SPRING BRAKE CHAMBER

Abstract

A spring brake chamber for pneumatic braking systems used in heavy commercial vehicles such as buses, trucks, trailers and tractors, includes a power spring configured to detect the parking position, the driving position and the situation in which the power spring is broken. The present invention allows the driver to be notified by sending a signal.

Claims

1. A spring brake chamber for a pneumatic braking system used in a heavy commercial vehicle comprising: a power spring, wherein the power spring detects a parking position, a driving position and a situation in which the power spring is broken and the power spring allows a driver to be notified with the situation by sending a signal; a connection plate; a lower housing; wherein the lower housing contains a spring chamber, the power spring with a constant resistance, is arranged in the spring chamber, a diaphragm is provided at a connection region of the connection plate and the lower housing by being compressed; a shaft, wherein the shaft performs braking via a forward motion of the shaft; a parking chamber, wherein air from a compressor enters the parking chamber when a force is applied to a foot brake pedal; the spring brake chamber further comprises an aluminium flange, a conductive disk, a jack, and an electronic circuit, wherein the electronic circuit comprises a microcontroller, a positive terminal and a negative terminal of a cable from the jack is connected to the microcontroller, the microcontroller sends two separate signals to the driver, wherein the two separate signals comprise a contact signal sent when the power spring is completely set up and a warning signal sent when a problem occurs; and the spring brake chamber further comprises a dielectric disk located between the lower housing and the conductive disk to provide an isolation between the lower housing and the conductive disk.

2. A process of detecting a parking position and a driving position of a power spring, detecting a situation where the power spring is broken, and sending a contact signal and a warning signal to a driver comprising: applying a force to a foot brake pedal, wherein along with air from a compressor filling into a parking chamber, a diaphragm moves backward towards a lower housing; pushing, by the diaphragm, an aluminium flange provided beneath the diaphragm, wherein a movement of the aluminium flange compresses the power spring in a spring chamber until the aluminium flange contacts a conductive disk through which a current passes; sending the warning signal to the driver to inform the driver that the power spring has been fractured when the power spring is broken or fractured, the aluminium flange no longer contacts the conductive disk, the microcontroller cannot read any voltage since no current passes through the positive terminal and the negative terminal; wherein, when the aluminium flange contacts the conductive disk, the current received from a positive terminal of a cable connected to a jack provided on a lower housing respectively passes through the lower housing, the power spring, the aluminium flange and the conductive disk and completes a circuit by exiting from a negative terminal of the cable; comparing, by a microcontroller, voltage values from the positive terminal and the negative terminal and comparing, by the microcontroller, a difference with a value initially defined in a memory according to a constant resistance of the power spring; wherein, when there is no difference between the compared values, the microcontroller transmits the contact signal informing the driver that the power spring is completely compressed, a spring brake chamber is completely set up, and a vehicle is in a normal driving condition, when there is a difference between the compared values, the microcontroller transmits the warning signal informing the driver that there is a fracture in the power spring or the spring brake chamber cannot be completely set up due to a problem.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] The figures prepared to better describe the spring brake chamber that enables detection of the parking position and driving position of the power spring and the situation when the power spring is broken which comprises an power spring and enables sending a warning signal to the driver in the spring brake chambers that are used in the pneumatic braking systems present in heavy commercial vehicles such as busses, trucks, tractors and trailers are described below.

[0015] FIG. 1 shows a spring brake chamber during driving.

[0016] FIG. 2 shows a spring brake chamber in parking condition.

[0017] FIG. 3 shows a cross-section detail view of the aluminium flange when in contact with the conductive disk.

[0018] FIG. 4 shows a schematic view of the electronic circuit present in the spring brake chamber.

