Login| Sign Up| Help| Contact|

Patent Searching and Data


Title:
A SERVICE BRAKE CHAMBER MANUFACTURED WITH COMPOSITE PRESSURE HOUSING AND NON-PRESSURE HOUSING AND A CONNECTION METHOD OF THIS CHAMBER
Document Type and Number:
WIPO Patent Application WO/2016/039700
Kind Code:
A1
Abstract:
This invention is related to a service brake chamber manufactured with a composite pressure housing and a non-pressure housing, used in the air brake system of heavy vehicles such as trucks, trailers lorries and buses and a connection method of pressure housing and non-pressure housing forms this chamber.

More Like This:
Inventors:
ARKAN FUAT BURTAN (TR)
BATTAL YAVUZ (TR)
KULAC OMER FARUK (TR)
Application Number:
PCT/TR2015/000139
Publication Date:
March 17, 2016
Filing Date:
April 02, 2015
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
ARFESAN ARKAN FREN ELEMANLARI SANAYI VE TICARET A Ş (TR)
International Classes:
B60T13/24; B60T13/567; B60T17/00
Domestic Patent References:
WO2003037693A12003-05-08
WO1996026093A11996-08-29
WO2001081728A12001-11-01
WO1999039082A11999-08-05
Foreign References:
US3883030A1975-05-13
US7121191B12006-10-17
US20100154627A12010-06-24
US6349629B12002-02-26
US5771774A1998-06-30
TR200804238A22008-12-22
Attorney, Agent or Firm:
YALCINER, Ugur G. (YALCINER PATENT & CONSULTING LTD.) (Kavaklıdere, Ankara, TR)
Download PDF:
Claims:
CLAIMS

A service brake chamber (9) is used if the vehicle is desired to be stopped or slowed down and functions when the foot brake is actuated, used in the air brake system of heavy vehicles (bus, lorries, trucks, trailers, etc.) and a connection method between pressure housing (1) and non-pressure housing(2) forming this chamber; characterized in that connection method to each other of pressure housing (1) and non-pressure housing (2) of the service brake chamber (9) which are made by composite material which has non-metalic polymeric matrix, reinforced with glass fiber or carbon fiber and produced by plastic injection molding process, comprises the process steps below:

• Pressure housing (1), non-pressure housing (2) and diaphragm (5) between them, are compressed at rates to provide sealing of the diaphragm (5) by means of press machine.

• Keyways (3) are occur when half of recesses of pressure housing (1) and the other half of recesses of non-pressure housings (2), aligned by compressing diaphragm(S) at rates to provide sealing.

• At least 6 wedge mounting spaces (8) which are required for the insertion of the wedges (4) in the keyways (3) in the radial direction is formed during the compression process enables the occurrence of the keyways (3) at the same time.

• Connection process is terminated after the wedges (4) are placed into the wedge mounting spaces (8) and are driven to the keyways (3) in the radial direction.

A service brake chamber (9) and a connection method between pressure housing (1) and non-pressure housing (2) forming this chamber (9) according to claim 1, characterized in that; Pressure housing (1) and non-pressure housing (2) are thicker than the pressure housing and non-pressure housing which are manufactured by steel sheet.

A service brake chamber (9) and a connection method between pressure housing (1) and non-pressure housing (2) forming this chamber (9) according to claim 1, characterized in that; the keyways (3) are at least 6 pieces.

A service brake chamber (9) and a connection method between pressure housing (1) and non-pressure housing (2) forming this chamber (9) according to claim 1, characterized in that; the wedge mounting spaces (8) are at least 6 pieces.

5. A service brake chamber (9) and a connection method between pressure housing (1) and non-pressure housing (2) forming this chamber (9) according to claim 1, characterized in that; Keyways (3) are blind to prevent displacement of the wedges (4) from keyways (3).

6. A service brake chamber (9) and a connection method between pressure housing (1) and non-pressure housing (2) forming this chamber (9) according to claim 1, characterized in that; the wedge mounting spaces (8) are filled by silicon or a resin based filler material after the assembly of the wedges (4).

Description:
DESCRIPTION

A SERVICE BRAKE CHAMBER MANUFACTURED WITH COMPOSITE PRESSURE HOUSING AND NON-PRESSURE HOUSING AND A CONNECTION METHOD OF

THIS CHAMBER

Technical Field of the Invention

This invention is related to a service brake chamber produced of a composite pressure housing and a non-pressure housing, used in the air brake system of heavy vehicles such as trucks, trailers lorries and busses and a connection method of pressure housing and non-pressure housing constitutes_this chamber.

Known State of the art (Prior Art)

The brake actuators used in heavy vehicles (bus, lorries, trucks, trailers, etc.) are divided into two groups; one of which is the spring brake actuators and the other is the service brake chambers.

