JPS6336410Y2 - - Google Patents

Description

[Detailed description of the invention] (Field of industrial application) The present invention relates to an improvement of a remote control device for a transmission that operates the transmission body using air pressure based on an electrical signal from a command unit. .

(Prior art) This type of remote control device generates an electric signal for shift command by switching the change lever of the command unit, and controls the air cylinder based on this electric signal to operate the transmission body. It is designed to be manipulated. The conventional command unit is equipped with a reaction cylinder that applies a reaction force to the change lever by sliding a piston according to the displacement of the change lever, and a switching command is generated at a predetermined stroke of this reaction cylinder. It has a command generation switch.
However, with such a command unit, when the change lever is operated rapidly, the change lever is displaced too much and hits the stopper, making it impossible to feel the transmission body's response to start changing even after the change has been completed.
In order to eliminate these drawbacks, it is conceivable to increase the diameter of the reaction force cylinder, but this would undesirably increase the size of the entire device.

(Purpose of the invention) The purpose of the invention is to provide a remote control device for a transmission that allows you to feel the start of switching in the transmission body even if you rapidly displace the change lever without increasing the size of the device. Our goal is to provide the following.

(Structure of the invention) In the transmission remote control device of the invention, the command unit is equipped with a reaction cylinder having double inner and outer pistons, and this reaction cylinder is inserted into the outer piston in the middle of the stroke of the outer piston. The piston has an abutting spring.

(Function) According to the remote control device of this transmission, even if the change lever is rapidly displaced, there is a reaction force until the inner piston reaches its final stroke, and a reaction force until the outer piston collides with the spring. The reaction force changes in three stages after the spring is compressed, and in particular, due to the large change in reaction force from the spring, it is possible to reliably give a response to the completion of switching without over-displacement of the change lever. .

(Embodiment) An embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a remote control device 10 for a transmission according to the present invention, and this remote control device 10 has a transmission main body (not shown). A command unit 12 is provided which generates a switching command to the air cylinder to be switched, and this command unit has a reaction force cylinder 16 which applies a reaction force to the change lever 14 when the change lever 14 is displaced.

This reaction cylinder 16 has double pistons 18, 20 that slide with the displacement of the change lever 14, the inner piston 18 directly engaging the change lever 14, the outer piston 20, the inner piston 18 being the final After sliding up to the stroke, the change lever 14 is used to cause the sliding movement.
The inner piston 18 is connected to the small hole 20 of the outer piston 20.
It communicates through a. This reaction force cylinder 16
has a normal command switch (not shown) that closes before the inner piston 18 reaches its final stroke and generates an electrical signal for a switching command.

A spring 22 is disposed within the reaction cylinder 16 for applying a large reaction force to the change lever 14 after the outer piston 20 has slid a predetermined stroke by the change lever 14.

Next, the operation of the remote control device 10 for a transmission according to the present invention will be described with reference to FIG. While expelling air through the small hole 20a, the second
A reaction force a in the first stage shown in the figure is applied to the change lever 14. Before the inner piston 18 reaches its final stroke, a command switch (not shown) closes and generates an electric signal for a switching command, and the transmission body is operated to switch. After the final stroke of the inner piston 18, the outer piston 20 then applies a large reaction force b to the change lever 14, so that the driver can sense the start of the changeover. On the other hand, if the driver rapidly displaces the change lever 14, the driver displaces without feeling the reaction forces a and b, but after the outer piston 20 collides with the spring 22, the spring 2
2, a large reaction force c is suddenly applied to the change lever 14, so that the generation of a switching command, that is, the start of switching can be felt, and there is no possibility of excessive displacement without knowing when switching is complete.

(Effects of the invention) According to the invention, as described above, even if the change lever is rapidly displaced, the start of switching can be reliably felt, and therefore the change lever is not displaced too much. Further, there is a practical advantage that there is no need to increase the size of the reaction force cylinder.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a remote control device for a transmission according to the present invention, and FIG. 2 is a diagram showing changes in reaction force applied to a change lever. 10...Remote control device for transmission, 12...Command unit, 14...Change lever, 16...Reaction force cylinder, 18, 20...Inner and outer piston, 2
2... Spring.

Claims (1)

[Scope of utility model registration request] The transmission body is operated by controlling an air cylinder via a solenoid valve based on an electric signal from a command unit. In a remote control device for a transmission comprising a cylinder, the reaction cylinder has an inner and an outer piston that are in fluid communication with each other, and has a spring inside that causes the outer piston to abut against each other at a predetermined stroke. A remote control device for a transmission characterized by: