CN108248384B

CN108248384B - Throttle control device for vehicle

Info

Publication number: CN108248384B
Application number: CN201810080764.4A
Authority: CN
Inventors: 袁菊花
Original assignee: Jiaxing Dazhong Silk Printing Co Ltd
Current assignee: Jiaxing Dazhong silk printing Co., Ltd
Priority date: 2018-01-28
Filing date: 2018-01-28
Publication date: 2020-10-30
Anticipated expiration: 2038-01-28
Also published as: CN112026518A; CN112026517A; CN108248384A

Abstract

A throttle control device of a vehicle comprises an air bag, an air throttle and a throttle cylinder; the air throttle comprises an accelerator pedal, and an air inlet P port of the air throttle is communicated with the air bag; the device also comprises a centrifugal control mechanism, a motorized reversing valve and a mounting rack; the centrifugal control mechanism comprises a connecting ring, a spring and a centrifugal block; the centrifugal block is connected with the centrifugal block in a sliding mode, one end of the spring is fixedly connected to the connecting ring at the radial inner end of the sliding groove, and the other end of the spring is connected to the centrifugal block outwards in the radial direction; the motor-driven reversing valve is fixedly connected to the mounting frame, a roller of the motor-driven reversing valve is in contact with or separated from the centrifugal block, an air inlet P port of the motor-driven reversing valve is communicated with an execution port A of the air throttle, and an execution port A of the motor-driven reversing valve 2 is communicated with a rod cavity of the throttle cylinder. The invention can automatically cut off the accelerator when the vehicle is overspeed.

Description

Throttle control device for vehicle

Technical Field

The present invention relates to a vehicle, and more particularly to a throttle control device for a vehicle.

Background

As shown in FIG. 8, the throttle control device of the prior art vehicle comprises an air bag 50, an air throttle 51 and a throttle cylinder 52, wherein the air throttle 51 comprises a throttle pedal 51-1, an air inlet P port of the air throttle 51 is communicated with the air bag 50, and an execution port A port of the air throttle 51 is communicated with a rod cavity of the throttle cylinder 52. The piston rod of the throttle cylinder 52 is fixedly connected with a throttle switch on the vehicle. When a driver steps on an accelerator pedal 51-1 of the air throttle 51, an air inlet port P of the air throttle 51 is communicated with an execution port A, pressure air of the air bag 50 enters a rod cavity of the accelerator cylinder 52, a piston rod of the accelerator cylinder 52 acts and drives an accelerator switch on the vehicle to act, and the vehicle accelerates. The throttle control device of the vehicle cannot automatically cut off the throttle when the vehicle is overspeed, so that when the vehicle is overspeed and a driver still steps on the throttle, the running speed of the overspeed vehicle can be continuously accelerated, and the situation is very dangerous.

Disclosure of Invention

The invention aims to provide a vehicle accelerator control device which can automatically cut off an accelerator when a vehicle is over-speed.

In order to achieve the purpose, the invention adopts the following technical scheme: a throttle control device of a vehicle comprises an air bag, an air throttle and a throttle cylinder; the air throttle comprises an accelerator pedal, and an air inlet P port of the air throttle is communicated with the air bag; the device also comprises a centrifugal control mechanism, a motorized reversing valve and a mounting rack; the centrifugal control mechanism comprises a connecting ring, a spring and a centrifugal block; the centrifugal block is connected with the centrifugal block in a sliding mode, one end of the spring is fixedly connected to the connecting ring at the radial inner end of the sliding groove, and the other end of the spring is connected to the centrifugal block outwards in the radial direction; the motor-driven reversing valve is fixedly connected to the mounting frame, a roller of the motor-driven reversing valve is in contact with or separated from the centrifugal block, an air inlet P port of the motor-driven reversing valve is communicated with an execution port A of the air throttle, and an execution port A of the motor-driven reversing valve 2 is communicated with a rod cavity of the throttle cylinder.

The motorized reversing valve is fixedly connected to the mounting frame through bolts or screws.

Still include the baffle, baffle welded connection is on the mounting bracket.