[0019] The parts/components/items in the figures prepared to better describe the spring brake chamber developed by the invention are individually assigned reference numbers and these numbers refer to the following;

[0020] 1. Connection Plate

[0021] 2. Diaphragm

[0022] 3. Aluminium flange

[0023] 4. Lower housing

[0024] 5. Power spring

[0025] 6. Jack

[0026] 7. Positive Terminal

[0027] 8. Negative Terminal

[0028] 9. Dielectric Disk

[0029] 10. Conductive Disk

[0030] 11. Spring Chamber

[0031] 12. Parking Chamber

[0032] 13. Shaft

[0033] 14. Spring Brake Chamber

[0034] R: Resistance

[0035] CPU: Microcontroller

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0036] In the invention subject matter of the application, an spring brake chamber (14) that enables detection of the parking position and driving position of the power spring and the situation when the power spring is broken, which comprises an power spring (5) and enables sending a warning signal to the driver in the spring brake chambers that are used in the pneumatic braking systems present in heavy commercial vehicles such as busses, trucks, tractors and trailers is described. This spring brake chamber (14) comprises a connection plate (1), a lower housing (4) containing a spring chamber (11) in which there is an power spring (5), a diaphragm (2) provided by compressing in the connection region of the connection plate (1) and the lower housing (4), a shaft (13) that performs the braking through its forward movement, an parking chamber (12) into which air from the compressor enters in when force is applied to the foot brake pedal; and particularly has an electronic circuit that contains a microcontroller (CPU) that detects the parking position and driving position of the power spring and the situation if the power spring is broken and sends a signal to the driver. Said microcontroller (CPU) transmits two separate signals to the driver that is the contact signal when the power spring (5) is completely set up and the warning signal when a problem occurs such as a fracture in the power spring (5) etc. The schematic diagram of the electronic circuit provided in the spring brake chamber (14) of the invention is shown in FIG. 4. This circuit consists of a lower housing (4), an power spring (5), an aluminium flange (3), conductive disk (10), a jack (6) to which the positive terminal (7) and the negative terminal (8) of the cable connected to the microcontroller (CPU) are connected to. Additionally, a dielectric disk (9) is located between the lower housing (4) and the conductive disk (10) to ensure isolation between the lower housing (4) and the conductive disk (10) which is an electronic circuit component. This isolation is very important for operation of the circuit and it is possible for the circuit to be prevented from being operated if the isolation is not properly established.

[0037] The length of the power spring (5) used in the spring brake chambers (14) is constant and the same material is used everywhere. Thus, it has a constant resistance (R). Since the resistance (R) on the power spring (5) is constant, a constant voltage is created when a current is passed through this power spring (5). The constant voltage value determined depending on the resistance (R) of this power spring (5) is initially defined in the memory of the microcontroller (CPU). When a fracture occurs in the power spring (5), the known constant value of the resistance (R) will drop and the value of the voltage created when a current is passed will also change depending on the changed resistance (R). The microcontroller (CPU) of this invention enables sending a signal to the driver by detecting said voltage difference.

[0038] The detection step of the parking position and driving position of the power spring and the step of sending contact and warning signal to the driver are as described below;

[0039] Air from the compressor fills into the parking chamber (12) when force is applied to the foot brake pedal.

[0040] The air filled into the parking chamber (12) enables reverse movement of the diaphragm (2) towards the lower housing (4).

[0041] The backward moving diaphragm (2) pushes the aluminium (Al) flange (3) provided under it and the power spring (5) in the spring chamber (11) starts to compress.

[0042] This movement of the aluminium flange (3) continues until it contacts the conductive disk (10) provided on the base of the lower housing (4).

[0043] In case of breaking and fracture of the power spring (5) such that the aluminium flange (3) does not contact the conductive disk (10), the microcontroller (CPU) cannot read any voltage since no current passes through the positive terminal (7) and the negative terminal (8) and sends a warning signal to the driver informing that the power spring (5) has been fractured.

[0044] When the aluminium flange (3) contacts the conductive disk (10) on which current passes, the current received from the positive terminal (7) of the cable connected to the jack (6) provided on the lower housing (4) respectively passes through the lower housing (4), power spring (5), aluminium flange (3) and conductive disk (10) and completes a circuit by exiting from the negative terminal (8) of the cable. (Shown in FIG. 1)

[0045] The microcontroller (CPU) compares the voltage value from the positive terminal (7) and the negative terminal (8) and compares the difference with the value initially defined in its memory according to the resistance (R) of the power spring (5).

[0046] When there is no difference between the compared values, the microcontroller (CPU) transmits a contact signal informing the driver that the power spring (5) is completely compressed and the spring brake chamber (14) is completely set up and the vehicle is in normal driving condition.

[0047] When there is a difference in the compared values, the microcontroller (CPU) transmits a warning signal informing the driver that there is a fracture in the power spring (5) or the spring brake chamber (14) cannot be completely set up due to a problem.