- Tekonsha Commander 9010 Manual Free
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2030 $ $ $ $88.02. Both the 9010 and 9030 are billed as 'Compatible with ABS brake systems', the others do not mention that. I've run several rigs with the 9030, including my own, and they seem to work just fine. I have had good luck with the Tekonsha Voyager. Page 47 USER MANUAL Picture edit As the follow prompts to input required information of the DVR device, confirmed and added successful, repeat the above operation, can add dvr floureon manuale 8 canali multiple DVR dvr floureon manuale 8 canali equipments, management and monitoring operations. Mr. mantis sunny patch.
I claim:1. A trailer braking system for use with a trailer vehicle having a frame, the trailer vehicle pulled by a tow vehicle, the trailer braking system comprising:
a brake cylinder adapted to be carried by the trailer, the brake cylinder having a brake cylinder coil spring disposed therein;
an actuator rod operatively engaging the brake cylinder;
a hydraulically actuated brake shoe adapted to be mounted on at least one wheel;
a hydraulic brake line extending between the hydraulic brake and the hydraulically actuated brake shoe;
spring means positioned outside of the brake cylinder for applying a first force for moving the actuator rod relative to the brake cylinder;
actuator means for applying a second force to overcome the spring means and for moving the actuator rod in a direction opposite the direction of movement of the actuator rod as a result of the movement caused by the spring means whereby the first force is applied in a direction substantially opposite to the direction of the second force, the actuator means being one of an air bladder and a linear actuator operatively mounted mechanically between the actuator rod and the frame; and
electric control means for controlling the actuator means from the tow vehicle whereby the electric control means controls the actuator means to move the actuator rod toward the brake cylinder and for increasing the hydraulic pressure within the hydraulic line and for applying the hydraulic brakes carried by the trailer.
2. A trailer braking system as defined in claim 1 in which a fluid reservoir is attached to one of the air bladder linear actuator.
3. A trailer braking system as defined in claim 2 in which the electric control means includes an electronic operator adapted to be carried by the tow vehicle and a control system electronically connected to the electronic operator and adapted to be carried by the trailer frame.
Tekonsha Commander 9010 Manual Free
4. A trailer braking system as defined in claim 3 in which the control system includes an electromagnet adapted to be carried by the trailer whereby the electronic operator creates an output signal which is forwarded to the electromagnet.
5. A trailer braking system as defined in claim 4 in which a control system lever is movably attached to the frame; in which a portion of the lever is positioned adjacent the electromagnet whereby activation of the electromagnet causes the control system lever to move relative to the frame.
6. A trailer braking system as defined in claim 1 in which an actuator lever is adapted to be mounted to the frame; in which the actuator rod is mounted to the actuator lever; in which the spring means moves the actuator lever and interconnected actuator rod relative to the brake cylinder; and in which one of the air spring and linear actuator is mounted intermediate the trailer frame and the lever.
7. A trailer braking system as defined in claim 6 in which the spring means is a coil spring.
8. A trailer braking system as defined in claim 1 further comprising break-away means for moving the actuator rod toward the brake cylinder and applying the trailer brakes when the tow vehicle decouples from the trailer vehicle.
9. A trailer braking system as defined in claim 8 in which the breakaway means includes emergency vent means for venting air from the air spring and permitting the coil spring to expand and actuate the trailer brakes when the tow vehicle decouples from the trailer vehicle.
10. A trailer braking system for use with a trailer vehicle having a frame, the trailer vehicle pulled by a tow vehicle, the trailer braking system comprising:
a brake cylinder adapted to be carried by the trailer, the brake cylinder having a brake cylinder coil spring disposed therein;
an actuator rod operatively engaging the brake cylinder;
a hydraulically actuated brake shoe adapted to be mounted on at least one wheel;
a hydraulic brake line extending between the hydraulic brake and the hydraulically actuated brake shoe;
spring means positioned outside of the brake cylinder for applying a first force for moving the actuator rod relative to the brake cylinder;
actuator means for overcoming the spring means and for moving the actuator rod in a direction opposite the direction of movement of the actuator rod as a result of the movement caused by the spring means, said actuator means being one of an air spring and a linear actuator operatively mounted mechanically between the actuator rod and the frame;
electric control means for controlling the actuator means from the tow vehicle whereby the electric control means controls the actuator means to move the actuator rod toward the brake cylinder and for increasing the hydraulic pressure within the hydraulic line and for applying the hydraulic brakes carried by the trailer, the electric control means including an electronic operator adapted to be carried by the tow vehicle and a control system electronically connected to the electronic operator and adapted to be carried by the trailer frame;
the control system further including an electromagnet adapted to be carried by the trailer whereby the electronic operator creates an output signal which is forwarded to the electromagnet;
a control system lever being movably attached to the frame wherein a portion of the lever is positioned adjacent the electromagnet whereby activation of the electromagnet causes the control system lever to move relative to the frame;
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the control system further including an energized stop; in which a feedback cylinder is positioned adjacent the control system lever; in which the feedback cylinder is operatively connected to the brake cylinder whereby hydraulic force within the brake cylinder is transmitted to the control cylinder; and in which the control cylinder moves the control system lever out of contact with the energized stop upon receiving a predetermined pressure from the brake cylinder; and
a fluid reservoir being attached to the actuator means.
11. A trailer braking system as defined in claim 10 in which the control system includes a valve operatively connected to the actuator means and the fluid reservoir for controlling the flow of fluid to the actuator means whereby movement of the control system lever forward and away from the energized stop operates the valve.
12. A trailer braking system as defined in claim 11 in which the valve is a three-way cylinder valve.
13. A trailer braking system as defined in claim 11 in which the fluid reservoir is an air reservoir tank; and in which the actuator means is an air spring whereby expansion of the air spring compresses the coil spring and moves the actuator rod toward the brake cylinder.
14. A trailer braking system as defined in claim 11 in which the fluid reservoir is an air reservoir tank; and in which the actuator means is an air spring whereby compression of the air spring permits the coil spring to expand and move the actuator rod toward the brake cylinder.
15. A method of applying trailer brakes on a trailer vehicle pulled by a tow vehicle comprising the steps of:
operating an electronic control from within the tow vehicle to generate an electronic signal;
forwarding an electronic signal to an electromagnet;
How to install ettercap centos. energizing the electromagnet to move a control system lever toward an energized stop;
forwarding a signal to a valve to vary the volume of fluid within an actuator means as a result of the control system lever movement; and
varying the length of the actuator means to move an actuator lever toward a brake cylinder.
16. The method as defined in claim 15 in which the step of varying the length of the actuator means includes expanding the actuator means.
17. The method as defined in claim 15 in which the step of varying the length of the actuator means includes contracting the actuator means.
18. The method as defined in claim 15 comprising the further steps of sensing the pressure in the brake lines of the trailer; forwarding the pressure to a feedback control cylinder; and moving the control system lever away from the energized stop upon said brake lines reaching the predetermined pressure.
19. The method as defined in claim 15 comprising the further steps of venting air from the air spring upon decoupling of the tow vehicle from the trailer vehicle.
20. The method as defined in claim 15 comprising the further steps of pulling the actuator lever toward the brake cylinder upon decoupling of the tow vehicle from the trailer vehicle; and latching the lever in the pulled position to assure that the trailer brakes remain engaged after decoupling.
21. A trailer braking system for use with a trailer vehicle having a frame, the trailer vehicle pulled by a tow vehicle, the trailer braking system comprising:
a brake cylinder adapted to be carried by the trailer, the brake cylinder having a brake cylinder coil spring disposed therein;
an actuator rod operatively engaging the brake cylinder;
a hydraulically actuated brake shoe adapted to be mounted on at least one wheel;
a hydraulic brake line extending between the hydraulic brake and the hydraulically actuated brake shoe;
spring means positioned outside of the brake cylinder for applying a first force for moving the actuator rod relative to the brake cylinder, the spring means being a coil spring;
actuator means for overcoming the spring means and for moving the actuator rod in a direction opposite the direction of movement of the actuator rod as a result of the movement caused by the spring means, said actuator means being one of an air spring and a linear actuator operatively mounted mechanically between the actuator rod and the frame;
electric control means for controlling the actuator means from the tow vehicle whereby the electric control means controls the actuator means to move the actuator rod toward the brake cylinder and for increasing the hydraulic pressure within the hydraulic line and for applying the hydraulic brakes carried by the trailer;
an actuator lever being adapted to be mounted to the frame, the actuator rod being mounted to the actuator lever, the spring means moving the actuator lever and interconnected actuator rod relative to the brake cylinder, and in which the actuator means is mounted intermediate the frame and the actuator lever; and
the actuator rod including an outwardly extending flange, and in which the coil spring is mounted intermediate the trailerframe and the outwardly extending flange.
22. A trailer braking system for use with a trailer vehicle having a frame, the trailer vehicle pulled by a tow vehicle, the trailer braking system comprising:
a brake cylinder adapted to be carried by the trailer, the brake cylinder having a brake cylinder coil spring disposed therein;
an actuator rod operatively engaging the brake cylinder;
a hydraulically actuated brake shoe adapted to be mounted on at least one wheel;
a hydraulic brake line extending between the hydraulic brake and the hydraulically actuated brake shoe;
spring means positioned outside of the brake cylinder for applying a first force for moving the actuator rod relative to the brake cylinder, the spring means being a coil spring;
actuator means for overcoming the spring means and for moving the actuator rod in a direction opposite the direction of movement of the actuator rod as a result of the movement caused by the spring means, said actuator means being one of an air spring and a linear actuator operatively mounted mechanically between the actuator rod and the frame;
George washington high school chicago drivers ed number. electric control means for controlling the actuator means from the tow vehicle whereby the electric control means controls the actuator means to move the actuator rod toward the brake cylinder and for increasing the hydraulic pressure within the hydraulic line and for applying the hydraulic brakes carried by the trailer;
an actuator lever being adapted to be mounted to the frame, the actuator rod being mounted to the actuator lever, the spring means moving the actuator lever and interconnected actuator rod relative to the brake cylinder, and in which the actuator means is mounted intermediate the frame and the actuator lever; and
in which the coil spring extends between the actuator lever and the frame.
23. A trailer braking system for use with a trailer vehicle having a frame, the trailer vehicle pulled by a tow vehicle, the trailer braking system comprising:
a brake cylinder adapted to be carried by the trailer, the brake cylinder having a brake cylinder coil spring disposed therein;
Tekonsha Commander 9010 Manual Instructions
an actuator rod operatively engaging the brake cylinder;
a hydraulically actuated brake shoe adapted to be mounted on at least one wheel;
a hydraulic brake line extending between the hydraulic brake and the hydraulically actuated brake shoe;
spring means positioned outside of the brake cylinder for applying a first force for moving the actuator rod relative to the brake cylinder;
Tekonsha Commander 9010 Manual Download
actuator means for applying a second force to overcome the spring means and for moving the actuator rod in a direction opposite the direction of movement of the actuator rod as a result of the movement caused by the spring means whereby the first force is applied in a direction substantially opposite to the direction of the second force, the actuator means being one of an air bladder and a linear actuator operatively mounted mechanically between the actuator rod and the frame; and
electric control means for controlling the actuator means from the tow vehicle whereby the electric control means controls the actuator means to move the actuator rod toward the brake cylinder and for increasing the hydraulic pressure within the hydraulic line and for applying the hydraulic brakes carried by the trailer
break-away means for moving the actuator rod toward the brake cylinder and applying the trailer brakes when the tow vehicle decouples from the trailer vehicle; the break-away means including a safety chain extending between the actuating lever and the tow vehicle; in which a flange extends around the actuator rod; in which a flange catch is mounted to the brake cylinder; in which the flange catch deflects to allow the flange to pass therethrough; and in which the flange catch retains the flange whereby the actuator rod is positioned within the brake cylinder when the tow vehicle decouples from the trailer vehicle.
Tekonsha
Tekonsha Engineering opened its doors in 1963 and at that time manufactured wooden steps for the Mobile Home Industry. In the mid 1960's they started manufacturing hydraulic brake controls (2014 & 2015). When the 70's came Tekonsha Engineering made a major break through, they were the first to break new ground with an electronic brake control (the sway control and the 2040). These units changed the company forever. They went on to manufacture the 2016 & 2017, which are hydraulic controls, and the 2030 & 2035, electronic controls.
In the early 90's Tekonsha introduced the Commander™ and Voyager™ proportional electric brake controls. In 1993 they followed with the AccuTrac®, an inertia sensitive control and in 1995 the Sentinel™ was introduced as a monitoring unit.
Tekonsha Commander 9010 Manual Pdf
March of 1999 was exciting for Tekonsha™ with the launch of a new proportional control, the Envoy™. This unit has the best features of the Voyager™ and the Sentinel™ combined in one unit. Tekonsha's newest self-leveling proportional control, the Prodigy™, made an exhilarating release into the industry in February of 2001. It is the latest and most intelligent brake control from Tekonsha™. This powerful control features new motion sensor technology similar to what is used in the aerospace industry.
In January of 2003, Cequent purchased Tekonsha Engineering.
The above information has been provided by the Manufacturer, and we cannot guarantee the accuracy thereof or endorse the opinions expressed.