The invention has the following positive effects: (1) because the connecting ring is provided with the radial sliding groove, the centrifugal block is connected in the sliding groove of the connecting ring in a sliding way, one end of the spring is fixedly connected to the connecting ring at the radial inner end of the sliding groove, and the other end of the spring is connected to the centrifugal block radially outwards; the motor-driven reversing valve is fixedly connected to the mounting frame, the roller of the motor-driven reversing valve is in contact with or separated from the centrifugal block, the air inlet P port of the motor-driven reversing valve is communicated with the execution port A of the air throttle, and the execution port A of the motor-driven reversing valve 2 is communicated with the rod cavity of the throttle cylinder. The centrifugal block can overcome the spring force of the spring to move outwards in the radial direction under the action of centrifugal force, the roller is pushed to enable the valve core to move, the motor-driven reversing valve is reversed, and the air inlet P port of the motor-driven reversing valve is not communicated with the execution port A. Therefore, the pressure gas in the gas bag can not enter the rod cavity of the accelerator cylinder, the piston rod of the accelerator cylinder can not act, and an accelerator switch on the vehicle can not be driven to act, namely, the accelerator is cut off. Namely, the invention can automatically cut off the accelerator when the vehicle runs at an overspeed. Therefore, when the vehicle is overspeed and the driver still steps on the accelerator, the running speed of the overspeed vehicle cannot be increased continuously, and the safety is high.

Drawings

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a schematic illustration of the attachment of the centrifugal control mechanism, the motorized reversing valve, and the mounting bracket of FIG. 1;

FIG. 3 is a schematic sectional view A-A of FIG. 2;

FIG. 4 is a schematic diagram of a portion of FIG. 2 at an eccentric mass;

FIG. 5 is a schematic cross-sectional view B-B of the centrifugal mass of FIG. 4 shown separated from the roller of the motorized reversing valve;

FIG. 6 is a schematic cross-sectional view B-B of the centrifugal mass of FIG. 4 in contact with a roller of a motorized reversing valve;

FIG. 7 is a schematic illustration of the attachment of the centrifugal control mechanism, motorized reversing valve, and mounting bracket of the present invention to an axle of a vehicle;

fig. 8 is a schematic diagram of a throttle control apparatus of a vehicle according to the related art.

The reference numbers in the above figures are as follows: the device comprises a centrifugal control mechanism 1, a motorized reversing valve 2, rollers 2-1, a mounting frame 3, a connecting ring 11, a sliding groove 11-1, a spring 12, a centrifugal block 13, a baffle plate 31, an air bag 50, an air throttle 51, an accelerator pedal 51-1, an accelerator cylinder 52, an axle housing 60, a half shaft 61 and a hub 62.

Detailed Description

The invention is further described below with reference to the accompanying drawings and the examples given.

