Equestrian Training Equipment

horse training equipment

At Seaver, we develop intelligent equipment for equestrian sports. When you come into my training stable, you will see it in my tack room and on the horses I ride. Pferdetrainingsgeräte Equine training equipment Equine lungeing Our expert customersupport staff are there for you! Please do not hesistate to get in touch with us regarding your order, a specific item or a riding issue. Orders are dispatched within 24hrs from our state-of-the-art Connecticut Logistic Centre.

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Horse riding reins Training system

A device comprising a steering system and a load and/or attitude response detecting device for detecting the alignment, movement and associated sensory stimulus necessary to accurately reproduce reining aid and manual application of different riding events.... Contains one or more load and/or positioning sensors operatively connected to a controlling means. said controlling means is linked to retrieve from said load and/or said positioning sensors said load and/or said positioning sensors and to compare said load and/or said positioning sensors with previously saved regulations and said sensors generating outputs on the basis of said comparison(s).

Outputs including a positioning acknowledge signalling waveform are connected to stimulating means and are further connected to indicating and generating means. There is a coupling of a pacemaker device to generate movement and resistive feedbacks for the load and/or positioning sensor(s) with respect to the command outputs. Further to a further facet of the invention, a process is provided for installing a steering system and a load and/or 90-position response transducer device for detecting the alignment, movement and associated sense stimulus necessary to accurately reproduce reining aid and manual deployment of various riding events, the process comprising:

The laying on of hands eliminates the tenderness and feed-back between the horseman and the horse's throat. Figure 130 shows the proper manual set-up to convey the sensibility needed to bring the animal into the harmonic or "on the bit" positions described in FIG.2. Even though the styles in which the bridles are kept are different, the interplay of bridles, reigns and buckles allows equivalent riding comfort and response.

Such a system, exaggerated drawing of the reins causes the resilient 170 to expand with increased line forces as a result of the movement. Ratio of increased power to straight line movement absorbs tensile power until max. spacing is achieved, driven by 180 fixed strap.

The design represents a user[0050] 230 sitting on a 240 seat of adequate elevation to allow proper positioning in relation to the 200 chart so that the user's hand (s) can be placed on the 220 position/feedback sensor(s) in a way corresponding to the riding pose learned in Figure Two, Figure Three and Figure Four.

One computer 210 is operatively linked to the position/feedback sensor(s) 220 and a indicator 215 is placed in a positon corresponding to the heading of the saddle horse. With reference now to FIG. 7, an magnified version of the position/feedback sensors described in FIG. 6 point[0051] 220 is displayed.

These sensors are able to activate the movements of the reins and to place signal similar to the riding reins. In addition, many of these sensing devices are fitted with a sensing device that provides resistivity and movement in the sensing grip in response to the control inputs.

An expert will recognize that such position/feedback transducers are generally known as "joysticks", although it is possible to capture positioning information and deliver resistive and movement feedbacks through other configuration that would not differ from this invention. For example, such alternative configuration would allow the position/feedback sensing device to be designed to appear as a rein.

As an alternative, a position/feedback transducer can also be used. The tax means, in the privileged form of the present invention, includes a computer [0052] 210 and means of indication 215. The computer will receive 210 movement pulses from the 230 operator via the 220 position/feedback sensor(s) during use. Computer 210 will compare the current manual positioning signal with predetermined regulations and cause Indicator 215 to alter visually simulated horses that move within a range to alter the sham movement and heading relative to the positioning signal.

At the same time, the computer[0053] 210 sends feedbacks to the position/feedback sensors 220 to emulate the drag or movement that a competitor would feel if he made a similar movement on a live equine animal. In addition, the computer can modify 210 audiosignals in respect of the above mentioned regulations and optical simulation.

With reference to FIG. 8, a diagram of the operation modes sequence[0055] 400 of control 210 is now displayed. If control 210 is active, access to the 400 operation modes is initiated. The 210 control performs the SETUP DEFAULT PROGRAMPARAMETER 410 operation and configures the 215 screen and 220 positioning and resistivity levels of voice and home position/feedback sensors.

The control 210 then switches to WINDOW FOR USE QUESTION AND WINDOW 420 CONTROL. In case no starting instruction is detected, the control returns to the SETUP DEFAULT PROGRAMPARAMETER 410 until a starting instruction is detected. Once a starting instruction is detected, the control 210 switches to the MODULE AND VISUAL DATA 430 increment.

For an expert readers will show that the control 210 can be asked to download different simulation or rule for this part. Once the programming modul and the optical information have been loaded, the control[0056] 210 moves to the LESEPOSITIONSSENSOR(S)DATEN 440 stage, where the actual information on the axes P, D and Z is scanned and transferred to the control[210].

