CN220381616U - Large-capacity ETC storage mechanism and ETC storage issuing module - Google Patents

Abstract

The application relates to the technical field of ETC (electronic toll collection) release equipment, and provides a large-capacity ETC storage mechanism and an ETC storage release module, wherein the large-capacity ETC storage mechanism comprises: the device comprises a cabinet body and a plurality of trays, wherein the trays are arranged in the cabinet body in a sliding manner, the trays are taken and placed from the same side of the cabinet body, and ETC cards are placed in each tray; one side of the cabinet body is provided with a lock cabinet door, the other side of the cabinet body is provided with an interlocking mechanism, and the interlocking mechanism limits a plurality of trays in the cabinet body or releases the limitation of the trays. Each tray can be independently taken and placed, so that the out-of-order distribution of ETC cards is met, the selection requirement of a user is met, and the user experience is improved.

Description

Large-capacity ETC storage mechanism and ETC storage issuing module

Technical Field

The application belongs to the technical field of ETC (electronic toll Collection) release equipment, and particularly relates to a high-capacity ETC storage mechanism and an ETC storage release module.

Background

The automatic toll collection system is characterized in that the automatic toll collection system is an ETC (electronic toll collection) for short-distance communication between a vehicle and a toll station, wireless data communication between the vehicle and the toll station is completed by utilizing a vehicle automatic recognition technology, vehicle automatic recognition and exchange of related toll data are carried out, the toll data are processed through a computer network, the automatic toll collection system is an all-electronic toll collection system for realizing automatic toll collection without stopping, and the background settlement processing is carried out with a bank by utilizing a computer networking technology through the special microwave short-distance communication between a vehicle-mounted electronic tag arranged on a vehicle windshield and a microwave antenna on an ETC lane of the toll station, so that the purpose that the vehicle can pay for the toll by the road and bridge toll station without stopping is achieved. Therefore, with the development of expressways, the popularization and use of ETC are increasingly important. Therefore, more and more vehicle users need to transact ETC cards, and ETC card issuing equipment is needed in the transacting process, at present, ETC cards in the ETC card issuing equipment are generally stacked in order and have smaller capacity, and when transacted, users can only issue ETC cards in order.

Disclosure of Invention

An object of the embodiment of the present application is to provide a large-capacity ETC storage mechanism, which solves the technical problems of small storage capacity of ETC cards and only sequential release in the prior art.

In order to achieve the above purpose, the technical scheme adopted in the application is as follows: there is provided a high-capacity ETC storage mechanism including: the novel multifunctional cabinet comprises a cabinet body and a plurality of trays, wherein the trays are arranged in the cabinet body in a sliding manner, and are taken and placed from the same side of the cabinet body; ETC cards are placed in each tray;

one side of the cabinet body is provided with a lock cabinet door, the other side of the cabinet body is provided with an interlocking mechanism, and the interlocking mechanism limits a plurality of trays in the cabinet body or releases the limitation of the trays.

In one embodiment, a plurality of side plates are arranged at left and right intervals of the cabinet body, a plurality of sliding grooves are arranged at upper and lower intervals of each side plate, sliding plates are convexly arranged on two side plates of the tray, and the sliding plates are slidably arranged in the sliding grooves.

In one embodiment, the interlocking mechanism comprises a driving piece, a linkage plate, a rotating shaft, a connecting piece and locking pieces, wherein the driving piece is arranged at the bottom of the cabinet body, a plurality of locking pieces are arranged on the rotating shaft in a rotating mode and correspond to the number of the trays, the locking pieces are arranged on the rotating shaft and correspond to one row of the trays in number, the rotating shafts are in transmission connection with the linkage plate, the driving piece drives the linkage plate to swing left and right so that the rotating shaft rotates, and the locking pieces are driven to block the sliding plate or cancel to block the sliding plate when the rotating shaft rotates.

In one embodiment, the driving piece comprises a linkage motor, a gear and a rack, the linkage plate is arranged at the bottom of the cabinet body in a sliding manner through a sliding rail, the rack is arranged on the linkage plate, the linkage motor is connected with the rack in a transmission manner through the gear, the rotating shaft is connected with the linkage plate in a transmission manner through the connecting piece, one end of the connecting piece is fixedly connected with the rotating shaft, a waist-shaped groove is formed in the other end of the connecting piece, and a shifting column is arranged on the linkage plate and is connected with the connecting piece in a transmission manner through the waist-shaped groove.