Service brake chambers are used if the vehicle is desired to be stopped or slowed down and functions when the foot brake is actuated.

Compressed air which comes from compressor when the foot brake is actuated by driver, fills pressure chamber between diaphragm and pressure housing. The diaphragm; moves in an upward direction by means of this compressed air, pushes the shaft and enables the braking force, which is transferred to the wheels of the vehicle.

If the vehicle is desired to be fixed or in the case that there is an air leakage in the air system, the emergency chamber of the spring brake actuators brakes and provides fixing the vehicle. Service chamber of the spring brake actuators are used if the vehicle is desired to be stopped or slowed down and functions when the foot brake is actuated as the service brake chambers. In the known state of the art, service brake chamber mainly comprises, a pressure housing, a non-pressure housing, diaphragm, shaft and return spring. Air inlet connections are welded onto these parts and all parts are painted and coated to prevent corrosion.

In the known state of the art, pressure housing and non-pressure housing parts of the service brake chambers are produced by means of cold forming such as deep drawing of steel sheet. Connection process between pressure housing and non-pressure housing is performed by fixing with clamp ring and clamp ring bolt after placing and compressing the diaphragm between pressure housing and non-pressure housing by press machine. Sealing is provided, because diaphragm is compressed between pressure housing and non-pressure housing, and this connection is secured by a clamp ring.

Unlike the connection method using clamp ring in the prior art, there are various connection methods like roll-form method which one of the skirt of the pressure or non- pressure housing, is bended over the other one, or connection methods using connection rings. Another service brake chamber involved in the known state of the art is an invention according to the TR 2008 04238 B numbered patent document. In this invention plastic pressure housing and flange group, and a steel non-pressure housing, are used. The connection between the pressure and non-pressure housing is carried out by bending skirt of the steel non-pressure housing onto the plastic pressure housing.

The service brake chambers which are made of steel sheet (pressure housing, non- pressure housing, flange, etc.) are exposed to corrosion because of atmospheric effects. In the known state of the art, service brake chambers which are made of steel, are caoted by protective paintings or coatings to prevent corrosion. But an failure caused by the coating and painting may lead to the untimely damage of the service brake chamber which is of vital importance for heavy commercial vehicles.

In additionally, no burrs are required onto the pressure and non-pressure housing parts, to enable service brake chambers operate efficiently and safety. Single burr onto the pressure and non-pressure housing parts even may adversely affect the operation of the chamber. Particularly, during the connection between pressure housing, non-pressure housing and diaphragm, it is very important to be burr-free connecting surfaces. For this reason this parts must be suitable for connection by means of second or third operations ( punching, machining etc.) after main deep drawing operation which the parts are produced. This additional processes may lead to additional labor and production costs. Furthermore, when differences of dimensional measurements and tolerances arising from the pressure and non-pressure housings which are made by steel sheet, press cutting, pressing, machining, stoning, welding, painting and coating etc. operations in the known state of the art, also be added; situation which parts are discarded to scrap, occurs due to different dimensional measurements and tolerances of the parts from values should be, before assembly.

Another technical problem in the known state of the art is connecting the air connection ports on the pressure housing by welding operation. Burr and sealing problems may occur due to mistakes of the welding operations. Sealing has critical importance, because the pressure housing is the part that air pressure which activates the diaphragm, is given.

However, the weigh disadvantage arising from the weight of the steel sheet used in the service brake chambers which are made by steel sheet. The reduction of the weight of the automotive parts in the automotive industry, has a great importance especially in terms of security and low fuel consumption. Service brake chambers have weight disadvantagejn the design, vibration and connection fields. Unfortunately, weight factor is not taken into account so much in designing and development processes of the service brake chambers produced in the known state of the art.

In order to overcome the technical problems described above, pressure housing and flange are made of plastic, non-pressure housing is made of steel sheet in the invention described in TR 2008 04238 B numbered application in the known state of the art. In this invention, the connection between the pressure and non-pressure housing is carried out by bending skirt of the steel non-pressure housing onto the plastic pressure housing. Although the important advantages provided by this invention, technical problems are not fully resolved because breakage or deformation may occur on the plastic housing part during the bending skirt of the steel non-pressure housing onto the plastic pressure housing. This deformation and damage, may leads to sealing problem or completely damage of the service brake chamber.

It is necessary to compress the diaphragm between pressure and non-pressure housing by means of applying force, for providing the sealing during the connection between pressure and non-pressure housing of the service brake chambers. There is a possibility of deformation of the plastic part during this connection operation when one of the pressure or non-pressure housing is made by steel and the other one is made by plastic because steel part is harder than plastic part. This is another technical disadvantage of this invention. In the applications where both pressure housing and non-pressure housing are plastic, metal clamp may give damage the plastic pressure housing and non-pressure housing during the compression of the parts in the case where the connection is provided by a steel clamp.

