CN214737602U - Hidden intelligent ground lock - Google Patents

Abstract

The utility model discloses a hidden intelligent ground lock, include: the embedded barrel is embedded under the road surface; the lock body is arranged in the embedded barrel, and the top of the lock body can stretch out and draw back to extend out or retract into the embedded barrel; the induction assembly is arranged in the top of the lock body and stretches along with the top of the lock body, when the top of the lock body extends out of the embedded barrel, the induction end of the induction assembly also extends out of the lock body, and sends a high-level signal when the high-level signal is extruded; the main control board controls the lock body to stretch and retract, and controls the lock body to stop when receiving a high-level signal sent by the induction component; and the cloud platform is in communication connection with the main control board, sends a telescopic instruction to the main control board and receives the lock body telescopic execution condition fed back by the main control board. The hidden intelligent ground lock of the utility model is completely hidden under the ground; the main control board is in communication connection with the cloud platform, and the hidden intelligent ground lock is controlled and monitored through the cloud platform.

Description

Hidden intelligent ground lock

Technical Field

The utility model relates to a vehicle management device's technical field especially relates to a hidden intelligent ground lock.

Background

The problem of urban parking difficulty becomes a great problem restricting urban development, and therefore, temporary parking berths are arranged beside urban roads in many cities.

How are these temporary berths managed effectively? Several solutions on the market today have obvious drawbacks: manual charging management, high labor cost, low charging success rate and difficult project operation; the high-level video or video pile technology is high in construction cost, whether the charging is successful or not depends on the consciousness completely, and the high-level video or video pile technology is easily influenced by greening trees, strong wind, rain, snow and haze weather; the ground lock is arranged on the road surface, and the ground lock is higher than the road surface, so that the normal use of the road surface is seriously influenced, for example, non-motor vehicles and pedestrians are easily tripped, and the daily normal sanitation operation such as sweeping and snow sweeping is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an effectively solve hidden intelligent ground lock of roadside parking problem.

Realize the utility model discloses the technical scheme of purpose is: a concealed intelligent lock comprising:

the embedded barrel is embedded under the road surface;

the lock body is arranged in the embedded barrel, and the top of the lock body can stretch out and draw back to extend out or retract into the embedded barrel;

the induction assembly is arranged in the top of the lock body and stretches along with the top of the lock body, when the top of the lock body extends out of the embedded barrel, the induction end of the induction assembly also extends out of the lock body, and sends a high-level signal when the high-level signal is extruded;

the main control board controls the lock body to stretch and retract, and controls the lock body to stop when receiving a high-level signal sent by the induction component;

the cloud platform is in communication connection with the main control board, sends a telescopic instruction to the main control board and receives a lock body telescopic execution condition fed back by the main control board;

the air bag assembly is arranged on the side wall of the embedded barrel and communicated with the inner cavity of the embedded barrel, so that gas exchange between the embedded barrel and the outside is realized under the waterproof condition.

The lock body comprises a lock body and a lock head; the lock head is fixed on the top of the lock body; the lock body drives the lock head to vertically move along the axial direction of the embedded barrel, so that the lock head extends out of or retracts into the embedded barrel.

The induction component comprises an induction rod, a lifting component and a contact induction switch positioned below the induction rod; the induction rod is vertically arranged in the lock head of the lock body in a floating manner, and the vertical floating distance of the induction rod is limited from the position above the touch induction switch to the position of the press touch induction switch; the lifting assembly drives the induction rod and the contact induction switch to synchronously and vertically move so as to lead the induction rod to extend out of or retract into the lock head

The air bag assembly comprises an air bag, an air bag connecting pipe and a ventilation valve; the lock body of the lock body is arranged in the embedded barrel, and the top of the lock body seals the embedded barrel, so that an inner cavity of the embedded barrel forms a sealed cavity; the air bag is arranged on the side wall of the embedded barrel; the air bag connecting pipe is communicated with the inner cavity of the embedded barrel and the inner cavity of the air bag; the ventilation valve is arranged at the top of the embedded barrel.