In one embodiment, two position sensors are arranged at the bottom of the cabinet body, the two position sensors are located at the starting point and the ending point of the left-right swing of the linkage plate, and the linkage plate is provided with an induction piece.

In one embodiment, two ends of the linkage plate are respectively provided with a manual deflector rod, and the manual deflector rods extend to the outside of two sides of the cabinet body.

Another object of the present application is to provide an ETC storage issuance module, including: a gantry, a drive mechanism, a gate mechanism, a scanner assembly, and a high capacity ETC storage mechanism as described above;

the transmission mechanism is arranged on the bottom plate of the rack and used for taking the tray off the ETC storage mechanism and transferring the tray to a fetching port of the rack and returning the tray from the fetching port to the original position of the ETC storage mechanism; the gate mechanism is arranged at the top of the frame and used for opening and closing the object taking port; a scanner assembly is disposed on top of the frame for scanning information of the ETC cards within the tray.

In one embodiment, the ETC storage mechanism is provided with two and symmetrically arranged at two sides of the transmission mechanism.

The large-capacity ETC storage mechanism and the ETC storage issuing module provided by the application have the beneficial effects that: be provided with the tray that is the range setting in the ETC storage mechanism, placed corresponding ETC card in every tray, the memory space of the ETC card of assurance like this to and every tray is issued alone according to the user's demand with corresponding ETC card, satisfies the disorder of ETC card and issues like this, has satisfied user's selection demand, improves user experience.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following description will briefly introduce the drawings that are needed in the embodiments or the description of the prior art, it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a large-capacity ETC storage mechanism provided in an embodiment of the present application;

FIG. 2 is a schematic bottom view of a high-capacity ETC storage mechanism according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of an interlocking mechanism in a large-capacity ETC storage mechanism according to an embodiment of the present disclosure;

FIG. 4 is an enlarged view of FIG. 3 at A;

FIG. 5 is a schematic view of a portion of the structure of an interlocking mechanism in a mass ETC storage mechanism block provided in an embodiment of the present application;

fig. 6 is a schematic structural view of a locking plate blocking a sliding plate on the tray in the large-capacity ETC storage mechanism according to the embodiment of the present application;

fig. 7 is a schematic structural diagram of an ETC storage issuing module according to an embodiment of the present application.

Wherein, each reference sign in the figure:

1. a frame; 11. a bottom plate; 12. a material taking port; 2. an ETC storage mechanism; 21. a tray; 211. a slide plate; 212. a hook frame is arranged; 22. a cabinet body; 23. a side plate; 231. assembling plates; 24. a chute; 25. a lockset door; 26. an interlocking mechanism; 261. a driving member; 2611. a linkage motor; 2612. a gear; 2613. a rack; 262. a linkage plate; 2621. a slide rail; 2622. a poking column; 2623. an induction piece; 263. a rotating shaft; 264. a connecting sheet; 2641. a kidney-shaped groove; 265. a locking plate; 266. a position sensor; 267. a manual deflector rod; 3. a transmission mechanism; 31. a lifting assembly; 32. a left-right moving assembly; 33. a back and forth movement assembly; 34. hooking the rack; 341. a flat hook; 35. a gantry bracket; 36. a detection sensor; 4. a gate mechanism; 5. a scanner assembly.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved by the present application more clear, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present application and simplify description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and therefore should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

As shown in fig. 1-6, a detailed description will now be given of a large-capacity ETC storage mechanism provided in an embodiment of the present application. In the large-capacity ETC storage mechanism, a plurality of trays 21 and a cabinet 22, wherein the trays 21 are arranged in the cabinet 22 in a sliding manner, and each tray 21 is taken from the same side of the cabinet 22; each tray 21 has a corresponding ETC card placed therein; one side of the cabinet body 22 is provided with a lock cabinet door 25, the other side is provided with an interlocking mechanism 26, the other side of the cabinet body 22 is the picking and placing side of the trays 21 when ETC cards are issued, and the interlocking mechanism 26 limits the trays 21 in the cabinet body 22 or releases the limitation of the trays 21. The effect of tool to lock cabinet door 25 is when the ETC card in the tray 21 finishes giving out or need to carry out the replenishment to the ETC card in the tray 21, and equipment staff opens tool to lock cabinet door 25 through the key, then pulls out the tray 21 and put into the ETC card can. Wherein, the action of the interlocking mechanism 26 locks each tray 21 in the cabinet 22 or unlocks each tray 21, which is used for ensuring the safety of the trays 21 and only needs to operate once to lock or unlock all trays 21, thereby reducing operation steps and saving time. The top of the cabinet 22 is provided with a tray extension detecting sensor 36 and a cabinet door detecting sensor 36 for respectively sensing the states of the tray 21 and the lock cabinet door 25. In the present embodiment, the respective trays 21 are identical in structure.

