CN215165004U - Automatic energy storage type parking spot lock - Google Patents

Abstract

The utility model discloses an automatic energy storage type parking space lock, which comprises a case, a blocking unit and a tapered end rubber buffer protection pad; the blocking unit comprises a bottom plate, a side plate, a blocking baffle assembly and an energy collecting guard plate assembly; the energy collecting guard plate assembly comprises an energy collecting guard plate, an energy collecting plate group, an energy storage ejector rod and a positioning guide rail; one end of the energy collecting guard plate is rotatably connected with the side plate, the positioning guide rail is fixed on the bottom plate, and the energy storage ejector rod is positioned in the through groove of the positioning guide rail, is close to one side of the case and extends into the case through a through hole arranged on the side plate; the other end of the energy storage ejector rod, which is far away from the case, is connected to an energy collecting plate group, the energy collecting plate group comprises at least two energy collecting plates, and the energy collecting plates are connected with each other through roller shafts. The utility model discloses can roll the vehicle at the vehicle parking warehouse entry in-process and collect and the energy storage parking stall lock's energy, drive parking stall lock realization locking, technically can to a great extent reduce the energy consumption of parking stall lock, reduce its maintenance cost.

Description

Automatic energy storage type parking spot lock

Technical Field

The utility model relates to an intelligence parking technical field specifically is an automatic energy storage formula parking stall lock.

Background

The flat plate type parking space lock is used for intelligent self-service management of parking spaces on the road surface. The equipment is matched with a ground sensing and self-service charging terminal, and unattended self-service management of a road parking space can be realized. The device is generally positioned at the middle rear part of a parking space, and after a vehicle is parked and warehoused, the blocking baffle is driven by the motor to rise to be attached to a vehicle chassis, so that the parked vehicle is locked. The current products generally comprise the following two ways in terms of energy supply: one is to use the pipeline to supply the commercial power, and the other is to equip the rechargeable battery for supplying the power. The adoption of commercial power energy can require a complex administrative approval process, and under certain conditions, such as heavy rain, potential safety hazards of electric leakage and electric shock may occur. The battery is used for supplying energy, the battery needs to be periodically maintained, and the problem of inconvenience in battery charging is also solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic energy storage formula parking stall lock to solve the problem that exists among the prior art.

The technical proposal of the utility model relates to an automatic energy storage type parking space lock, which comprises a chassis, a blocking unit and a tapered end rubber buffer protection pad; the machine case and the blocking unit are connected with each other, and the lock rubber buffer protection pad is arranged at the end part of the blocking unit far away from the machine case; the blocking unit comprises a bottom plate, a side plate, a blocking baffle assembly and an energy collecting guard plate assembly; the side plates are fixedly connected to the end parts of the two sides of the bottom plate; the energy collecting guard plate assembly comprises an energy collecting guard plate, an energy collecting plate group, an energy storage ejector rod and a positioning guide rail; one end of the energy collecting guard plate is rotatably connected with the side plate, and the energy collecting guard plate and the blocking baffle plate assembly are arranged on two sides of the bottom plate in parallel; the energy collecting plate group, the energy storage ejector rod and the positioning guide rail are positioned at the lower part of the energy collecting guard plate; the energy storage ejector rod is positioned in the through groove of the positioning guide rail, is close to one side of the case, and extends into the case through a through hole arranged on the side plate; the other end of the energy storage ejector rod, which is far away from the case, is connected to an energy collecting plate group, the energy collecting plate group comprises at least two energy collecting plates, the energy collecting plates are connected with each other through roller shafts, and a limiting bulge is arranged on one side, which is far away from the case, of the positioning guide rail through groove.

Preferably, the blocking baffle assembly comprises a blocking baffle, a blocking baffle support plate and a blocking baffle rotating shaft; the stopping baffle plate rotating shaft is rotatably connected with the side plate, one end of the stopping baffle plate supporting plate is fixedly connected with the stopping baffle plate rotating shaft, the other end of the stopping baffle plate supporting plate is hinged with one end of the stopping baffle plate, and the other end of the stopping baffle plate is slidably connected with the side plate.

Preferably, the case comprises a case shell, an energy storage spring, an energy transmission bracket, an energy release rack and a spindle gear; the main shaft gear is connected to the rotating shaft of the blocking baffle, and the energy releasing rack is matched with the main shaft gear; one end of the energy storage spring is fixed on the side wall of the case shell, the other end of the energy storage spring is fixed on the energy release rack, the energy release rack can be fixed on the bottom plate of the case shell in a sliding manner, and the energy storage spring and the energy release rack are vertically arranged with the energy storage ejector rod; the energy transfer bracket is positioned between the energy storage mandril and the energy storage spring and between the energy release racks.

