CN212423077U - Instructional car electronic brake mechanism with high automation degree - Google Patents

Abstract

The utility model discloses a learner-driven vehicle electronic brake mechanism of high degree of automation, including protection outer container, arresting gear, extrusion piece, location nail and protection pad, install connecting wire on the protection outer container, and install signal transmission device and information integrator on the connecting wire to connecting wire installs on the connecting plate, arresting gear installs on the connecting plate, and installs on the connecting plate and accept the pole to the welding has the fixed plate on the connecting plate, and the welding has electric telescopic handle on the fixed plate simultaneously, the welding of extrusion piece is on electric telescopic handle, and extrusion piece and movable plate laminate each other to movable plate and protection outer container interconnect. This learner-driven vehicle electron brake mechanism of high degree of automation adopts the block structure to install it fixedly to be convenient for dismantle and change the protection outer container, convenient and fast more adopts the mode that promotes the apron, thereby is convenient for dismantle the electron brake equipment of protection outer container inside.

Description

Instructional car electronic brake mechanism with high automation degree

Technical Field

The utility model relates to an electron brake technical field specifically is a learner-driven vehicle electron brake mechanism of high degree of automation.

Background

Along with the development of science and technology, people also attach more and more importance to the safety problem of traffic driving, slowly improve to the electron brake from the brake of traditional manual pulling formula to make the brake effect better, to the learner-driven vehicle, the student often causes the accident because of forgetting to stimulate the manual brake, this phenomenon of avoiding that the electron brake can be better.

However, there are problems in using the electronic brake, for example, the conventional electronic brake adopts a screw fixing or integrated structure, so that it is inconvenient to detach and replace the electronic brake, and once the interior of the electronic brake needs to be repaired, the whole housing needs to be detached, which is time-consuming and labor-consuming.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a learner-driven vehicle electronic brake mechanism of high degree of automation to provide the integral structure and be not convenient for dismantle in solving above-mentioned background art, be difficult to carry out the problem of maintaining to its inside.

In order to achieve the above object, the utility model provides a following technical scheme: an electronic brake mechanism of a high-automation-degree instruction car comprises a protection outer box, a brake device, an extrusion block, a positioning nail and a protection pad, wherein a connecting wire is installed on the protection outer box, a signal transmission device and an information integrator are installed on the connecting wire, the connecting wire is installed on a connecting plate, the brake device is installed on the connecting plate, a connecting rod is installed on the connecting plate, a fixing plate is welded on the connecting plate, an electric telescopic rod is welded on the fixing plate, the extrusion block is welded on the electric telescopic rod, the extrusion block and a moving plate are mutually attached, the moving plate and the protection outer box are mutually connected, the positioning nail and the moving plate are mutually attached, the positioning nail and a mounting plate are mutually attached, a working spring is installed on the mounting plate, the working spring is installed on the positioning nail, the protection pad is installed on the mounting plate, and the protection pad is laminated with the protection outer box each other to the laminating has the second slider on the protection outer box, and the second slider is installed on the apron simultaneously.

Preferably, the number of the fixing plates is 2, and the fixing plates are arranged symmetrically with respect to the center of the protective outer box and are in a long strip plate-shaped structure.

Preferably, the extrusion blocks are trapezoidal, and the outer surfaces of the extrusion blocks are smooth.

Preferably, the movable plate comprises a clamping block, a first slider and a functional spring, the clamping block is mounted on the movable plate, the clamping block is attached to the mounting plate, the first slider is mounted on the movable plate, the first slider is attached to the protection outer box, the functional spring is mounted on the protection outer box, and the functional spring is mounted on the first slider.

Preferably, the first sliding block is in sliding connection with the protective outer box through a groove formed in the protective outer box, and the outer surface of the first sliding block is smooth.

Preferably, the positioning nails are arranged in a T shape and are symmetrically distributed relative to the fixing plate.

Compared with the prior art, the beneficial effects of the utility model are that: the electronic brake mechanism of the instructional car with high automation degree is installed and fixed by adopting a clamping structure, so that the protective outer box is convenient to detach and replace, and is more convenient and rapid;

1. the position of the extrusion block can be changed by the operation of the electric telescopic rod, so that the movable plate is pushed, the clamping block and the groove formed in the mounting plate are clamped and fixed with each other, and the protective outer box is convenient to detach and mount;

2. under the spacing effect of second slider support, the apron can be controlled and remove to be convenient for change through the position to the apron, realize maintaining convenient and fast more to the inside of protection outer container.