The 210 control then switches to the MODIFIED INSTRUCTIONS, JOYSTICK FEEDBACK SIGNAL, AUDIO AND VISUAL INSTRUCTIONS steps using the item sensor(s) and PROGRAMMING INSTRUCTIONS 450. An expert readers will recognize that this move includes the comparison of the actual location of the positioning probe and the comparison with a range of precepts that indicate what a true equine would do in a similar movement.

Comparing this would allow the control to output 210 files or signal which can alter the horse's location in relation to the operator and the backdrop on the 215 screen, alter the tone as described above and transfer changes in resistivity or location of the positioning probe. After completing the steps CONTROL OF THE CONTROL OF THE MODIFY MODULE DATES, POSTIOIN THE FEDBACK SIGNAL SOURCE SIGNAL SOURCE AND VISUAL DATES, SPECIFIC SENSOR(s), AND CONTROLS 450, the control 210 switches to CONTROL OF THE MODULE OF THE USER CONTROLED MODULE?

Once the operator has switched modules, the 210 control returns to the step POGRAM MODULE AND VISUAL DATA 430. Unless the operator has modified the programming unit, the control 210 switches to IS STOP SELECTED? increment. Once the stop instruction has been chosen by the operator, the control returns to the SETUP DEFAULT PARAMETER 410 DEFAULT PARAMETER SETUP procedure.

Unless the stop instruction has been chosen by the operator, the 210 control returns to the READ POSITION SENSOR(S) DRATA 440 increment. When no stop instruction is chosen, a current loop[0057] 480 is created in which performing the operations included in the said cycle causes the operator to interoperate with the device described herein so that indication, sound and feed back sensations appear in real-time as if he were equalling a true horse: What is said is: .

A device having a steering system and a load and/or positioning feed -back detecting device for detecting the alignment, movement and associated sense stimulus necessary to accurately reproduce reining assistances and manual set-up of different riding events, the device comprising: means for receiving from said means for detecting and/or detecting forces and/or positions and correlating said forces and/or positions with previously saved regulations and said information, producing outputs on the basis of said comparison(s) and said outputs, said outputs comprise a positioning response said positioning response being correlated to a stimulating means and being further correlated to a displaying and sound producing means; a stimulating means correlated to move movementally associated with a controlling means; a controlling means correlated to detect and compare said forces and/or positions with previously saved regulations and said information, producing outputs on the basis of said comparison(s) and said outputs, said outputs including a positioning response being correlated to a stimulating means and being further correlated to a displaying and sound producing means; a stimulating means correlated to move movementally associated with a controlling means; a controlling means correlated to detect and compare said forces and/or positions with previously saved regulations and said outputs; and a controlling means correlated to detect and compare said forces and/or positions with said previously saved regulations and said information.

A device according to claim 1, wherein the strength and/or positioning sensor(s) comprises a positioning joystick. 1. A device according to claim 1, wherein the strength and/or positioning sensor(s) comprises a positioning sensor joy stick and feed back stimulating means. A device according to Claim 1, wherein the load and/or positioning sensor(s) comprises a load measuring joy stick.

A device according to claim 1, wherein the strength and/or positioning sensor(s) comprises a strength scanning joy stick and a feed back stimulating means. A device according to claim 1, wherein the load and/or positioning sensor(s) comprises a straight-line positioning detection potential. A device according to claim 1, wherein the load and/or positioning sensor(s) comprises a straight-line load measuring potential.

A device according to claim 1, wherein the load and/or positioning sensor(s) comprises a magnetic strictive detector. A device according to Claim 1, wherein the control device comprises a computer, displaying means and means for generating music. A device according to Claim 1, wherein the stimulating means comprises a rectilinear actuating means.

A device according to claim 1, wherein the stimulating means comprises electrical magnet means. A device display according to claim 1, wherein the stimulating means comprises electromotive means. Means having a steering system and a load and/or positioning feed -back detecting device for detecting the alignment, movement and associated sense stimulus necessary to accurately predict reining assistance and manual positioning of different riding events, said means comprising:

control means operatively connected to control means; control means connected to retrieve from said control means and compare said control means said control means with previously saved regulations and said information, generate outputs on the basis of said comparison(s) and said outputs, said outputs comprise a positioning return circuit connected to stimulating means and further connected to indication and sound generator means;

Stimulating means that is coupled to generate movement and resistive feedbacks for the strength and/or positioning sensor(s) with respect to the control output(s); the process comprises the step of: (e) setting standard programme parameter (s); (f) waiting for application programme demand and starting instruction; (g) loading the programme modul and audiovisual information; (e) changing programme information, positioning transducer feedbacks, audiovisual and image information on the basis of positioning sensor(s) information and programme regulations.

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