CA1212630A - Locking member - Google Patents
Locking memberInfo
- Publication number
- CA1212630A CA1212630A CA000437388A CA437388A CA1212630A CA 1212630 A CA1212630 A CA 1212630A CA 000437388 A CA000437388 A CA 000437388A CA 437388 A CA437388 A CA 437388A CA 1212630 A CA1212630 A CA 1212630A
- Authority
- CA
- Canada
- Prior art keywords
- tube
- flange
- plate
- muffler
- side wall
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Exhaust Silencers (AREA)
Abstract
ABSTRACT
A LOCKING MEMBER
A locking member 1 in the form of a collar can provide a strong mechanical joint between a tube 5 and an apertured plate 6. The locking member 1 has an outwardly directed flange 2 and an inwardly directed flange 4 and is accommodated on the end of the tube 5 which is then inserted in the aperture in the plate 6.
Axial pressure applied to the end of the tube 5 will result in the deformation of the locking member and the tube end about the plate aperture resulting in a strong mechanical joint being formed between the tube 5 and the plate 6.
A LOCKING MEMBER
A locking member 1 in the form of a collar can provide a strong mechanical joint between a tube 5 and an apertured plate 6. The locking member 1 has an outwardly directed flange 2 and an inwardly directed flange 4 and is accommodated on the end of the tube 5 which is then inserted in the aperture in the plate 6.
Axial pressure applied to the end of the tube 5 will result in the deformation of the locking member and the tube end about the plate aperture resulting in a strong mechanical joint being formed between the tube 5 and the plate 6.
Description
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BACKGROUND OF INVENTION
_ This invention relates to a locking member in the form of a collar which can provide a strong mechanical joint between a tube and an apertured plate.
The present invention will be hereinafter described particularly with regard to its application in the construction of muffler assemblies for car silencers. It is, however, to be appreciated that this application is given by way of example only and that numerous other applications are possible and will be readily apparent to those skilled in the Engineering arts.
To the present time, the construction of muffler assemblies for vehicle silencers has usually required extensive welding between the various components thereof and particularly between the tubes and the baffles. This welding is time consuming and tends to assist in the development of corrosion around the weld points. It also tends to result in time in the failure of a perc~ntage of the welds requiring the replacement of the entire silencer. Also, to facili~ate such welding, the baffles have in the past been generally provided with flanges around the apertures to which the tubes are then inserted. This flange formation also increases the number of operations in the construction of a welded muffler assem~ly and hence the end cost thereof.
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BACKGROUND OF INVENTION
_ This invention relates to a locking member in the form of a collar which can provide a strong mechanical joint between a tube and an apertured plate.
The present invention will be hereinafter described particularly with regard to its application in the construction of muffler assemblies for car silencers. It is, however, to be appreciated that this application is given by way of example only and that numerous other applications are possible and will be readily apparent to those skilled in the Engineering arts.
To the present time, the construction of muffler assemblies for vehicle silencers has usually required extensive welding between the various components thereof and particularly between the tubes and the baffles. This welding is time consuming and tends to assist in the development of corrosion around the weld points. It also tends to result in time in the failure of a perc~ntage of the welds requiring the replacement of the entire silencer. Also, to facili~ate such welding, the baffles have in the past been generally provided with flanges around the apertures to which the tubes are then inserted. This flange formation also increases the number of operations in the construction of a welded muffler assem~ly and hence the end cost thereof.
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2.
A proposal has now been put forward which allows a non-welded construction in which muffler tubes are expanded to form a ridge on each side of the baffle or end cap collar aperture to hold the muffler tubes to those parts. However, this proposal still requires the baffle or end cap apertures to be extruded or flanged with the resultant need for accurate pre-assembly before the muffler tube is expanded to form the resultant joint. Also, because the muffler tube is not expanded inside the flange area the baffle will only be as tight as the original, slide, fit.
The present invention has been developed specifically for use in the construction of mufflers but as it will be appreciated hereinafter it could be utilized in numerous other applications and wherever a mechanical joint between a tube and a plate is requlred .
It is thus an object of the present invention to provide a method and means whereby a strong mechanical joint between a tube and a plate can be obtained.
SUMMARY OF THE INVENTION
According to one embodiment of the present lnvention there is thus provided a method of securing a tube within an aperture in a plate t said method comprising:
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(a) Providing a collar, including a side wall, having a peripheral inwardly directed first flange portion at one end thereof, and a peripheral outwardly extendlng flange portion at the opposite end thereof;
(b) Introducing said collar onto a free end of the tube so that the first flange portion seats on and` overlaps said free end;
(c) Introducing said free end of said tube and said collar into and through said aperture in said plate so that said second flange por~ion seats behind the rim o~
said aper~ure;
(d) Applying a force into said tube to deform said collar and to expand said free end so that said deormed collar is secured both to said expanded free end and the ~aterial of said plate about said apeture to form a mechanical joint between said tube and said plate.
According to a further embodiment of the present in~en~ion there is also provided a muffler including: a ba~fle plate having at least one aperture at least one ~uffler tube extending into the aperture in the baffle plate; and a locking collar formed separately from both the baffle plate and the muffler tube, and connecting the muffler tube to the baffle plate, the locking collar including a side wall of substantially circular cross section located between the plate and the tube, a first flange extending inwardly from a first end of the side wall, deformed over a first end of the tube, and capturing the first end of the tube between the side wall and the first flange thereby to mechanically join the tube to the locking collar, and a second flange spaced from the first flange, extending outwardly from a second end of the side wall, seating against the plate, and capturing the plate between the second flange and the side wall thereby to mechanically join the plate to the locking collar.
A
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BRIEF DESCRIPTION OF THE DRAWINGS
The present invention will now be described by way of example and with reference to the accompanying drawings wherein;
FIGURES 1 and lA: show,diagrarnatically, respective plan perspective and cross-sectional views of a locking member according to one embodiment of the invention;
FIGURES 2A and 2B: show,diagramatically, cross-sectional views through a tube, collar and plate assembly both prior and after physical jointing there hetween has been obtained;
FIGURE 3: shows,diagramatically, a muffler sub-assembly utilizing the present invention;
FIGURE 4: shows, diagramatically, an hydraulic press assembly suitable for carrying out the manufacture of the muffler assembly of . Figure 3.
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FIGURE 5: shows, diagramatically, a cross-sectional view of a muffler utilizing the present invention.
BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring to Figure 1 of the accompanying drawings a locking collar 1 according to one embodi-ment of the invention has a substantially circular side wall portion 3 with at one end a peripheral inwardly directed flange portion 4 and at an opposite end a peripheral outwardly directed flange portion 2.
The collar 1 when used in the construction of muffler assemblies would generally be a non-corrosive metal e.g. stainless steel, of suitable gauge e.g.
2d Pr 18 bg~ Alternatively, it cculd be of mild steel coated 50 as to protect against corrosion or plain mild steel but it should be of the same material or have the same coating as the other components to avoid setting up electrolitic action~
The inner and outer flanges 4 and 2 are each shown having an included angle ~1 and a 2 which is other than a right angle and may suitably be of the order of 70 degrees.
In Figure 2A the collar 1 is shown positioned at the free end of a tube 5 which has then been inserted into an aperture in a plate 6. The flange 2 is shown positioned behind the underside of the plate 6 about the aperture therein, with the flange 4 seating on and
A proposal has now been put forward which allows a non-welded construction in which muffler tubes are expanded to form a ridge on each side of the baffle or end cap collar aperture to hold the muffler tubes to those parts. However, this proposal still requires the baffle or end cap apertures to be extruded or flanged with the resultant need for accurate pre-assembly before the muffler tube is expanded to form the resultant joint. Also, because the muffler tube is not expanded inside the flange area the baffle will only be as tight as the original, slide, fit.