Drawings

FIG. 1 is a schematic view of the sectional structure of the protective outer box of the present invention;

FIG. 2 is a schematic side view of the fixing plate according to the present invention;

fig. 3 is a schematic view of the top-view cross-sectional structure of the fixing plate of the present invention;

fig. 4 is a schematic side view of the first slider.

In the figure: 1. protecting the outer box; 2. connecting a lead; 3. a signal transfer device; 4. an information integrator; 5. a connecting plate; 6. a braking device; 7. a bearing rod; 8. a fixing plate; 9. an electric telescopic rod; 10. extruding the block; 11. moving the plate; 1101. a clamping block; 1102. a first slider; 1103. a functional spring; 12. positioning nails; 13. a working spring; 14. mounting a plate; 15. a protection pad; 16. a second slider; 17. and (7) a cover plate.

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.

Referring to fig. 1-4, the present invention provides a technical solution: an electronic brake mechanism of a high-automation-degree instruction car comprises a protective outer box 1, a connecting lead 2, a signal transmission device 3, an information integrator 4, a connecting plate 5, a brake device 6, a bearing rod 7, a fixed plate 8, an electric telescopic rod 9, an extrusion block 10, a movable plate 11, a clamping block 1101, a first slide block 1102, a functional spring 1103, a positioning nail 12, a working spring 13, a mounting plate 14, a protective pad 15, a second slide block 16 and a cover plate 17, wherein the connecting lead 2 is installed on the protective outer box 1, the signal transmission device 3 and the information integrator 4 are installed on the connecting lead 2, the connecting lead 2 is installed on the connecting plate 5, the brake device 6 is installed on the connecting plate 5, the bearing rod 7 is installed on the connecting plate 5, the fixed plate 8 is welded on the connecting plate 5, the electric telescopic rod 9 is welded on the fixed plate 8, the extrusion block 10 is welded on the electric telescopic rod 9, and extrusion block 10 and movable plate 11 are laminated each other to movable plate 11 and protection outer box 1 interconnect, and location nail 12 and movable plate 11 are laminated each other, and location nail 12 and mounting panel 14 are laminated each other, and install work spring 13 on mounting panel 14, and work spring 13 installs on location nail 12 simultaneously, and protection pad 15 installs on mounting panel 14, and protection pad 15 and protection outer box 1 are laminated each other, and the laminating has second slider 16 on the protection outer box 1, and second slider 16 installs on apron 17 simultaneously.

In this example, 2 fixing plates 8 are symmetrically arranged about the center of the protective outer box 1, the fixing plates 8 are arranged in a strip-shaped plate-shaped structure, 2 fixing plates 8 are symmetrically arranged about the center of the protective outer box 1, so that the fixing of the two ends of the protective outer box 1 is facilitated, and the fixing plates 8 are arranged in a strip-shaped plate-shaped structure, so that the stress area is larger;

the extrusion block 10 is trapezoidal, the outer surface of the extrusion block 10 is smooth, the position of the moving plate 11 can be conveniently changed by arranging the extrusion block 10 to be trapezoidal, and the outer surface of the extrusion block 10 is smooth, so that the friction force between the extrusion block and the moving plate 11 is reduced;

the movable plate 11 comprises a clamping block 1101, a first slider 1102 and a functional spring 1103, the clamping block 1101 is mounted on the movable plate 11, the clamping block 1101 is attached to the mounting plate 14, the first slider 1102 is mounted on the movable plate 11, the first slider 1102 is attached to the protective outer box 1, the functional spring 1103 is mounted on the protective outer box 1, and the functional spring 1103 is mounted on the first slider 1102;

the first slider 1102 is in sliding connection with the protective outer box 1 through a groove formed in the protective outer box 1, the outer surface of the first slider 1102 is smooth, so that the movement range of the first slider 1102 is conveniently limited, and the outer surface of the first slider 1102 is smooth, so that the first slider 1102 can move in the groove formed in the protective outer box 1 conveniently;

the location nail 12 sets up to "T" style of calligraphy, and the location nail 12 is the symmetric distribution about fixed plate 8, and the location nail 12 sets up to "T" style of calligraphy, is convenient for change the position of location nail 12, and the location nail 12 is the symmetric distribution about fixed plate 8, is convenient for fix the position of protection outer container 1 once more.