As shown in fig. 1, a throttle control device for a vehicle includes an air bag 50, an air throttle 51, and a throttle cylinder 52; the air throttle 51 comprises an accelerator pedal 51-1, and an air inlet P port of the air throttle 51 is communicated with the air bag 50; the model of the air throttle 51 is P26716-0001 or P26716-000 of Lishile, and when a driver steps on an accelerator pedal 51-1 of the air throttle 51, an air inlet P port of the air throttle 51 is communicated with an execution port A port; when the driver does not depress the accelerator pedal 51-1 of the air accelerator 51, the port P of the air accelerator 51 is not communicated with the port a of the actuator. The device also comprises a centrifugal control mechanism 1, a motorized reversing valve 2 and a mounting rack 3; the motor-driven reversing valve 2 presses the roller 2-1 at the end part of the valve core to move the valve core by means of external force, under the normal condition, the motor-driven reversing valve 2 is in a normally open state, namely, an air inlet P port of the motor-driven reversing valve 2 is communicated with an execution port A, when the roller 2-1 at the end part of the valve core of the motor-driven reversing valve 2 is subjected to the external force, the roller 2-1 pushes the valve core to move, so that the motor-driven reversing valve 2 is reversed, the motor-driven reversing valve 2 can be reversed without manual operation, and the model of the motor-driven reversing valve 2 can be 23C-25B or 23C-25 BH. As shown in fig. 1 to 6, the centrifugal control mechanism 1 includes a connection ring 11, a spring 12, and a centrifugal block 13; the centrifugal block 13 is connected to the chute 11-1 of the connecting ring 11 in a sliding manner, one end of the spring 12 is fixedly connected to the connecting ring 11 at the radial inner end of the chute 11-1, one end of the spring 12 can be connected to the connecting ring 11 at the radial inner end of the chute 11-1 in a welding manner, or one end of the spring 12 can be provided with a hook, the connecting ring 11 at the radial inner end of the chute 11-1 is provided with a round hole, and the hook at one end of the spring 12 is tightly hooked in the round hole of the connecting ring 11. The other end of the spring 12 is connected to the centrifugal block 13 radially outwards; the other end of the spring 12 can be welded on the centrifugal block 13, or the other end of the spring 12 can be provided with a hook, the centrifugal block 13 is provided with a round hole, and the hook at the other end of the spring 12 is tightly hooked in the round hole of the centrifugal block 13. The motor-driven reversing valve 2 is fixedly connected to the mounting frame 3, a roller 2-1 of the motor-driven reversing valve 2 is in contact with or separated from the centrifugal block 13, an air inlet port P of the motor-driven reversing valve 2 is communicated with an execution port A of the gas throttle 51, and the execution port A of the motor-driven reversing valve 2 is communicated with a rod cavity of the throttle cylinder 52.

As shown in FIG. 6, when the centrifugal force of the centrifugal block 13 can overcome the acting force of the spring 12, the centrifugal block 13 can slide radially outward along the radial sliding slot 11-1 of the connecting ring 11 and then contact with the roller 2-1 of the mobile reversing valve 2, and push the roller 2-1 to move the valve core, and at this time, the air inlet port P of the mobile reversing valve 2 is not communicated with the execution port A. As shown in FIG. 5, when the centrifugal force of the centrifugal block 13 cannot overcome the acting force of the spring 12, the centrifugal block 13 is separated from the roller 2-1 of the motor-driven reversing valve 2 under the action of the spring 12, and the air inlet P of the motor-driven reversing valve 2 is communicated with the execution port A.

The motor-driven reversing valve 2 is fixedly connected to the mounting frame 3 through bolts or screws.

As shown in fig. 3 and 7, the device further comprises a baffle plate 31, and the baffle plate 31 is welded on the mounting frame 3. This makes the centrifugal mass 13 move more smoothly under the action of centrifugal force.

As shown in fig. 7, in the use of the present invention, the mounting bracket 3 is fixedly connected to an axle housing 60 of an axle of a vehicle by bolts or screws, the connection ring 11 of the centrifugal control mechanism 1 is fixedly connected to a hub 62 of the axle of the vehicle by bolts or screws, and the hub 62 is driven to rotate by a half shaft 61 of the axle. So that the attachment ring 11 of the centrifugal control mechanism 1 can rotate together with the hub 62 of the axle when the vehicle is running. The piston rod of the throttle cylinder 52 is fixedly connected to a throttle switch of an engine on the vehicle.

As shown in fig. 1 to 7, the working principle of the present invention is as follows: when the vehicle runs at normal speed, the centrifugal force of the centrifugal block 13 cannot overcome the acting force of the spring 12, the centrifugal block 13 is separated from the roller 2-1 of the motor-driven reversing valve 2 under the action of the spring 12, and the air inlet port P of the motor-driven reversing valve 2 is communicated with the execution port A. When a driver needs to accelerate the running speed of the vehicle, the driver only needs to step on an accelerator pedal 51-1 of the air throttle 51, pressure gas in the air bag 50 enters a rod cavity of the accelerator cylinder 52 through the air throttle 51 and the motor-driven reversing valve 2, a piston rod of the accelerator cylinder 52 acts and drives an accelerator switch on the vehicle to act, and the vehicle accelerates.

When the vehicle runs at an overspeed, the rotation speed of the hub 62 of the axle is increased, and since the connection ring 11 of the centrifugal control mechanism 1 is fixedly connected to the hub 62 of the axle of the vehicle by bolts or screws when the present invention is used, the rotation speed of the connection ring 11 is also increased. Thus, the centrifugal block 13 slidably connected in the radial sliding groove 11-1 of the connecting ring 11 can overcome the spring force of the spring 12 to move radially outwards under the action of centrifugal force, after moving radially outwards along the connecting ring 11 under the action of centrifugal force, the centrifugal block 13 is firstly contacted with the roller 2-1 of the motor-driven reversing valve 2, then the roller 2-1 is pushed to move the valve core, the motor-driven reversing valve 2 reverses, and at this time, the air inlet port P of the motor-driven reversing valve 2 is not communicated with the execution port A. Thus, even if the driver steps on the accelerator pedal 51-1 of the gas accelerator 51 to communicate the air inlet port P of the gas accelerator 51 with the port a of the actuating port, the air inlet port P of the mobile switching valve 2 is not communicated with the port a of the actuating port, so that the pressure gas in the air bag 50 cannot enter the rod cavity of the accelerator cylinder 52, the piston rod of the accelerator cylinder 52 cannot move, and the accelerator switch on the motor vehicle cannot be driven to move, namely, the accelerator is cut off. Namely, the invention can automatically cut off the accelerator when the vehicle runs at an overspeed. Therefore, when the vehicle is overspeed and the driver still steps on the accelerator, the running speed of the overspeed vehicle cannot be increased continuously, and the safety is high.

Claims

1. A throttle control device of a vehicle includes an air bag (50), an air throttle (51) and a throttle cylinder (52); the air throttle (51) comprises an accelerator pedal (51-1), and an air inlet P port of the air throttle (51) is communicated with the air bag (50); the method is characterized in that: the device also comprises a centrifugal control mechanism (1), a motorized reversing valve (2) and a mounting rack (3); the centrifugal control mechanism (1) comprises a connecting ring (11), a spring (12) and a centrifugal block (13); a radial sliding groove (11-1) is formed in the connecting ring (11), the centrifugal block (13) is connected into the sliding groove (11-1) of the connecting ring (11) in a sliding mode, one end of the spring (12) is fixedly connected to the connecting ring (11) at the radial inner end of the sliding groove (11-1), and the other end of the spring (12) is connected to the centrifugal block (13) outwards in the radial direction; the motor-driven reversing valve (2) is fixedly connected to the mounting frame (3), a roller (2-1) of the motor-driven reversing valve (2) is in contact with or separated from the centrifugal block (13), an air inlet P port of the motor-driven reversing valve (2) is communicated with an execution port A of the air throttle (51), and the execution port A of the motor-driven reversing valve (2) is communicated with a rod cavity of the throttle cylinder (52); when the vehicle runs at an overspeed, the centrifugal block (13) moves outwards along the radial direction of the connecting ring (11) under the action of centrifugal force, then contacts with the roller (2-1) of the motor-driven reversing valve (2), and then pushes the roller (2-1) to move the valve core, and at the moment, the port P of the air inlet of the motor-driven reversing valve (2) is not communicated with the port A of the execution port; when the vehicle runs at normal speed, the centrifugal force of the centrifugal block (13) cannot overcome the acting force of the spring (12), the centrifugal block (13) is separated from the roller (2-1) of the motor-driven reversing valve (2) under the action of the spring (12), and the air inlet port P of the motor-driven reversing valve (2) is communicated with the execution port A.

2. The throttle control apparatus for a vehicle according to claim 1, characterized in that: the motorized reversing valve (2) is fixedly connected to the mounting frame (3) through bolts or screws.

3. The throttle control apparatus for a vehicle according to claim 1, characterized in that: the novel anti-theft device is characterized by further comprising a baffle plate (31), wherein the baffle plate (31) is connected to the mounting frame (3) in a welding mode.