The present invention has been developed specifically for use in the construction of mufflers but as it will be appreciated hereinafter it could be utilized in numerous other applications and wherever a mechanical joint between a tube and a plate is requlred .
It is thus an object of the present invention to provide a method and means whereby a strong mechanical joint between a tube and a plate can be obtained.
SUMMARY OF THE INVENTION
According to one embodiment of the present lnvention there is thus provided a method of securing a tube within an aperture in a plate t said method comprising:
~2~
(a) Providing a collar, including a side wall, having a peripheral inwardly directed first flange portion at one end thereof, and a peripheral outwardly extendlng flange portion at the opposite end thereof;
(b) Introducing said collar onto a free end of the tube so that the first flange portion seats on and` overlaps said free end;
(c) Introducing said free end of said tube and said collar into and through said aperture in said plate so that said second flange por~ion seats behind the rim o~
said aper~ure;
(d) Applying a force into said tube to deform said collar and to expand said free end so that said deormed collar is secured both to said expanded free end and the ~aterial of said plate about said apeture to form a mechanical joint between said tube and said plate.
According to a further embodiment of the present in~en~ion there is also provided a muffler including: a ba~fle plate having at least one aperture at least one ~uffler tube extending into the aperture in the baffle plate; and a locking collar formed separately from both the baffle plate and the muffler tube, and connecting the muffler tube to the baffle plate, the locking collar including a side wall of substantially circular cross section located between the plate and the tube, a first flange extending inwardly from a first end of the side wall, deformed over a first end of the tube, and capturing the first end of the tube between the side wall and the first flange thereby to mechanically join the tube to the locking collar, and a second flange spaced from the first flange, extending outwardly from a second end of the side wall, seating against the plate, and capturing the plate between the second flange and the side wall thereby to mechanically join the plate to the locking collar.
A
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BRIEF DESCRIPTION OF THE DRAWINGS
The present invention will now be described by way of example and with reference to the accompanying drawings wherein;
FIGURES 1 and lA: show,diagrarnatically, respective plan perspective and cross-sectional views of a locking member according to one embodiment of the invention;
FIGURES 2A and 2B: show,diagramatically, cross-sectional views through a tube, collar and plate assembly both prior and after physical jointing there hetween has been obtained;
FIGURE 3: shows,diagramatically, a muffler sub-assembly utilizing the present invention;
FIGURE 4: shows, diagramatically, an hydraulic press assembly suitable for carrying out the manufacture of the muffler assembly of . Figure 3.
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FIGURE 5: shows, diagramatically, a cross-sectional view of a muffler utilizing the present invention.
BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring to Figure 1 of the accompanying drawings a locking collar 1 according to one embodi-ment of the invention has a substantially circular side wall portion 3 with at one end a peripheral inwardly directed flange portion 4 and at an opposite end a peripheral outwardly directed flange portion 2.
The collar 1 when used in the construction of muffler assemblies would generally be a non-corrosive metal e.g. stainless steel, of suitable gauge e.g.
2d Pr 18 bg~ Alternatively, it cculd be of mild steel coated 50 as to protect against corrosion or plain mild steel but it should be of the same material or have the same coating as the other components to avoid setting up electrolitic action~
The inner and outer flanges 4 and 2 are each shown having an included angle ~1 and a 2 which is other than a right angle and may suitably be of the order of 70 degrees.
In Figure 2A the collar 1 is shown positioned at the free end of a tube 5 which has then been inserted into an aperture in a plate 6. The flange 2 is shown positioned behind the underside of the plate 6 about the aperture therein, with the flange 4 seating on and
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extending over the free end of the tube 5.
Axial pressure by means of a suitable mandrel or other such member inserted into the end of the tube 5 in a direction indicated by arrow A is then applied.
