Weld-less compactor

Abstract

A weld-less compactor includes a side wall formed by a first panel and a second panel. Each of the first and second panels includes an L-shaped extension having an opening therethrough. The weld-less compactor also includes a fastener assembly for securing the first panel to the second panel. The fastener assembly includes a bolt and a collar. The bolt has a head and a pintail. The collar is configured to fit around the pintail of the bolt. The first panel and the second panel are secured together by engaging the openings of the first panel and the second panel with the fastener assembly.

Claims

1. A weld-less compactor comprising: an external side wall formed by a first panel and a second panel, wherein each of the first and second panels includes an L-shaped extension having an opening therethrough; a fastener assembly including a bolt and a collar, wherein the bolt has a head and a pintail, and wherein the collar is configured to fit around the pintail of the bolt; wherein the first panel and the second panel are secured together by engaging the openings of the first panel and the second panel with the fastener assembly and press fitting the collar onto the pintail of the bolt; wherein the weld-less compactor is configured for operation in a marine environment substantially without any welded metal-to-metal surface connections.

2. The weld-less compactor of claim 1, wherein the pintail of the bolt engages the first panel, wherein the pintail is disposed through the openings of the first panel and the second panel, and wherein the collar is disposed around the pintail and engages the second panel.

3. The weld-less compactor of claim 2, wherein the pintail of the bolt includes a break neck groove configured to be sheared to disconnect the first panel and the second panel.

4. The weld-less compactor of claim 1, wherein the compactor is constructed substantially entirely of stainless steel.

5. The weld-less compactor of claim 1, wherein the collar includes a flanged section and a collar section, the collar section contains an inner bore wall, the inner bore wall being smooth before the collar is press fitted onto the pintail of the bolt.

6. The weld-less compactor of claim 5, wherein the pintail of the bolt contains a threaded section, the threaded section causing indentations in the inner bore wall of the collar section of the collar when the collar is press fitted onto the pintail of the bolt.

7. The weld-less compactor of claim 1, wherein the external sidewall has a thickness in the range of inch to inch.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view of the compactor.

(2) FIG. 2 is a side view of the compactor.

(3) FIG. 3 is a perspective top view of the metal-to-metal connection employed in the compactor.

(4) FIG. 4 is a side view of the metal-to-metal connection shown in FIG. 3.

(5) FIG. 5 is a bottom perspective side view of the metal-to-metal connection employed in the compactor.

(6) FIG. 6 is a side view of another embodiment of the metal-to-metal connection employed in the compactor.

(7) FIG. 7 is a side view of the bolt of the fastener assembly.

(8) FIG. 8 is a perspective view of the bolt of the fastener assembly.

(9) FIG. 9 is a cross-sectional view of the collar of the fastener assembly taken along line 9-9 of FIG. 10.

(10) FIG. 10 is a top view of the collar of the fastener assembly.

DETAILED DESCRIPTION OF THE INVENTION

(11) FIG. 1 shows compactor 10. Compactor 10 includes lower access door 12 and upper access door 14, both of which are hingedly connected to the front frame member 16 by one or more hinge assemblies 18. Lower access door 12 contains panels 20 which are affixed to lower access door panel 21 by one or more fastener assemblies 24.

(12) FIG. 2 shows side panel 26 of compactor 10. Side panel 26 contains separate side panels 28, 30, 32. Separate side panels 28, 30, 32 are interconnected by fastener assemblies 24. For example, separate side panel 28 containing L-shaped extension 34 is structurally connected via fastener assemblies 24 to L-shaped extension 36 of separate side panel 30. L-shaped extension 38 of separate side panel 30 is structurally connected via fastener assemblies 24 to L-shaped extension 40 of separate side panel 32.

(13) FIG. 3 shows fastener assembly 24 fixedly connecting panel 42 to panel 44. Intermediate support panel 46 has been positioned between the connection of panel 42 and panel 44. Intermediate support panel 46 provides additional structural support and increases the strength of the joint of or connection between panels 42, 44.

(14) FIG. 4 shows another view of the metal-to-metal connection between panels 42, 44 using fastener assembly 24. Intermediate support panel 46 is sandwiched between panels 42, 44. Fastener assembly 24 includes head 48 connected to pintail 50. Collar 52 has been press fitted onto pintail 50 thereby fixedly retaining and connecting panel 42, intermediate support panel 46, and panel 44.