In this embodiment, the ETC storage mechanism 2 is provided with the trays 21 arranged in a row, each tray 21 is internally provided with corresponding ETC cards, and each tray 21 individually issues the corresponding ETC cards according to the user requirements, so that the out-of-order issuing of the ETC cards is satisfied, the selection requirements of the user are satisfied, and the user experience is improved.

As shown in fig. 1, 2 and 6, the cabinet 22 includes a top plate, a side plate 23 and a base, the lock cabinet door 22 corresponds to a front plate of the cabinet 22, and the picking and placing side of the tray 21 is the rear side of the cabinet 22; the side plates 23 are arranged at left and right intervals, a row of trays 21 is formed between the two side plates 23, a plurality of sliding grooves 24 are arranged on each side plate 23 at upper and lower intervals, and a row of trays 21 is formed by the sliding grooves 24 with the same height on the plurality of rows of side plates 23, so that the arrangement of the trays 21 is realized. A horizontal partition may also be provided within the cabinet 22 to model the interior of the cabinet 22. The two side plates of the tray 21 are provided with the sliding plates 211 in a protruding mode, and the sliding plates 211 are arranged in the sliding grooves 24 with the same height on the two adjacent side plates 23 in a sliding mode, so that the tray 21 can be conveniently taken and placed. Specifically, the assembling plates 231 are mounted on the side plates 23 by screws, the sliding grooves 24 are formed in the assembling plates 231, and the assembling plates 231 are made of plastic and are manufactured by using molds, so that mass production is facilitated, and every two assembling plates 231 are used for slidably mounting one tray 21. The inlet end of the chute 24 is arranged in a horn shape and has a guiding function, so that the tray 21 is convenient to insert, and the precision requirement is reduced.

As shown in fig. 2, 3, 4 and 5, in the present embodiment, the interlocking mechanism 26 includes a driving member 261, a linkage plate 262, a rotation shaft 263, a connecting piece 264 and a locking piece 265. Wherein, the driving piece 261 sets up the bottom at the base of the cabinet body 22, and the both ends rotation of pivot 263 sets up on base and roof, and pivot 263 is provided with many and corresponds the setting of the column number of tray 21, say: as shown in fig. 1 and 3, the tray 21 is provided with four columns, and the rotation shafts 263 are provided with four. In this embodiment, the locking plate 265 is disposed on the rotating shaft 263, the locking plate 265 is integrally in an E-shaped structure, the number of blocking pieces on the locking plate 265 is the same as that of the trays 21 in a row of trays 21, and the locking plate 265 is fixed on the rotating shaft 263 by screws. One end of the rotating shaft 263, which is close to the base, is in transmission connection with the linkage plate 262, the linkage plate 262 is arranged on the base in a sliding manner, the driving piece 261 drives the linkage plate 262 to swing left and right so as to enable the rotating shaft 263 to rotate, and the locking plate 265 is driven to block the sliding plate 211 or cancel blocking the sliding plate 211 when the rotating shaft 263 rotates. Specifically, the rotation shaft 263 horizontally rotates, and when the blocking piece on the locking piece 265 is parallel to the slide groove 24, the blocking piece cancels the blocking slide plate 211, and when the blocking piece is perpendicular to the slide groove 24, the blocking piece blocks the slide plate 211, thus preventing the tray 21 from being pulled out.

As shown in fig. 3 to 5, in the present embodiment, the driving member 261 includes a linkage motor 2611, a gear 2612 and a rack 2613; the linkage motor 2611 is fixed at the bottom of the base through a support, the linkage plate 262 is arranged at the bottom of the base of the cabinet body 22 in a sliding mode through a sliding rail 2621, the rack 2613 is arranged on the linkage plate 262, the output shaft of the linkage motor 2611 is provided with a gear 2612, the gear 2612 is connected with the rack 2613 in a meshed mode, and therefore when the motor rotates positively and negatively, the linkage plate 262 can slide left and right through the gear 2612 and the rack 2613, and locking and unlocking of the locking plate 265 are achieved.

