that water liquid from getting into building inner space, has effectively protected personnel's property.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims (4)

1. A safety entrance guard device comprises a base, wherein an open installation cavity is formed in the base, the base is installed below the ground, a transmission case is installed in the installation cavity in a clamping mode, an accommodating cavity is formed in the transmission case, blocking devices which are bilaterally symmetrical and block vehicles are arranged in the transmission case, the blocking devices are driven to operate by a driving device arranged in the transmission case, and a blocking device used for blocking redundant accumulated water at an outlet of a building is arranged on the rear side of the base;

the blocking device comprises inner rotating cavities which are arranged in the transmission case and are bilaterally symmetrical, the openings of the inner rotating cavities are upward, an overturning rod is rotatably arranged in the inner rotating cavities, the overturning rod is of a T-shaped structure, a bottom opening cavity with a downward opening is arranged in the overturning rod, a penetrating cavity in the overturning rod is arranged on the left side of the bottom opening cavity, and baffle plate assemblies for blocking the vehicle are arranged in the bottom opening cavity and the penetrating cavity;

the baffle plate assembly comprises a rotating shaft which is rotatably arranged between the left end wall and the right end wall of the bottom opening cavity, a first shielding plate is fixedly arranged on the outer surface of the rotating shaft, the rotating shaft rotatably penetrates through the bottom opening cavity and extends into the penetrating cavity, and a swinging structure which enables the turnover rod to drive the first shielding plate to swing after rotating is arranged in the penetrating cavity;

the swing structure comprises a fixed plate fixed with the front end face of the transmission case, a fixed column is fixedly arranged on the rear end face of the fixed plate and extends into the penetration cavity, an upper-meshed bevel gear is fixedly arranged on the rear end face of the fixed column, a driven bevel gear is meshed with one side of the upper-meshed bevel gear, and the driven bevel gear is fixed with the rotating shaft;

the stopping device comprises a top side cavity which is arranged in the base and has an upward opening, the lower end wall of the top side cavity is internally communicated with spring cavities which are symmetrical front and back, the lower end wall of the top side cavity is internally communicated with a bottom inner cavity which is positioned at the front side of the spring cavities, a turning plate component for stopping water liquid is arranged in the top side cavity, and the turning plate component is driven by a power component arranged in the bottom inner cavity to operate;

the turning plate assembly comprises a rotating rod which is connected with the left end wall and the right end wall of the top cavity in a rotating matching mode, an open transmission inner cavity is arranged in the rotating rod, a waterproof baffle is clamped between the rotating rod and the base, an open water storage cavity is arranged in the waterproof baffle, a second shielding plate is arranged below the rotating rod and is connected with the left end wall of the top cavity in a sliding matching mode, the second shielding plate abuts against the rotating rod, bilaterally symmetrical sliding columns are fixedly arranged on the lower end face of the second shielding plate and are connected with the spring cavity in a sliding matching mode, and a spring is elastically arranged between the sliding columns and the spring cavity;

power component includes by motor drive rotation and set up in the meshing gear of end inner chamber, meshing gear top meshing is provided with from the rodent wheel, from the rodent wheel with transmission inner chamber fixed coordination is connected, from the rodent wheel with the coaxial rotation of transmission inner chamber.

2. The security access control device of claim 1, wherein: drive arrangement including set up in just be located in the transmission case pierce through the internal transmission chamber of chamber rear side, internal transmission chamber bilateral symmetry sets up, and is left the internal transmission chamber front end wall internal fixation has a driving motor, driving motor's output shaft rear end face has set firmly the driving gear, upset pole pivoted stretches into the internal transmission intracavity, upset pole rear end face has set firmly driven gear, driven gear with driving gear meshing, internal transmission chamber rear side is provided with and is located the chamber that holds in the transmission case, it is provided with and is used for with driving motor's power transmission makes the right side to the right side upset pole wobbling transmission assembly simultaneously.

3. The security access control device of claim 2, characterized in that: the transmission assembly comprises a rotating shaft fixed with the driven gear, the rotating shaft penetrates through the inner transmission cavity and extends into the accommodating cavity and the accommodating cavity end wall are connected in a running fit mode, a meshing belt wheel is fixedly arranged on the outer surface of the rotating shaft, a rear side belt wheel connected with the front end wall and the rear end wall of the accommodating cavity in a running fit mode is arranged on the lower side of the meshing belt wheel, the rear side belt wheel and the meshing belt wheel are connected in a power mode through a meshing belt arranged on the outer surface of the rear side belt wheel and the meshing belt wheel, and a belt wheel structure used for driving the rear side belt wheel to rotate simultaneously is arranged between the rear side belt wheels on the left side.

4. A security access control device according to claim 3, characterized in that: the belt wheel structure comprises a front side belt wheel coaxially rotating with the rear side belt wheel, a belt is arranged on the outer surface of the front side belt wheel, the left side and the right side of the belt are connected with the front side belt wheel in a power connection mode, and the belt is wound on the outer surface of the front side belt wheel in a cross transmission mode.

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