The lock body of the lock body comprises a middle cylinder panel, a middle cylinder bottom plate, a middle cylinder and a transmission part; the middle barrel panel is fixed on the embedded barrel opening part; the middle barrel bottom plate is fixed at the bottom of the inner cavity of the embedded barrel; the side wall of the middle cylinder is in sealed sliding connection with the inner wall of the panel of the middle cylinder; the transmission component is installed on the middle barrel bottom plate and drives the middle barrel to vertically move along the axial direction of the embedded barrel.

The middle cylinder panel of the lock body comprises an annular part and a panel part, wherein the annular part is positioned in the inner cavity of the embedded barrel, and the panel part extends outwards along the periphery of the top end of the annular part; the panel part of the middle barrel panel is fixed with the opening part of the embedded barrel and is attached to the top end surface of the embedded barrel; the annular part of the middle barrel panel is provided with a first sealing ring and a second sealing ring which are in sealing fit with the peripheral surface of the middle barrel.

The lifting assembly of the induction assembly comprises a lifting motor and a lifting plate; the lifting plate can be vertically and movably arranged in the lock head; the output end of the lifting motor is in threaded connection with a nut on the lifting plate through a screw rod; the lifting plate is provided with an installation bin which is used for installing the bottom of the induction rod and limiting the vertical floating distance of the induction rod; the contact inductive switch is arranged in the installation bin; and an elastic component for supporting the induction rod is arranged in the mounting bin.

The lock further comprises a lithium battery for supplying power to the lock body, the induction assembly and the main control board.

By adopting the technical scheme, the utility model discloses following beneficial effect has: the hidden intelligent ground lock of the utility model is completely hidden under the ground, and when no vehicle is parked on the berth, the normal use of the road surface is not influenced; the ascending height of the lock head has a self-adaptive function, and vehicles of different models and brands can be locked; the rechargeable battery is adopted for supplying power, so that the trouble of connecting the commercial power is avoided; the lock body and the embedded barrel are of an independent and separated structure, the embedded barrel is fixed below the ground through concrete pouring, the lock body is fastened in the embedded barrel through screws, and when the lock body fails, the lock body can be conveniently and quickly taken out for repair and replacement; the air bag and the vent valve are arranged on the embedded barrel, so that internal circulation of air inside the ground lock is realized, and the ground lock can be normally used under the condition that the road surface is submerged by waterlogging water; the main control board is in communication connection with the cloud platform, and the hidden intelligent ground lock is controlled and monitored through the cloud platform.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is given in conjunction with the accompanying drawings, in which

Fig. 1 is a schematic structural view of the utility model;

fig. 2 is a schematic structural view of the lock body of the present invention;

fig. 3 is a schematic structural diagram of the lock of the present invention.

The reference numbers are: the device comprises a pre-buried barrel 1, a lock body 2, a lock head 2-1, a middle barrel panel 2-2, a middle barrel bottom plate 2-3, a middle barrel 2-4, a transmission part 2-5, an induction component 3, an induction rod 3-1, a contact induction switch 3-2, a lifting motor 3-3, a lifting plate 3-4, an installation bin 3-5, an air bag component 4, an air bag 4-1, an air bag connecting pipe 4-2, a vent valve 4-3 and a lithium battery 5.

Detailed Description

Example one

Referring to fig. 1 to 3, the hidden intelligent lock of this embodiment includes pre-buried bucket 1, lock body 2, response subassembly 3, main control board, cloud platform, gasbag subassembly 4 and lithium cell 5.