In this embodiment, the rotating shaft 263 is in transmission connection with the linkage plate 262 through a connecting piece 264, one end of the connecting piece 264 is fixedly connected with the rotating shaft 263, a kidney-shaped groove 2641 is formed in the other end of the connecting piece 264, a shifting column 2622 is arranged on the linkage plate 262, and the shifting column 2622 is in transmission connection with the connecting piece 264 through the kidney-shaped groove 2641. When the linkage plate 262 slides left and right, the connecting piece 264 swings left and right through the poking column 2622, and when the connecting piece 264 swings left and right, the rotating shaft 263 is driven to rotate forward or reversely, and the locking plate 265 locks or unlocks the tray 21 by rotating the rotating shaft 263 forward or reversely.

In this embodiment, two position sensors 266 are disposed at the bottom of the base of the cabinet 22, the two position sensors 266 are located at the start point and the end point of the left-right swing of the linkage plate 262, and the linkage plate 262 is provided with a sensing piece 2623, and when the sensing piece 2623 is sensed by the position sensors 266, the linkage motor 2611 stops working.

In this embodiment, two ends of the linkage plate 262 are respectively provided with a manual lever 267, and the manual levers 267 extend to the outside of two sides of the cabinet 22. The manual shift lever 267 is used for realizing the left-right sliding of the linkage plate 262 in a manual mode, so that the tray 21 is unlocked or locked, and the manual shift lever 267 is a standby scheme for emergency treatment under the condition of power failure.

As shown in fig. 1, the present embodiment further provides an ETC storage issuing module, including: a gantry 1, an ETC storage mechanism 2, a transmission mechanism 3, a shutter mechanism 4, and a scanner assembly 5. The transmission mechanism 3, the gate mechanism 4 and the scanner assembly 5 are all of the existing structures. Wherein the ETC storage mechanism 2 is arranged on the bottom plate 11 of the frame 1; the top of the frame 1 is provided with a fetching port 12 for a user to fetch ETC cards. The transmission mechanism 3 is arranged on the bottom plate 11 and positioned at the pulled side of the tray 21, the transmission mechanism 3 is an existing triaxial displacement transmission mechanism, and the transmission mechanism 3 is used for taking down each tray 21 from the ETC storage mechanism 2 and transferring the tray 21 to the object taking port 12 of the frame 1 and returning the tray 21 after the user takes out the ETC card from the object taking port 12 to the original position of the ETC storage mechanism 2; the gate mechanism 4 is arranged at the top of the frame 1 and used for opening and closing the object taking port 12, when no user transacts, the gate mechanism 4 closes the object taking port 12, and when the user transacts the ETC card, the gate mechanism 4 opens the object taking port 12 so as to enable the user to take the ETC card transacted by the user. The scanner assembly 5 is provided on top of the chassis 1 and is used to scan the information of the ETC cards in the tray 21, thus for confirming and recording the information of the ETC cards. Wherein, the gate of the gate mechanism 4 can be driven by adopting a mode of combining a motor with a belt, and the scanner of the scanner assembly 5 is arranged at the top of the frame 1 through a bracket, and specifically, the conveying mechanism 3, the gate mechanism 4 and the scanner assembly 5 are all existing equipment and are not described in detail herein.

As shown in fig. 1, in the present embodiment, the ETC storage mechanism 2 is provided with two and symmetrically disposed on both sides of the transmission mechanism 3, wherein the pulled-out side of the tray 21 is disposed close to the transmission mechanism 3, which further increases the storage amount of the ETC card, and simultaneously, the issuance of the ETC card can be completed with only one set of transmission mechanism 3, thereby reducing the cost. The transmission mechanism 3 is an existing triaxial displacement transmission mechanism, and generally comprises a lifting assembly, a left-right movement assembly and a front-back movement assembly, and is used for realizing triaxial movement of the tray 21 along the X axis, the Y axis and the Z axis. The back and forth moving component is provided with a hooking frame for pulling the tray 21, the tray 21 is provided with a hook, the hooking frame can be used for being hooked with the hook, and the hook is of a T-shaped structure. The lifting assembly is arranged on the bottom plate 11 of the frame 1, the left-right moving assembly is arranged on the lifting assembly, the front-back moving assembly is arranged on the left-right moving assembly, the lifting assembly, the left-right moving assembly and the front-back moving assembly are used for realizing triaxial displacement of a hooking frame, and the hooking frame is used for pulling out a tray and returning the tray to a home position. In this embodiment, the lifting assembly, the left-right moving assembly and the front-back moving assembly may adopt conventional linear reciprocating driving structures such as an existing screw assembly or a motor belt transmission assembly.

The foregoing description of the preferred embodiments of the present application is not intended to be limiting, but is intended to cover any and all modifications, equivalents, and alternatives falling within the spirit and principles of the present application.

Claims (8)

1. A high-capacity ETC storage mechanism, comprising: the device comprises a cabinet body (22) and a plurality of trays (21), wherein the trays (21) are arranged in the cabinet body (22) in a sliding manner, and the trays (21) are taken from the same side of the cabinet body (22); -each of said trays (21) has an ETC card placed therein;

one side of the cabinet body (22) is provided with a lock cabinet door (25), the other side is provided with an interlocking mechanism (26), and the interlocking mechanism (26) limits a plurality of trays (21) in the cabinet body (22) or releases the limitation of the trays (21).

2. The large-capacity ETC storage mechanism according to claim 1, wherein a plurality of side plates (23) are arranged at left and right intervals on the cabinet body (22), a plurality of sliding grooves (24) are arranged on each side plate (23) at up and down intervals, sliding plates (211) are convexly arranged on two side plates of the tray (21), and the sliding plates (211) are slidably arranged in the sliding grooves (24).

3. The mass ETC storage mechanism of claim 2, wherein: the interlocking mechanism (26) comprises a driving piece (261), a linkage plate (262), a rotating shaft (263), connecting pieces (264) and locking plates (265), wherein the driving piece (261) is arranged at the bottom of the cabinet body (22), the rotating shaft (263) is rotatably provided with a plurality of locking plates (265) and corresponds to the arrangement of the columns of the trays (21), the locking plates (265) are arranged on the rotating shaft (263) and correspond to one column of the arrangement of the number of the trays (21), the rotating shaft (263) is in transmission connection with the linkage plate (262), the driving piece (261) drives the linkage plate (262) to swing left and right so as to enable the rotating shaft (263) to rotate, and the locking plates (265) are driven to block the sliding plate (211) or cancel blocking the sliding plate (211) when the rotating shaft (263) rotates.

4. A mass ETC storage mechanism as defined in claim 3, wherein: the driving piece (261) comprises a linkage motor (2611), a gear (2612) and a rack (2613), the linkage plate (262) is slidably arranged at the bottom of the cabinet body (22) through a sliding rail (2621), the rack (2613) is arranged on the linkage plate (262), the linkage motor (2611) is in transmission connection with the rack (2613) through the gear (2612), the rotating shaft (263) is in transmission connection with the linkage plate (262) through a connecting piece (264), one end of the connecting piece (264) is fixedly connected with the rotating shaft (263), a kidney-shaped groove (2641) is formed in the other end of the connecting piece, a poking column (2622) is arranged on the linkage plate (262), and the poking column (2622) is in transmission connection with the connecting piece (264) through the kidney-shaped groove (2641).

5. The mass ETC storage mechanism of claim 4, wherein: the bottom of the cabinet body (22) is provided with two position sensors (266), the two position sensors (266) are positioned at the starting point and the end point of the left-right swing of the linkage plate (262), and the linkage plate (262) is provided with a sensing piece (2623).

6. The mass ETC storage mechanism of claim 5, wherein: both ends of the linkage plate (262) are respectively provided with a manual deflector rod (267), and the manual deflector rods (267) extend out of both sides of the cabinet body (22).

An etc storage issuance module, comprising: -a gantry (1), a transmission mechanism (3), a shutter mechanism (4) and a scanner assembly (5), characterized by further comprising a high-capacity ETC storage mechanism (2) according to any one of claims 1-6;

wherein the transmission mechanism (3) is arranged on the bottom plate (11) of the rack (1) and is used for removing the tray (21) from the ETC storage mechanism (2) and transferring the tray to the object taking port (12) of the rack (1) and returning the tray (21) from the object taking port (12) to the original position of the ETC storage mechanism (2); the gate mechanism (4) is arranged at the top of the frame (1) and used for opening and closing the object taking port (12); the scanner assembly (5) is arranged on the top of the rack (1) and is used for scanning information of the ETC card in the tray (21).

8. The ETC storage issuance module of claim 7, wherein: the ETC storage mechanism (2) is provided with two and symmetrically arranged on two sides of the transmission mechanism (3).