(15) FIG. 5 shows the underside of fastener assembly 24 as it provides the connection between panels 42, 46, 44. Collar 52 is shown press fitted to pintail 50.

(16) FIG. 6 shows a direct metal-to-metal fixation between panel 54 and panel 56 using fastener assembly 24.

(17) FIGS. 7 and 8 show bolt portion 58 of fastener assembly 24. Bolt portion 58 encompasses head 48 and pintail 50. Break neck groove 60 may be included in bolt portion 58 to facilitate the shearing of fastener assembly 24 when it is desired to disconnect fastener assembly 24 from connection to one or more metal panels.

(18) FIGS. 9 and 10 show collar 52 of faster assembly 24. Collar 52 includes flanged section 62 and collar section 64. Collar section 64 contains an inner bore wall 66. Before press fitting collar 52 onto bolt 58, inner bore wall 66 is smooth. Press fitting of collar 52 onto bolt 58 causes inner bore wall 66 to be pressed into the threaded section 68 of bolt 58 and to deform in the recesses 70 in the threaded section 68 thereby forming the indentations shown in FIG. 9.

(19) Fastener assembly 24 may be any fastener performing a press fitting or riveting function. For example, fastener assembly 24 may take the form of Huck bolts commercially available from Alcoa. Fastener assemblies 24 are precision engineered two-piece fasteners that once installed, never come loose regardless of the vibration the assembly is subjected to.

(20) In order to provide the metal-to-metal fixation using fastener assembly 24, bolt 58 is placed through cooperating recesses in the one or more metal panels to be connected together. Collar 52 is placed on bolt 58. A press fitting tool is placed over pintail 50 and activated causing head 48 to be pulled against the metal surface and the tool's anvil pushes collar 52 against the joint. An initial clamp is generated. The tool swages collar 52 thereby increasing the clamping force. A portion of pintail 50 may break. Installation is complete. The squeezing action caused by the tool reduces the diameter of collar 52, increasing its length. This in turn stretches bolt 58, generating a clamp force over the joint. A quick visual inspection is all that is required for a quality-assured joint.

(21) Fastener assembly 24 may be made of steel, aluminum, or stainless steel. Fastener assemblies 24 made of stainless steel are used in connection with compactor 10. The style of head 48 may vary such as round, 90 flush, flanged, and 98T head styles. The size of fastener assembly 24 may vary and include inch, 5/16 inch, inch, inch, inch, inch, inch, 1 inch, 12 mm, 14 mm, 16mm, and 20 mm.

(22) Compactor 10 is preferably composed of stainless steel in order to provide the optimal corrosion protection. Stainless steel panels comprising compactor 10 may be stainless steel.

(23) Compactor 10 replaces all or substantially all welded metal-to-metal surface connections with metal-to-metal surface connections secured by fastener assemblies 24. Accordingly, compactor 10 may be manufactured more efficiently and with less expense due primarily to the elimination of high labor costs associated with the welding process. Because compactor 10 costs less to manufacture in comparison to conventional compactors that are welded, compactor 10 may be made with stainless steel and still be competitively priced. Compactor 10 is less susceptible to corrosion in the marine environment and is made structurally stronger due to the ability to provide intermediate metal layer or layers in between cooperating joint of the metal surfaces affixed by fastener assemblies 24. The ability to add supporting metal layers to provide structural strength is achieved without substantial increase in wall thickness. Wall thickness may be anywhere from inch to less than inch. Compactor 10 also has the benefit of being capable of being shipped disassembled and then later assembled at the operations site or other location.

(24) Compactor 10 made of stainless steel is also advantaged in that its weight is about one-half of that of a comparably-sized conventional compactor made of carbon steel. Reduced weight is achieved because thinner gauge sheets of stainless steel may be used in those areas of compactor 10 that do not take the direct load forces of the compaction.

(25) While the invention has been described in connection with compactor 10, it is to be understood that the weld-less manufacturing processes described herein are equally applicable to other equipment and tools requiring metal-to-metal surface connections.