This will result in a desired physical joint between the tube 5 and the plate 6 being formed~ Thus in Figure 2B it will be seen that the axial pressure has resulted in ~he bell-mouthing or expanding of the tube free end 5A. At the same time the flange 4 has been forced inwardly to form a rim 10 which conforms with and grips the bell-mouthed tube end SA. The side wall 3 is also shown conforming with the exterior surface of the tube end 5A before reaching the lower flange 2. The plate material around the plate aperture is thus trapped between the side wall 3 and the lower flange 2.
In this way, a strong mechanical joint is formed between the tube 5 and the plate 5 with the deformation of the tube end 5A and the collar 1.
The provision of the included angle ~1 defined by the flange 4 with the side wall 3 provides a lead-in for the tube 8. The included angle ~ 2 defined by the outer flange 2 is however believed to contribute to the resulting joint obtained as described below.
As the collar 1 i5 a "drawn" part there is inevitably a radius of a minimum of metal thickness between the flange 2 and the inner side of the wall 3.
The bend in the flange 2 effectively lowers the reaction point against the tube 5 and prevents "twisting" of the collar 1 as the axial force A is applied. Without the provision of the bend in the flange 2 it is envisaged ~hat the collar 1 could twist around the edge of the aperture in the plate 6. This could provide an inferior joint at least in its appearance. As shown in Figure 2B the edge 9 of rim 10 formed by the deformed flange 4, will clear a tube 8 inserted into the tube 5 after the joint has been formed, the deformation of the tube 5 at its free end region 5A providing a lead-in for the tube 8.
In Figure 3, the present invention as described broadly in Figures-l and 2 is shown applied to the formation of a muffler-assembly 40. In Figure 3 the baffle plates 6 have respective muffler tubes 5 secured thereto and there between at their respective ends by locking collars lA, lB, lC and lA', lBI and lC'.
Such muffler sub-assemblies 40 can then be connected to the end caps as required, either utilizing end connectors to form the desired length of silencer or by adjusting inlet and/or outlet tube lengths and diameters to mate with the assembly.
~5 the sub-assmebly 40 is a tight push--fit into the outer case of harrel so that no welding is necessary.
The tubes 5 along their respective lenyths are 3~3 shown provided with a plurality of exhaust gas apertures or louvres 13 in known manner.
To construct the sub-assembly 40 the tubes 5 will have mounted at each end respective collars 1 and the collars 1 plus tube ends will then be inserted into respective apertures in the baffle plates6. A
pressing operation will then be effected whereby the mechanical joints such as illustrated in Figure 2B
will be formed ~etween the tube ends ~nd the baffle plates 6 by means of the respective collars 1 simultaneously.
In Figure 4, a press assembly is indicated generally by arrow 11 which could be used for forming a muffler sub-assembly such as illustrated in Figure 3 or the complete muffler shown in Figure 5 hereinafter described.
The press 11 is shown including lower anvils 14 and 15 on which a sub-assembly such as shown in Figure 3 can be positioned prior to the mechanical joints therein being formed. An upper anvil 20 is movable in a vertical plane as illustrated by arrow 2 so as ~o close over the lower anvils 14 and 15. The anvil 20 is shown provided with recesses 39 so as to accommodate the curvature of the respective tubes 5. The closing of the anvil 20 over the sub-assembly 40 can activate the press sequence wherein anvil 14 can move away from anvil 15 by a small pre-determined distance, for 31:~
10 .
0.5", and can then be locked, in a position whereby the flanges 2 of the collars 1 are supported avoiding compressive stress on the tubes 5 A ram 16 can then move towards the anvil 20 until the mandrels 38 engage with the respective collars 1 mounted on the ends of the tubes 5 and to cause axial pressure to be exerted thereon thus forming the joints between the tubes 5 and the baffles 6. Spring loaded collars 22 about the respective mandrels 38 can assist in maintaining the collars/ tubes and baffle plate in the desired disposition relative one with the other as the joints are formed. The resistance offer~d by the baffle sub-assembly can then cause pressure to be exerted on the bars 18 resulting in the closure of the distance between the end member 17 and the anvil 15. Pressure can continue to be exerted on the baffle sub-assembly until its component parts have heen physically joined together when the ram 16 can return to a stop on an end member 19. The bars ~ 18 can then push the end member 17 away and a spring (not shown~ which can be provided under the ram 16 can operate the anvil 14 to retract it back towards the anvil 15 by the aforementioned distance it first moved away. The top anvil 20 can then automatically lift up and the finished muffler sub-assembly removed. The total time taken may be of the order of 30 seconds.