The working principle is as follows: when the interior of the protective outer box 1 needs to be maintained, the cover plate 17 in fig. 2 is pushed, and because the second slider 16 is installed on the cover plate 17 and the second slider 16 is in sliding connection with the protective outer box 1 through the groove formed in the protective outer box 1, the second slider 16 starts to move in the direction away from the protective outer box 1, namely, the maintenance of the interior of the protective outer box 1 can be realized at the moment;

when the protective outer box 1 needs to be installed, the electric telescopic rod 9 in fig. 2 is connected with an external power supply and starts to work, along with the work of the electric telescopic rod 9, the electric telescopic rod 9 starts to move downwards, along with the downward movement of the electric telescopic rod 9, the extrusion block 10 installed on the electric telescopic rod 9 also starts to move downwards, at this time, the extrusion block 10 is attached to the moving plate 11 and extrudes the moving plate 11, at this time, the moving plate 11 starts to move in the direction away from each other under the action of the first slider 1102 in fig. 1, that is, the first slider 1102 in fig. 4 moves in the direction away from each other, the functional spring 1103 is stretched and deformed, when the moving plate 11 in fig. 2 moves towards the left end and the right end, the engagement block 1101 installed on the moving plate 11 also starts to move towards the two ends, then the positioning pin 12 is pulled upwards, and the functional spring 1103 installed on the positioning pin 12 is stretched and deformed, when the engagement block 1101 and the attachment plate 14 are attached to each other, the positioning pins 12 are released, and the positioning pins 12 start to be attached to the engagement block 1101 by the function springs 1103, so that the engagement block 1101, that is, the protective outer box 1 is fixed again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a learner-driven vehicle electronic brake mechanism of high degree of automation, includes protection outer container (1), arresting gear (6), extrusion piece (10), location nail (12) and protection pad (15), its characterized in that: the protection device is characterized in that a connecting wire (2) is installed on the protection outer box (1), a signal transmission device (3) and an information integrator (4) are installed on the connecting wire (2), the connecting wire (2) is installed on the connecting plate (5), the brake device (6) is installed on the connecting plate (5), the connecting plate (5) is provided with a bearing rod (7), the connecting plate (5) is welded with a fixed plate (8), an electric telescopic rod (9) is welded on the fixed plate (8), the extrusion block (10) is welded on the electric telescopic rod (9), the extrusion block (10) is mutually attached to the movable plate (11), the movable plate (11) is mutually connected with the protection outer box (1), the positioning nail (12) is mutually attached to the movable plate (11), the positioning nail (12) is mutually attached to the mounting plate (14), and the mounting plate (14) is provided with a working spring (13), work spring (13) are installed on location nail (12) simultaneously, install on mounting panel (14) protection pad (15), and protection pad (15) and protection outer container (1) laminate each other to the laminating has second slider (16) on protection outer container (1), and second slider (16) are installed on apron (17) simultaneously.

2. The electronic brake mechanism of the instructional car with high automation degree of claim 1, wherein: the fixed plate (8) is symmetrically provided with 2 about the center of the protective outer box (1), and the fixed plate (8) is of a long strip plate-shaped structure.

3. The electronic brake mechanism of the instructional car with high automation degree of claim 1, wherein: the extrusion block (10) is trapezoidal, and the outer surface of the extrusion block (10) is smooth.

4. The electronic brake mechanism of the instructional car with high automation degree of claim 1, wherein: the movable plate (11) comprises a clamping block (1101), a first slider (1102) and a functional spring (1103), the clamping block (1101) is installed on the movable plate (11), the clamping block (1101) is attached to an installation plate (14), the first slider (1102) is installed on the movable plate (11), the first slider (1102) is attached to a protection outer box (1), the functional spring (1103) is installed on the protection outer box (1), and the functional spring (1103) is installed on the first slider (1102).

5. The high-automation-degree instructional car electronic brake mechanism as claimed in claim 4, wherein: the first sliding block (1102) is in sliding connection with the protective outer box (1) through a groove formed in the protective outer box (1), and the outer surface of the first sliding block (1102) is smooth.

6. The electronic brake mechanism of the instructional car with high automation degree of claim 1, wherein: the positioning nails (12) are arranged in a T shape, and the positioning nails (12) are symmetrically distributed relative to the fixing plate (8).

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