The pre-buried bucket 1 is pre-buried under the road surface. The lock body 2 is arranged in the embedded barrel 1, and the top of the lock body can stretch out and draw back to extend out or retract into the embedded barrel 1. In the 2 tops of lock body were located to response subassembly 3, follow 2 tops of lock body and stretch out and draw back, when 2 tops of lock body stretched out pre-buried bucket 1, response end of response subassembly 3 also stretched out lock body 2 to send high-order signal when the extrusion force. The main control board controls the lock body 2 to stretch and retract, and controls the lock body 2 to stop when receiving a high-level signal sent by the induction component 3. The cloud platform is in communication connection with the main control board, sends a telescopic instruction to the main control board, and receives the telescopic execution condition of the lock body 2 fed back by the main control board. The air bag assembly 4 is arranged on the side wall of the embedded barrel 1 and communicated with the inner cavity of the embedded barrel 1, so that gas exchange between the embedded barrel 1 and the outside under the waterproof condition is realized. The lithium battery 5 supplies power for the lock body 2, the induction component 3 and the main control board.

The main control board is provided with a 2g/4g/NB-IOT module. During specific implementation, the main control board is in communication connection with the cloud platform through a 2g/4g/NB-IOT module, and data are interacted through an MQTT protocol; the cloud platform sends an ascending lock/descending lock instruction to the main control board; after the main control board receives the instruction, the lock body 2 is controlled to stretch, if the lock body 2 is controlled to extend, the sensing end of the sensing assembly 3 is controlled to extend out of the lock body 2, and if the lock body 2 is controlled to retract, the sensing assembly 3 cannot be controlled to work; the lock body 2 and/or the induction component 3 feed back the execution condition to the main control board; the main control board feeds back the execution condition of the transmission mechanism to the cloud platform.

In this embodiment, the lock body 2 includes a lock body and a lock head 2-1. The lock head 2-1 is fixed on the top of the lock body. The lock body drives the lock head 2-1 to vertically move along the axial direction of the embedded barrel 1, so that the lock head 2-1 extends out of or retracts into the embedded barrel 1.

In this embodiment, the sensing assembly 3 includes a sensing rod 3-1, a lifting assembly, and a touch sensing switch 3-2 located below the sensing rod. The induction rod 3-1 is vertically arranged in the lock head 2-1 of the lock body 2 in a floating mode, and the vertical floating distance of the induction rod 3-1 is limited from the position above the contact induction switch 3-2 to the position of pressing the contact induction switch 3-2. The lifting component drives the induction rod 3-1 and the contact induction switch 3-2 to synchronously and vertically move, so that the induction rod 3-1 extends out of or retracts into the lock head 2-1

In the present embodiment, the airbag module 4 includes an airbag 4-1, an airbag connection tube 4-2, and a vent valve 4-3. The lock body of the lock body 2 is arranged in the embedded barrel 1, and the top of the embedded barrel 1 is sealed, so that the inner cavity of the embedded barrel 1 forms a sealed cavity. The air bag 1-2 is arranged on the side wall of the embedded barrel 1. The air bag connecting pipe 1-3 is communicated with the inner cavity of the embedded barrel 1 and the inner cavity of the air bag 1-2. The ventilation valve 4-3 is arranged at the top of the embedded barrel 1. The tail part of the air bag 4-1 is provided with a shell for protecting the air bag 4-1 and facilitating the installation of the air bag 4-1 on the side wall of the embedded barrel 1.

In the present embodiment, the body of the lock body 2 includes a middle cylinder panel 2-2, a middle cylinder bottom plate 2-3, a middle cylinder 2-4 and a transmission member 2-5. The middle barrel panel 2-2 is fixed on the opening part of the embedded barrel 1. The middle barrel bottom plate 2-3 is fixed at the bottom of the inner cavity of the embedded barrel 1. The side wall of the middle cylinder 2-4 is connected with the inner wall of the middle cylinder panel 2-2 in a sealing and sliding way. The transmission part 2-5 is arranged on the middle barrel bottom plate 2-3 and drives the middle barrel 2-4 to vertically move along the axial direction of the embedded barrel 1. The bottom of the middle barrel 2-4 is provided with a low-level switch, and when the middle barrel 2-4 retracts, the transmission part 2-5 is controlled to stop working through the triggering of the low-level switch. The low-level switch can be a contact switch or a light sensing switch, and the middle cylinder bottom plate 2-3 is provided with a sensing part matched with the low-level switch. The transmission part 2-5 is a transmission part 2-5 using a motor as a driving source.