The mandrels 23 adiacent the end member 17 are 3~
also shown provided with spring loaded collars 22 for the aforementioned purpose.
The mandrels 22 and 23 are also each shown provided in the respective end members of the press with slots 12 which can enable vertical and horizontal adjustment of the mandrels prior to locking so as to accommodate various locations of apertures in the baffle plates of the sub-assembly.
Additionally, various adjustments can be made to accommodate required lengths of sub-assemblies 40 which may be required to be formed.
If the jointing of the tubes 5 to a single baffle plate 6 only were required then the bars 18 could be locked relative to the anvil 15 in which case only the ram 16 would be operable.
It is to be appreciated that the press assembly shown in Figure 4 is by way of a very diagrammatic illustration only of a type of press suitable for achieving the desired mechanical joints in a muffler or other required assembly or sub-assembly~
It will also be appreciated, however, that by utilizing the present invention a plurality of tubes 5 can be inserted into and locked with an apertured plate 6 at one or both ends thus avoiding individual insertion and welding as used to the present time.
Also the use of extruded or flanged apertures in the baffle plate are no longer required. Moreover, the resulting mechanical joints are believed to be more ~Z~i3~
rigid and superior to welded joints and furthermore avoid corrosion around the joints due to material deterioration caused firstly by swaging and then by welding.
Referring now to Figure 5 of the accompanying dxawings a complete muffler assembly is illustrated in cross-section and referenced gPnerally by arrow 30.
The muffler 30 is shown having a barrel 31 with respective end caps 27 and 28 secured thereto. The inlet tube 26 is shown extending through and secured to an end cap 27 and with a reduced diameter portion 26A extending into the muffler sub-assembly 32 and more particularly into one of the louvred tubes 5 therevf. Each of the tubes 5 of the sub-assembly 32 are shown jointed at each end with the respective apertured baffle plates Ç by means of xespective collars 1.
Similarly, plate 2~ deEines with one of the baffle plates 6 and an end cap 28 respectively a reversing chamber 33 and a Helmholtz chamber 34. A tuning tube 35 is shown extending through and connected with the plate 29 by means of a collar 1. The exhaust gas exiting from the sub-assembly 32 through exhaust tube 36~ The inlet and outlPt tubes 26 and 36 are shown connected with the respective end caps 27 and 28 by a non-crimping technique forming joints 24 3~
whilst the end caps 27 and 28 are shown respectively connected with the barrel 31 by means of lock seamed rolled joints 25, no welding being required in this whole assembly.
The various rigidly locked and accurately aligned but rapidly built sub-assemblies can become the building blocks of a highly efficient modular manufacturing concept. The resultant product is completely weld free to the st.age shown in Figure 5. Welding may be required for attachments only, for example extension pipes or brackets.
Where inthe aforegoing description reference has been made to specific components or integers of the invention having known equivalents tllen such equivalents are herein incorporated as if individually set forth.
Although this invention has been described by way of example and with reference to possible embodiments thereof it is to be understood that modifications or improvements may be made thereto without departing from the scope of the invention as defined in the appended claims.
extending over the free end of the tube 5.
Axial pressure by means of a suitable mandrel or other such member inserted into the end of the tube 5 in a direction indicated by arrow A is then applied.
This will result in a desired physical joint between the tube 5 and the plate 6 being formed~ Thus in Figure 2B it will be seen that the axial pressure has resulted in ~he bell-mouthing or expanding of the tube free end 5A. At the same time the flange 4 has been forced inwardly to form a rim 10 which conforms with and grips the bell-mouthed tube end SA. The side wall 3 is also shown conforming with the exterior surface of the tube end 5A before reaching the lower flange 2. The plate material around the plate aperture is thus trapped between the side wall 3 and the lower flange 2.