Preferably, the energy transfer support comprises a pressure lever and at least one push rod, one end of the pressure lever is contacted with the energy storage ejector rod, and the other end of the pressure lever is hinged with the bottom plate of the case shell; one end of the push rod is hinged with the pushing bulge on the energy release rack, the other end of the push rod is hinged with the pressure rod, and the hinged position of the push rod and the energy release rack is closer to the energy storage spring than the hinged position of the push rod and the pressure rod

Preferably, the two groups of push rods are respectively a first push rod and a second push rod, wherein one end of the second push rod is hinged to the energy releasing rack, the other end of the second push rod is hinged to the pressure rod, and the hinged position of the second push rod and the energy releasing rack is also hinged to the connecting rod; the other end of the connecting rod is hinged to a first push rod, and the other end of the first push rod is inserted into a groove arranged on a pushing bulge on the energy releasing rack.

Preferably, the energy releasing rack limiting protrusion is further arranged on the bottom plate of the chassis shell and matched with the pushing protrusion.

Preferably, a limiting shell is arranged above the energy releasing rack, the bottom of the limiting shell is fixed to a bottom plate of the chassis shell, a through hole is formed in the limiting shell, two through grooves are oppositely formed in the side surface of the limiting shell, a limiting stop lever is arranged in each through groove, each limiting stop lever is a metal rod, a moving rack is arranged on the upper portion of each limiting stop lever, and each moving rack extends out of the through hole in the upper portion of the limiting shell to be matched with a moving gear arranged on a moving motor.

Preferably, still be provided with response laser probe, listen the camera of collecting evidence, response laser probe sets up on case shell outer wall, is close to parking stall export direction one side.

Preferably, an emergency unlocking handle and a manual unlocking gear are further arranged; the emergency unlocking handle is arranged on the outer wall of the case shell, the other end of the emergency unlocking handle is connected to a manual unlocking gear arranged on the upper portion of the limiting shell through a worm gear structure, and the manual unlocking gear is matched with the movable rack.

The utility model discloses can roll the vehicle at the vehicle parking warehouse entry in-process and collect and the energy storage parking stall lock's energy, drive parking stall lock realization locking, technically can to a great extent reduce the energy consumption of parking stall lock, reduce its maintenance cost. The monitoring camera can be used for collecting, identifying and obtaining evidence of information such as vehicle license plates, and effectively monitoring and controlling the vehicle. Through the design of emergency treatment structure, when the energy storage formula parking stall lock breaks down and takes place natural disasters and leads to the product electroless no signal, can manual troubleshooting by oneself, normally let the vehicle pass, inconvenience and the potential safety hazard that lead to after having avoided the vehicle stranded. Through the design of the supporting structure below the blocking baffle, the structural strength of the blocking baffle is effectively strengthened, and the blocking baffle is prevented from being seriously distorted or damaged under the conditions of rolling and impacting by vehicles.

In order to make the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of an embodiment of the present invention;

fig. 2 is a partial perspective view of an embodiment of the present invention;

FIG. 3 is a partial perspective view of an embodiment of the present invention with an energy collecting guard removed;

fig. 4 is a schematic connection diagram of an energy collecting plate according to another embodiment of the present invention;

fig. 5 is a schematic view of the inside of the case according to an embodiment of the present invention;

fig. 6 is a partial schematic view of the inside of the chassis according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in the attached figure 1, the utility model relates to an automatic energy storage type parking space lock, which comprises a case 1, a stopping unit 2 and a tapered end rubber buffer protection pad 3; the machine case 1 and the blocking unit 2 are connected with each other, and the lock rubber buffer protection pad 3 is arranged at the end part of the blocking unit 2 far away from the machine case 1.

As shown in fig. 1, 2, 3, 4 and 5, the arresting unit 2 includes a bottom plate 21, a side plate 22, an arresting baffle assembly 23 and an energy collecting guard plate assembly 24.