The brief description of the invention and its aims

In the present invention, non-pressure housing and pressure housing which are made by composite material which has non-metalic polymeric matrix, reinforced with glass fiber or carbon fiber; are used. Pressure and non-pressure housing are thicker than the pressure and non-pressure housing in the known state of the art because pressure and non-pressure housings are made of composite material instead of steel.

Connection between pressure and non-pressure housing, is carried out by keyways on the pressure and non-pressure housing and wedges enter this keyways.

Purposes of development of the service brake chamber manufactured with composite pressure housing a non-pressure housing and the connection method of this chamber in the present invention, are listed below.

• Obtaining a service brake chamber which is lower-cost, has same strength with steel, require less precise machining and easy (deburring etc.).

· Obtaining a service brake chamber which has high corrosion resistance.

• Elimination of the press cutting, pressing, machining, stoning, welding, painting and coating etc. operations increase the production costs.

• Ensuring the fully sealed and harmless for parts connection between the composite pressure and non-pressure housing owing to connection method in the present invention

• Reduction of risk and product losses arising from a dimentional and tolerance failure caused by steel sheets and press cutting, pressing, machining, stoning, welding, painting and coating etc. operations for steel made parts.

Description of the figures illustrating the environment

The figures that have been prepared in order to further explain the service brake chamber manufactured with composite pressure housing a non-pressure housing and the connection method of this chamber developed according to the present invention illustrates the following:

FIGURE 1: Is the sectional view of the service brake chamber subject to the invention. FIGURE 2: Is the detailed view of the connection method subject to the invention.

Definition of the aspects/sections/ parts that form the invention

The aspects, sections, parts shown in the figures drawn in order to further explain the service brake chamber manufactured with composite pressure housing a non-pressure housing and the connection method of this chamber subject to the invention have each been numbered and the references of these numbers have been listed beiow.

1. Pressure housing

2. Non-pressure housing

3. Keyways

4. Wedge

5. Diaphragm

6. Connection region

8. Wedge mounting space

9. Service brake chamber

Detailed description of the Invention

Invention subject to the application is a service brake chamber is used if the vehicle is desired to be stopped or slowed down and functions when the foot brake is actuated, used in the air brake system of heavy vehicles (bus, lorries, trucks, trailers, etc.) and a connection method between pressure housing (1) and non-pressure housing (2). Pressure housing (1) and non-pressure housing (2) of the service brake chamber

(9) subject to the invention, are made by composite material which has non-metalic polymeric matrix, reinforced with glass fiber or carbon fiber and produced by plastic injection molding process.

The thickness of the pressure (1) and non-pressure housing (2) is more than the pressure and non-pressure housing produced by the steel sheet in the known state of the art. Sealing must be provided in the connection region (6) in the process which connection between pressure (1) and non-pressure housing (2) is done also the diaphragm (5) is between of them.

Sealing is provided by compressing the diaphragm (5) by pressing pressure (1) and non-pressure housings (2) to each other by press machine and fixing pressure (1) and non- pressure housings (2) to each other completely.

This fixing process in the known state of the art, is carried out by bending skirt of one of the housings onto the other one of housing, or carried out by using clamp.

However, these methods are not suitable because they can damage the pressure (1) and non-pressure housings (2) made from composite materials.

The connection method subject to the invention, pressure housing (1), non-pressure housing (2) and diaphragm (5) between them compressed at rates to provide sealing of the diaphragm (5) by means of press machine to connect composite pressure housing (1) and non-pressure housing (2) and diaphragm (5) between them without housing damages as sealing is provided.

Keyways (3) are occur when half of recesses of pressure housing (1) and the other half of recesses of non-pressure housings (2), aligned by compressing diaphragm(5) at rates to provide sealing. This formed keyways (3) are at least 6 pieces. At least 6 wedge mounting space (8) required for the insertion of the wedges (4) in the keyway (3) in the radial direction is formed during the compression process enables the occurrence of the keyways. Connection process is terminated after the wedges (4) are placed into the wedge mounting spaces (8) and are driven to the keyways (3) in the radial direction.

Connection between pressure (1) and non-pressure housing (2) is fixed by wedges (4) enter the keyways (3) and sealing is provided because diaphragm (5) is compressed at the desired rate. Keyways (3) are designed as blind to prevent displacement of the wedges (4) from keyways (3). Additionally, the dislocation of the wedged (4) is prevented under effects caused by vibration or other effects caused by operation conditions, by means of filling the wedge mounting spaces (8) by silicon or similar material after the assembly of the wedges (4).