In this way, a strong mechanical joint is formed between the tube 5 and the plate 5 with the deformation of the tube end 5A and the collar 1.
The provision of the included angle ~1 defined by the flange 4 with the side wall 3 provides a lead-in for the tube 8. The included angle ~ 2 defined by the outer flange 2 is however believed to contribute to the resulting joint obtained as described below.
As the collar 1 i5 a "drawn" part there is inevitably a radius of a minimum of metal thickness between the flange 2 and the inner side of the wall 3.
The bend in the flange 2 effectively lowers the reaction point against the tube 5 and prevents "twisting" of the collar 1 as the axial force A is applied. Without the provision of the bend in the flange 2 it is envisaged ~hat the collar 1 could twist around the edge of the aperture in the plate 6. This could provide an inferior joint at least in its appearance. As shown in Figure 2B the edge 9 of rim 10 formed by the deformed flange 4, will clear a tube 8 inserted into the tube 5 after the joint has been formed, the deformation of the tube 5 at its free end region 5A providing a lead-in for the tube 8.
In Figure 3, the present invention as described broadly in Figures-l and 2 is shown applied to the formation of a muffler-assembly 40. In Figure 3 the baffle plates 6 have respective muffler tubes 5 secured thereto and there between at their respective ends by locking collars lA, lB, lC and lA', lBI and lC'.
Such muffler sub-assemblies 40 can then be connected to the end caps as required, either utilizing end connectors to form the desired length of silencer or by adjusting inlet and/or outlet tube lengths and diameters to mate with the assembly.
~5 the sub-assmebly 40 is a tight push--fit into the outer case of harrel so that no welding is necessary.
The tubes 5 along their respective lenyths are 3~3 shown provided with a plurality of exhaust gas apertures or louvres 13 in known manner.
To construct the sub-assembly 40 the tubes 5 will have mounted at each end respective collars 1 and the collars 1 plus tube ends will then be inserted into respective apertures in the baffle plates6. A
pressing operation will then be effected whereby the mechanical joints such as illustrated in Figure 2B
will be formed ~etween the tube ends ~nd the baffle plates 6 by means of the respective collars 1 simultaneously.
In Figure 4, a press assembly is indicated generally by arrow 11 which could be used for forming a muffler sub-assembly such as illustrated in Figure 3 or the complete muffler shown in Figure 5 hereinafter described.
The press 11 is shown including lower anvils 14 and 15 on which a sub-assembly such as shown in Figure 3 can be positioned prior to the mechanical joints therein being formed. An upper anvil 20 is movable in a vertical plane as illustrated by arrow 2 so as ~o close over the lower anvils 14 and 15. The anvil 20 is shown provided with recesses 39 so as to accommodate the curvature of the respective tubes 5. The closing of the anvil 20 over the sub-assembly 40 can activate the press sequence wherein anvil 14 can move away from anvil 15 by a small pre-determined distance, for 31:~
10 .
0.5", and can then be locked, in a position whereby the flanges 2 of the collars 1 are supported avoiding compressive stress on the tubes 5 A ram 16 can then move towards the anvil 20 until the mandrels 38 engage with the respective collars 1 mounted on the ends of the tubes 5 and to cause axial pressure to be exerted thereon thus forming the joints between the tubes 5 and the baffles 6. Spring loaded collars 22 about the respective mandrels 38 can assist in maintaining the collars/ tubes and baffle plate in the desired disposition relative one with the other as the joints are formed. The resistance offer~d by the baffle sub-assembly can then cause pressure to be exerted on the bars 18 resulting in the closure of the distance between the end member 17 and the anvil 15. Pressure can continue to be exerted on the baffle sub-assembly until its component parts have heen physically joined together when the ram 16 can return to a stop on an end member 19. The bars ~ 18 can then push the end member 17 away and a spring (not shown~ which can be provided under the ram 16 can operate the anvil 14 to retract it back towards the anvil 15 by the aforementioned distance it first moved away. The top anvil 20 can then automatically lift up and the finished muffler sub-assembly removed. The total time taken may be of the order of 30 seconds.