The side plates 22 include two pieces, and are fixedly connected to both side ends of the bottom plate 21. The blocking baffle assembly 23 comprises a blocking baffle 231, a blocking baffle support plate 232 and a blocking baffle rotating shaft 233; the blocking baffle rotating shaft 233 is rotatably connected with the side plate 22, one end of the blocking baffle supporting plate 232 is fixedly connected with the blocking baffle rotating shaft 233, the other end of the blocking baffle supporting plate 232 is hinged with one end of the blocking baffle 231, the other end of the blocking baffle 231 is slidably connected with the side plate 22, a protrusion is arranged at the other end of the blocking baffle 231, and the protrusion extends into a groove or a through groove in the side plate 22 to be slidably connected.

When in use, the blocking baffle 231 can be lifted or dropped by the blocking baffle support plate 232 under the driving of the blocking baffle rotating shaft 233.

The energy collecting guard plate assembly 24 comprises an energy collecting guard plate 241, an energy collecting plate group 242, an energy storage mandril 243 and a positioning guide rail 244.

One end of the energy collecting protection plate 241 is rotatably connected with the side plate 22, and a cylindrical protrusion is arranged at the bottom of one side of the energy collecting protection plate 241 and extends into a groove of the side plate 22 to realize the rotatable connection of the energy collecting protection plate 241 and the side plate 22. The energy collecting guard plate 241 and the blocking baffle 231 are arranged in parallel and are arranged on two sides of the bottom plate 21.

The energy collecting plate group 242, the energy storage mandril 243 and the positioning guide rail 244 are positioned at the lower part of the energy collecting guard plate 241, wherein the positioning guide rail 244 is fixed on the bottom plate 21, a through groove parallel to the length direction of the bottom plate 21 is arranged in the positioning guide rail, the energy storage mandril 243 is positioned in the through groove of the positioning guide rail 244, is close to one side of the case 1 and extends into the case 1 through a through hole arranged on the side plate 22. The other end of the energy storage mandril 243 far away from the case 1 is connected to the energy collecting plate group 242, the energy collecting plate group 242 comprises at least two energy collecting plates 242a, 10 energy collecting plates are shown in the figure and are connected with each other through a roller shaft, and a limiting protrusion 244a is arranged on one side, far away from the case 1, of the through groove of the positioning guide rail 244 to limit the position of the energy collecting plate group 242.

The two energy collecting plates 242a are connected through a roller shaft, and it can be seen that the roller shaft includes a main shaft and a roller arranged outside the main shaft, the main shaft is used for connecting the two energy collecting plates 242a, and the roller can effectively deal with the compression of the energy collecting plate group 242 by the energy collecting guard plate 241.

When the energy collecting device is used, when an automobile rolls over the energy collecting guard plate 241 and compresses the energy collecting plate group 242, the energy collecting plate group 242 extends to push the energy storage ejector rod 243 to move under the action of the limiting protrusion 244a in the through groove of the positioning guide rail 244.

As shown in fig. 1, 4, 5 and 6, the case 1 includes a case housing 11, an energy storage spring 12, an energy transmission bracket 13, an energy release rack 14 and a spindle gear 15.

The spindle gear 15 is connected to the blocking baffle rotating shaft 233, and the energy release rack 14 is matched with the spindle gear 15 to drive the blocking baffle rotating shaft 233 to rotate.

The energy storage spring 12 has one end fixed to the side wall of the chassis housing 11 and the other end fixed to the energy release rack 14, the energy release rack 14 is slidably fixed to the bottom plate of the chassis housing 11, and the energy storage spring 12 and the energy release rack 14 are arranged perpendicular to the energy storage mandril 243.

The energy transfer bracket 13 is positioned between the energy storage mandril 243 and the energy storage spring 12 and between the energy release racks 14, and comprises a pressure rod 13a and at least one push rod, one end of the pressure rod 13a is contacted with the energy storage mandril 243, the other end of the pressure rod 13a is hinged with the bottom plate of the case shell 11, and the energy storage mandril 243 can push the pressure rod 13a to rotate.

One end of the push rod is hinged with an energy release rack 14, the other end of the push rod is hinged with the pressure rod 13a, and the hinged position of the push rod and the energy release rack 14 is closer to the energy storage spring 12 than the hinged position of the push rod and the pressure rod 13 a.

The illustration includes two groups of push rods, namely a first push rod 13b1 and a second push rod 13b2, wherein one end of the second push rod 13b2 is hinged to the energy releasing rack 14, the other end is hinged to the pressure rod 13a, and the position where the second push rod 13b2 is hinged to the energy releasing rack 14 is closer to the energy storage spring 12 than the position where the second push rod 13b2 is hinged to the pressure rod 13 a. The second push rod 13b2 is hinged with the energy releasing rack 14 and is also hinged with a connecting rod 13b3, the other end of the connecting rod 13b3 is hinged with a first push rod 13b1, and the other end of the first push rod 13b1 is inserted into a groove arranged on a pushing projection 141 on the energy releasing rack 14. The design of the structure can ensure the stability of the energy in the process of transferring the energy to the energy storage spring 12.

In order to prevent the energy storage spring 12 from being compressed excessively, an energy release rack limiting protrusion 11a is further provided, and the energy release rack limiting protrusion 11a is arranged on the bottom plate of the case shell 11 and matched with the pushing protrusion 141 to limit the compression of the energy storage spring 12.

When the energy storage spring 12 is released, the energy release rack 14 drives the spindle gear 15 to rotate, and further drives the blocking baffle rotating shaft 233 to rotate, so that the blocking baffle 231 stands up to complete locking. When the vehicle drives away from the parking space, the vehicle firstly rolls on the energy collecting guard plate 241, the energy releasing rack 14 is driven to move in the compression process of the energy storage spring 12, and then the main shaft gear 15 is driven to rotate so as to put down the blocking baffle 231.

In order to lock the compressed energy storage spring 12, a limiting shell 16 is arranged above the energy release rack 14, the bottom of the limiting shell 16 is fixed to the bottom plate of the chassis shell 11, a through hole is formed in the limiting shell, two through grooves 161 are oppositely formed in the side surface of the limiting shell 16, a limiting stop lever 162 is arranged in each through groove, the limiting stop lever 162 is a metal round rod, and the diameter of the limiting stop lever 162 is 100% -110% of the distance between the roots of the two racks on the energy release rack 14. The upper portion of the limit stopper 162 is provided with a movable rack 162a, and the movable rack 162a extends out through a through hole on the upper portion of the limit casing 16 to be matched with a movable gear arranged on a movable motor 163, so as to realize the up-and-down movement of the limit stopper 162.

In order to realize real-time sensing of the vehicle state, a sensing laser probe 10 is further arranged, and the sensing laser probe a is arranged on the outer wall of the machine box shell 11. A detecting and evidence-obtaining camera b is arranged on the casing 11 in the direction close to the outlet of the parking space, and is used for obtaining the license plate information of the vehicle in the process of parking the vehicle into the parking space.

The emergency unlocking mechanism is characterized in that an emergency unlocking handle 17 is further arranged on the outer side of the case, a manual unlocking gear 171 arranged on the upper portion of the limiting shell 16 is rotatably arranged at the other end of the emergency unlocking handle 17 through a worm gear structure, the manual unlocking gear 171 is matched with the movable rack 162a, and emergency unlocking is achieved through manual movement of the limiting stop lever 162 after the movable motor 163 loses electric power. The illustration 171a is a worm provided at the end of the emergency release handle 17. 171b is a worm wheel engaged with the worm 171a, the worm wheel 171b and a central axis of the manual unlocking gear 171 are a central axis, the central axis is fixed on the limit shell 16 through an axle seat, and the manual unlocking gear 171 can be driven by the worm wheel 171b to rotate.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," "disposed," and the like are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Certain terms are used throughout the description and following claims to refer to particular components. One of ordinary skill in the art will appreciate that manufacturers may refer to a component by different names. This document does not intend to distinguish between components that differ in function but not name. In the following description and claims, the terms "comprising," including, "and" comprising "are intended to be open-ended terms such that they should be interpreted as" including, but not limited to. . . The meaning of "" is.

In addition, it should be noted that, in the description of the present invention, the terms "first", "second", and the like are used to define the components, and are only used for convenience of distinguishing the corresponding components, and if not stated otherwise, the above terms do not have special meanings, and therefore, the scope of protection of the present application is not to be construed as being limited, and in the description of the present invention, unless otherwise stated, the meaning of "a plurality" means two or more.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (9)

1. An automatic energy storage type parking space lock is characterized by comprising a case, a blocking unit and a lock head rubber buffer protection pad; the machine case and the blocking unit are connected with each other, and the lock rubber buffer protection pad is arranged at the end part of the blocking unit far away from the machine case; the blocking unit comprises a bottom plate, a side plate, a blocking baffle assembly and an energy collecting guard plate assembly; the side plates are fixedly connected to the end parts of the two sides of the bottom plate; the energy collecting guard plate assembly comprises an energy collecting guard plate, an energy collecting plate group, an energy storage ejector rod and a positioning guide rail; one end of the energy collecting guard plate is rotatably connected with the side plate, and the energy collecting guard plate and the blocking baffle plate assembly are arranged on two sides of the bottom plate in parallel; the energy collecting plate group, the energy storage ejector rod and the positioning guide rail are positioned at the lower part of the energy collecting guard plate; the energy storage ejector rod is positioned in the through groove of the positioning guide rail, is close to one side of the case, and extends into the case through a through hole arranged on the side plate; the other end of the energy storage ejector rod, which is far away from the case, is connected to an energy collecting plate group, the energy collecting plate group comprises at least two energy collecting plates, the energy collecting plates are connected with each other through roller shafts, and a limiting bulge is arranged on one side, which is far away from the case, of the positioning guide rail through groove.

2. The automatic energy storage type parking space lock according to claim 1, wherein the blocking baffle assembly comprises a blocking baffle, a blocking baffle support plate and a blocking baffle rotating shaft; the stopping baffle plate rotating shaft is rotatably connected with the side plate, one end of the stopping baffle plate supporting plate is fixedly connected with the stopping baffle plate rotating shaft, the other end of the stopping baffle plate supporting plate is hinged with one end of the stopping baffle plate, and the other end of the stopping baffle plate is slidably connected with the side plate.

3. The automatic energy storage type parking space lock according to claim 1, wherein the case comprises a case shell, an energy storage spring, an energy transmission bracket, an energy release rack and a spindle gear; the main shaft gear is connected to the rotating shaft of the blocking baffle, and the energy releasing rack is matched with the main shaft gear; one end of the energy storage spring is fixed on the side wall of the case shell, the other end of the energy storage spring is fixed on the energy release rack, the energy release rack can be fixed on the bottom plate of the case shell in a sliding manner, and the energy storage spring and the energy release rack are vertically arranged with the energy storage ejector rod; the energy transfer bracket is positioned between the energy storage mandril and the energy storage spring and between the energy release racks.

4. The automatic energy storage type parking space lock according to claim 3, wherein the energy transmission bracket comprises a compression bar and at least one push rod, one end of the compression bar is contacted with the energy storage ejector rod, and the other end of the compression bar is hinged with the bottom plate of the chassis shell; one end of the push rod is hinged with the pushing bulge on the energy releasing rack, the other end of the push rod is hinged with the pressure rod, and the hinged position of the push rod and the energy releasing rack is closer to the energy storage spring than the hinged position of the push rod and the pressure rod.

5. The automatic energy storage type parking space lock according to claim 4, wherein the push rods are two groups, namely a first push rod and a second push rod, wherein one end of the second push rod is hinged with the energy release rack, the other end of the second push rod is hinged with the pressure rod, and the hinged part of the second push rod and the energy release rack is also hinged with the connecting rod; the other end of the connecting rod is hinged to a first push rod, and the other end of the first push rod is inserted into a groove arranged on a pushing bulge on the energy releasing rack.

6. The automatic energy storage type parking space lock according to claim 3, further comprising an energy release rack limiting protrusion, wherein the energy release rack limiting protrusion is arranged on the bottom plate of the chassis shell and matched with the pushing protrusion.

7. The automatic energy storage type parking space lock according to claim 3, wherein a limiting shell is disposed above the energy releasing rack, the bottom of the limiting shell is fixed to the bottom plate of the chassis housing, a through hole is disposed inside the limiting shell, two through grooves are oppositely disposed on the side surface of the limiting shell, a limiting stop rod is disposed in each through groove, each limiting stop rod is a metal rod, a moving rack is disposed on the upper portion of each limiting stop rod, and the moving rack extends out through the through hole on the upper portion of the limiting shell and is matched with a moving gear disposed on the moving motor.

8. The automatic energy storage type parking space lock according to claim 3, further comprising an inductive laser probe and a detection and evidence-taking camera, wherein the inductive laser probe is arranged on the outer wall of the casing of the machine case and is close to one side of the parking space in the outlet direction.

9. The automatic energy storage type parking space lock according to claim 7, further comprising an emergency unlocking handle, a manual unlocking gear; the emergency unlocking handle is arranged on the outer wall of the case shell, the other end of the emergency unlocking handle is connected to a manual unlocking gear arranged on the upper portion of the limiting shell through a worm gear structure, and the manual unlocking gear is matched with the movable rack.

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