In this embodiment, the middle cylinder panel 2-2 of the lock body 2 includes a ring portion located in the inner cavity of the embedded barrel 1, and a panel portion extending outwards along the top end periphery of the ring portion. The panel part of the middle barrel panel 2-2 is fixed with the opening part of the embedded barrel 1 and is attached to the top end surface of the embedded barrel 1. The annular part of the middle cylinder panel 2-2 is provided with a first sealing ring and a second sealing ring which are in sealing fit with the circumferential surface of the middle cylinder 2-4.

In this embodiment, the lift assembly of the sensing assembly 3 includes a lift motor 3-3 and a lift plate 3-4. The lifting plate 3-4 can be vertically and movably arranged in the lock head 2-1. The output end of the lifting motor 3-3 is in threaded connection with a nut on the lifting plate 3-4 through a screw rod. The lifting plate 3-4 is provided with an installation bin 3-5 which is used for installing the bottom of the induction rod 3-1 and limiting the vertical floating distance of the induction rod 3-1. The contact inductive switch 3-2 is arranged in the installation bin 3-5. An elastic component for supporting the induction rod 3-1 is arranged in the mounting bin 3-5.

When in use, the lock is lifted (locked or occupied);

the cloud platform issues a lock lifting (lock closing) instruction to the main control board, and the sensing assembly 3 and the transmission components 2-5 start to work simultaneously. The lifting motor 3-3 drives the lifting plate 3-4 to ascend, so that the induction rod 3-1 extends out of the lock head 2-1;

the transmission part 2-5 drives the middle barrel 2-4 to ascend, when the middle barrel 2-4 ascends to a certain height, the upper end of the induction rod 3-1 touches the chassis of the vehicle, along with the continuous ascending of the middle barrel 2-4, because the upper end of the induction rod 3-1 is blocked by the chassis of the vehicle and cannot continue to ascend, the lower end of the induction rod 3-1 extrudes and contacts the induction switch 3-2, so that the power supply of the transmission part 2-5 is cut off, the transmission part 2-5 stops working, the middle barrel 2-4 stops ascending, the lifting motor 3-3 starts to rotate reversely at the same time, the lifting plate 3-4 is driven to descend, the induction rod 3-1 is pulled back into the lock head 2-1, the lifting and locking action is finished, and the lock head 2-1 keeps a state of clinging to the chassis of the vehicle, and the locking action is finished.

Lock descending (unlocking or opening the parking space);

the cloud platform issues a lock descending (unlocking) instruction to the main control board, the transmission part 2-5 starts to rotate reversely to drive the middle barrel 2-4 to descend, when the middle barrel 2-4 descends to a set height or triggers the low-level switch of the middle barrel 2-4, the rotation is stopped, the lock descending (unlocking) is completed, and the vehicle can leave the field.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. A concealed intelligent lock, comprising:

the embedded barrel (1) is embedded under the road surface;

the lock body (2) is arranged in the embedded barrel (1), and the top of the lock body can stretch out and draw back to extend out or retract into the embedded barrel (1);

the induction component (3) is arranged in the top of the lock body (2) and stretches along with the top of the lock body (2), when the top of the lock body (2) extends out of the embedded barrel (1), the induction end of the induction component (3) also extends out of the lock body (2), and sends a high-level signal when the lock body is subjected to extrusion force;

the main control board controls the lock body (2) to stretch and retract, and controls the lock body (2) to stop when receiving a high-level signal sent by the induction component (3);

the cloud platform is in communication connection with the main control board, sends a telescopic instruction to the main control board and receives the telescopic execution condition of the lock body (2) fed back by the main control board;

the air bag assembly (4) is arranged on the side wall of the embedded barrel (1) and communicated with the inner cavity of the embedded barrel (1), so that gas exchange between the embedded barrel (1) and the outside is realized under the waterproof condition.

2. The concealed intelligent lock of claim 1, wherein: the lock body (2) comprises a lock body and a lock head (2-1); the lock head (2-1) is fixed on the top of the lock body; the lock body drives the lock head (2-1) to vertically move along the axial direction of the embedded barrel (1), so that the lock head (2-1) extends out of or retracts into the embedded barrel (1).

3. The concealed intelligent lock of claim 2, wherein: the induction component (3) comprises an induction rod (3-1), a lifting component and a contact induction switch (3-2) positioned below the induction rod; the induction rod (3-1) is vertically arranged in a lock head (2-1) of the lock body (2) in a floating mode, and the vertical floating distance of the induction rod (3-1) is limited to be from the position above the contact induction switch (3-2) to the position of the press contact induction switch (3-2); the lifting component drives the induction rod (3-1) and the contact induction switch (3-2) to synchronously and vertically move, so that the induction rod (3-1) extends out of or retracts into the lock head (2-1)

4. The concealed intelligent lock of claim 1, wherein: the air bag assembly (4) comprises an air bag (4-1), an air bag connecting pipe (4-2) and a ventilation valve (4-3); the lock body of the lock body (2) is arranged in the embedded barrel (1), and the top of the embedded barrel (1) is sealed, so that a sealed cavity is formed in the inner cavity of the embedded barrel (1); the air bag (1-2) is arranged on the side wall of the embedded barrel (1); the air bag connecting pipe (1-3) is communicated with the inner cavity of the embedded barrel (1) and the inner cavity of the air bag (1-2); the ventilation valve (4-3) is arranged at the top of the embedded barrel (1).

5. The concealed intelligent lock of claim 2, wherein: the lock body of the lock body (2) comprises a middle cylinder panel (2-2), a middle cylinder bottom plate (2-3), a middle cylinder (2-4) and a transmission part (2-5); the middle barrel panel (2-2) is fixed on the opening part of the embedded barrel (1); the middle barrel bottom plate (2-3) is fixed at the bottom of the inner cavity of the embedded barrel (1); the side wall of the middle cylinder (2-4) is in sealed sliding connection with the inner wall of the middle cylinder panel (2-2); the transmission component (2-5) is installed on the middle barrel bottom plate (2-3) and drives the middle barrel (2-4) to vertically move along the axial direction of the embedded barrel (1).

6. The concealed smart lock of claim 5, wherein: the middle cylinder panel (2-2) of the lock body (2) comprises an annular part and a panel part, wherein the annular part is positioned in the inner cavity of the embedded barrel (1), and the panel part extends outwards along the periphery of the top end of the annular part; the panel part of the middle barrel panel (2-2) is fixed with the opening part of the embedded barrel (1) and is attached to the top end surface of the embedded barrel (1); the annular part of the middle cylinder panel (2-2) is provided with a first sealing ring and a second sealing ring which are in sealing fit with the circumferential surface of the middle cylinder (2-4).

7. The concealed smart lock of claim 6, wherein: the lifting assembly of the induction assembly (3) comprises a lifting motor (3-3) and a lifting plate (3-4); the lifting plate (3-4) can be vertically and movably arranged in the lock head (2-1); the output end of the lifting motor (3-3) is in threaded connection with a nut on the lifting plate (3-4) through a screw rod; the lifting plate (3-4) is provided with an installation bin (3-5) which is used for installing the bottom of the induction rod (3-1) and limiting the vertical floating distance of the induction rod (3-1); the contact induction switch (3-2) is arranged in the installation bin (3-5); an elastic component for supporting the induction rod (3-1) is arranged in the mounting bin (3-5).

8. The concealed intelligent lock of claim 1, wherein: the lock further comprises a lithium battery (5) for supplying power to the lock body (2), the induction assembly (3) and the main control board.

Images