The mandrels 23 adiacent the end member 17 are 3~
also shown provided with spring loaded collars 22 for the aforementioned purpose.
The mandrels 22 and 23 are also each shown provided in the respective end members of the press with slots 12 which can enable vertical and horizontal adjustment of the mandrels prior to locking so as to accommodate various locations of apertures in the baffle plates of the sub-assembly.
Additionally, various adjustments can be made to accommodate required lengths of sub-assemblies 40 which may be required to be formed.
If the jointing of the tubes 5 to a single baffle plate 6 only were required then the bars 18 could be locked relative to the anvil 15 in which case only the ram 16 would be operable.
It is to be appreciated that the press assembly shown in Figure 4 is by way of a very diagrammatic illustration only of a type of press suitable for achieving the desired mechanical joints in a muffler or other required assembly or sub-assembly~
It will also be appreciated, however, that by utilizing the present invention a plurality of tubes 5 can be inserted into and locked with an apertured plate 6 at one or both ends thus avoiding individual insertion and welding as used to the present time.
Also the use of extruded or flanged apertures in the baffle plate are no longer required. Moreover, the resulting mechanical joints are believed to be more ~Z~i3~
rigid and superior to welded joints and furthermore avoid corrosion around the joints due to material deterioration caused firstly by swaging and then by welding.
Referring now to Figure 5 of the accompanying dxawings a complete muffler assembly is illustrated in cross-section and referenced gPnerally by arrow 30.
The muffler 30 is shown having a barrel 31 with respective end caps 27 and 28 secured thereto. The inlet tube 26 is shown extending through and secured to an end cap 27 and with a reduced diameter portion 26A extending into the muffler sub-assembly 32 and more particularly into one of the louvred tubes 5 therevf. Each of the tubes 5 of the sub-assembly 32 are shown jointed at each end with the respective apertured baffle plates Ç by means of xespective collars 1.
Similarly, plate 2~ deEines with one of the baffle plates 6 and an end cap 28 respectively a reversing chamber 33 and a Helmholtz chamber 34. A tuning tube 35 is shown extending through and connected with the plate 29 by means of a collar 1. The exhaust gas exiting from the sub-assembly 32 through exhaust tube 36~ The inlet and outlPt tubes 26 and 36 are shown connected with the respective end caps 27 and 28 by a non-crimping technique forming joints 24 3~
whilst the end caps 27 and 28 are shown respectively connected with the barrel 31 by means of lock seamed rolled joints 25, no welding being required in this whole assembly.
The various rigidly locked and accurately aligned but rapidly built sub-assemblies can become the building blocks of a highly efficient modular manufacturing concept. The resultant product is completely weld free to the st.age shown in Figure 5. Welding may be required for attachments only, for example extension pipes or brackets.
Where inthe aforegoing description reference has been made to specific components or integers of the invention having known equivalents tllen such equivalents are herein incorporated as if individually set forth.
Although this invention has been described by way of example and with reference to possible embodiments thereof it is to be understood that modifications or improvements may be made thereto without departing from the scope of the invention as defined in the appended claims.
Claims (10)
THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A method of securing a tube within an aperture in a plate, said method comprising:
(a) Providing a collar, including a side wall, having a peripheral inwardly directed first flange portion at one end thereof, and a peripheral outwardly extending flange portion at the opposite end thereof;
(b) Introducing said collar onto a free end of the tube so that the first flange portion seats on and overlaps said free end;
(c) Introducing said free end of said tube and said collar into and through said aperture in said plate so that said second flange portion seats behind the rim of said aperture;
(d) Applying a force into said tube to deform said collar and to expand said free end so that said deformed collar is secured both to said expanded free end and the material of said plate about said apeture to form a mechanical joint between said tube and said plate.
(a) Providing a collar, including a side wall, having a peripheral inwardly directed first flange portion at one end thereof, and a peripheral outwardly extending flange portion at the opposite end thereof;
(b) Introducing said collar onto a free end of the tube so that the first flange portion seats on and overlaps said free end;
(c) Introducing said free end of said tube and said collar into and through said aperture in said plate so that said second flange portion seats behind the rim of said aperture;
(d) Applying a force into said tube to deform said collar and to expand said free end so that said deformed collar is secured both to said expanded free end and the material of said plate about said apeture to form a mechanical joint between said tube and said plate.
2. A method as claimed in claim 1 further comprising providing an included angle less than 90 degrees respectively between each of said flange portions and said side wall.
3. A method as claimed in claim 1 further comprising providing a plurality of said tubes and one of said collars for each end of said tubes, and further providing 15.
a pair of plates each having a plurality of said apertures to respectively accommodate one of said tube ends.
a pair of plates each having a plurality of said apertures to respectively accommodate one of said tube ends.
4. A method as claimed in Claim 3 wherein each of said tubes is a muffler tube and each of said plates is a baffle plate, said method forming a muffler sub-assembly.
5. A muffler including: a baffle plate having at least one aperture; at least one muffler tube extending into the aperture in the baffle plate; and a locking collar formed separately from both the baffle plate and the muffler tube, and connecting the muffler tube to the baffle plate, the locking collar including a side wall of substantially circular cross section located between the plate and the tube, a first flange extending inwardly from a first end of the side wall, deformed over a first end of the tube, and capturing the first end of the tube between the side wall and the first flange thereby to mechanically join the tube to the locking collar, and a second flange spaced from the first flange, extending outwardly from a second end of the side wall, seating against the plate, and capturing the plate between the second flange and the side wall thereby to mechanically join the plate to the locking collar.
6. A muffler according to Claim 5 wherein said first and second flanges each define an included angle with said side wall which is less than a right angle.
7. A muffler according to Claim 6 wherein said included angles are each substantially 70 degrees.
16.
16.
8. A muffler according to Claim 5 wherein the second flange extends upwardly outwardly from the side wall, and the second flange includes:
an inside portion forming a bend with the side wall and an outside edge engaging the baffle plate and holding said bend spaced from the baffle plate.
an inside portion forming a bend with the side wall and an outside edge engaging the baffle plate and holding said bend spaced from the baffle plate.
9. A muffler according to Claim 8 wherein:
a top edge of the tube flairs outwardly above the baffle plate;
the sidewall flares outwardly above the baffle plate, and the sidewall includes a first portion extending below the edge of the tube, and a second portion extending outside said top edge; and the first flange extends inwardly from the second portion of the sidewall, over the top edge of the tube, and captures said top edge between the first portion of the sidewall and the first flange.
a top edge of the tube flairs outwardly above the baffle plate;
the sidewall flares outwardly above the baffle plate, and the sidewall includes a first portion extending below the edge of the tube, and a second portion extending outside said top edge; and the first flange extends inwardly from the second portion of the sidewall, over the top edge of the tube, and captures said top edge between the first portion of the sidewall and the first flange.
10. A muffler according to Claim 9 wherein the locking collar prevents axial movement of the muffler tube relative to the baffle plate.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000437388A CA1212630A (en) | 1983-09-23 | 1983-09-23 | Locking member |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000437388A CA1212630A (en) | 1983-09-23 | 1983-09-23 | Locking member |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1212630A true CA1212630A (en) | 1986-10-14 |
Family
ID=4126155
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000437388A Expired CA1212630A (en) | 1983-09-23 | 1983-09-23 | Locking member |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1212630A (en) |
-
1983
- 1983-09-23 CA CA000437388A patent/CA1212630A/en not_active Expired
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |