US3759003A

US3759003A - Pinned joint

Info

Publication number: US3759003A
Application number: US00211340A
Authority: US
Inventors: J Wilson
Original assignee: Individual
Current assignee: Individual
Priority date: 1971-12-23
Filing date: 1971-12-23
Publication date: 1973-09-18
Anticipated expiration: 1990-09-18

Abstract

A pinned joint connects joinable edges of two bodies having complementary projections arranged so that the bodies can be moved together with the projections alternately overlapping in a common parting region between confronting surfaces of the projections. The confronting surfaces of the projections have recesses that are aligned when the bodies are fitted together to form a slot extending along the common parting region transversely to the direction of fitting the bodies together, and a pin is placed into the slot to lock the bodies together. Such bodies can be formed in a simple, two-part mold, and easily assembled for construction and other purposes.

Description

United States Patent 1 Wilson 1 Sept. 18, 1973 PINNED JOINT John C. Wilson, 130 Homewood Ln., Rochester, N.Y.

[22] Filed: Dec. 23, 1971 [21] App1.No.: 211,340

Related US. Application Data [76] lnventor:

[52] US. Cl 52/285, 52/396, 52/426, 52/428, 52/573, 52/585, 52/220 [51] Int. Cl. E04c l/10 [58] Field of Search 52/220, 285, 396, 52/448, 426, 428, 466, 573, 585, 586, 592

[5'6] References Cited UNITED STATES PATENTS 1,639,594 8/1927 Decker 52/428 1,665,442 4/1928 Campbell. 52/586 X 2,128,497 8/1938 Olsen 52/428 2,212,184 8/1940 Powell 52/564 X 2,732,706 1/1956 Friedman.... 52/585 2,845,150 7/1958 McBerty 52/586 X "2,963,827 12/1960 Ganton 52/436 3,025,640 3/1962 Muhr 52/585 X 3,355,849 12/1967 Hancock 52/396 FOREIGN PATENTS OR APPLICATIONS 688,972 5/1930' France 52/586 947,336 l/1949 France 52/585 Primary Examiner-Alfred C. Perham Attorney-Cumpston, Shaw & Stephens [57] ABSTRACT A pinned joint connects joinable edges of two bodies having complementary projections arranged so that the bodies can be moved together with the projections alternately overlapping in a common parting region between confronting surfaces of the projections. The confronting surfaces of the projections have recesses that are aligned when the bodies are fitted together to form a slot extending along the common parting region transversely to the direction of fitting the bodies together, and a pin is placed into the slot to lock the bodies together. Such bodies can be formed in a simple, two-part mold, and easily assembled for construction and other purposes.

65 Claims, 68 Drawing Figures PATENTEUSEPIBIBYE 3759.003

SHEET 1 OF 8 FIG. IE I BY J/iaafl ,ifijoimw HIS ATTORNEYS.

m u o a 27 3| 3O 30 G I 1 INVENTOR. JOHN C. WILSON PATENTED E 81975 3, 759.003

saw u 0F 8 FIG. 30

INVENTOR.

JOHN 0. WILSON BY Mm HIS ATTORNEYS.

PATENTED 8 I975 3, 759 O03 SHEET 6 0F 8 F' FIG.I3A FIG.I3B

I 95 9o 96 0-97 W 90 97-0 96 FIG. I30

FIG. 145 FIG. I5 FIG. [5A

HIS ATTORNEYS.

PIHENIED 3.759.003

SHEEI 7 0f 8 INVENTOR. JOHN 0. WILSON HIS ATTORNEYS 1 PINNED JOINT RELATEIJJAPPLICATIONS INVENTIVE IMPROVEMENT Pinned joints are generally known and have usually been formed by boring a hole through interlocking bodies and driving a pin through the hole. This is expensive and wasteful. The boring can be avoided by molding holes in the bodies by means of retractable rods that are positioned in the mold and withdrawn from the molded bodies to form holes for receiving the locking pin. Withdrawing retractable rods from molds is expensive and often impractical. It is impossible with some materials, and hole length is limited with any material; also mold expense is greatly increased, movement of the rods wears the mold much faster, and the rejection rate for parts is much higher.

The invention involves recognition of a simpler and more efficient way of making a pinned joint without boring holes or retracting rods from molds. The invention aims at molding joinable bodies with simple, twopart molds, saving in materials and labor, and an easily assembled and strong pinned joint. The invention includes several preferred structures including wall constructions using such a joint.

SUMMARY OF THE INVENTION Bodies to be connected with the inventive joint have joinable edges with projections arranged alternately on opposite sides of a parting region. The projections on the respective joinable edges are arranged in complementary orientation so the bodies can be fitted together by a relative movement that slides the parting regions together in a common parting region between confronting surfaces of the .altemate projections. The confronting surfaces of the projections have recesses that are aligned when the bodies are fitted together to form a slot or slots extending along a common parting region transversely to the direction of relative movement sliding the bodies together, and a locking member is placed into the slot to prevent separation of the bodies.

FIG. 1 is an isometric view of a block wall formed with the inventive pinned joint;

FIG. la is a plan view of a block used in the wall of FIG. 1; I

FIG. 1b is an end elevation of the block of FIG. Ia;

FIG. 1: is a front elevation of the block of FIG. la;

FIG. 1d is a cross-sectional view of the wall of FIG. 1 taken along the 1d plane therein;

FIG. la is a isometric view of a pin used in the wall of FIG. 1; 1

FIG. 2is an isometric view of a form assembly having the inventive pinnedjoint;

FIG. 2a is a front elevation of a panel body used in the form assembly of FIG. 2;

FIG. 2b is a plan view of the panel body of FIG. 2a;

FIG. and 2d are opposite end elevations of the panel body. of FIG. 2a;

FIG. 3 is a plan view of the form assembly of FIG. 2;

FIG. 3a is a fragmentary cross-sectional end elevational view of the form assembly of FIG. 3 taken along the line 3a-3a thereof;

FIG. 3b is a fragmentary, cross-sectional'plan view of the form. assembly of FIG. 3a taken along the line 3b3b thereof;

FIG. 30 is a fragmentary; cross-sectional side elevational view of the form assembly of FIG. 3a taken along the line of 3c-3c thereof;

FIG. 3e is an isometric view of a tying device used in the form assembly of FIG. 3;

FIG. 3d is an isometric view of a pin used in the form assembly of FIG. 3;

FIG. 4 is an isometric view of float parts using the inventive joint and shown as dis-assembled;

FIG. 4a is a plan view of four of the float parts of FIG. 4 assembled according to the invention;

FIG. 5 is a fragmentary plan view of an alternate version of the inventive joint in a block wall construction;

FIGS. 6 13 are partially schematic, fragmentary plan views of alternative versions of the inventive joint with FIG. 8a showing a locking member for the joint of FIG. 8; FIG. 11a showing a locking member for the joint of FIG. 1 1; FIGS. 12a and 12b showing end elevations of the blocks of the joint of FIG. 12; and FIGS. 13a through c showing locking members for the joint of FIG. 13;

FIG. 14 is a top view ofa body usable in the inventive joint;

FIGS. 14a and 14b are respective plan views of front and back portions of the body of FIG. 14;

FIG. 15 is a top view of a body usable in the inventive joint;

FIG. 15a is a plan view of the back portion of the body of FIG. 15;

FIG. 16 is a top view of a body usable in the inventive joint;

FIGS. 16a and 16b are respective plan and end elevation views of the back portion of the body of FIG. 16;

FIG. 17 is a partially schematic, fragmentary view of a form assembly of pinned bodies according to the invention;

' FIG. 18 is an isometric view of a clip for use in construction with the inventive joint;

FIG. 19 is a plan view of an expansion joint between either individual bodies or bodies in a wall;

FIG. 20 is a plan view of a sealed expansion joint;

FIG. 21 is a plan view of an alternative expansion I joint;

FIG. 22 is a plan view ,of an expansion joint in a wall made with forms.

FIG. 23 is a fragmentary, cut-away, end elevation of a preferred anchoring clip between forms for a wall;

FIG. 24 is a plan view of an accessory attached to a pinned joint either between individual bodies or bodies in a wall;

FIG. 25 is a plan view of another to a pinned joint in a wall;

FIG. 26 is a perspective view of a preferred embodiment of an accessory for attachment to a pinned joint in a wall;

FIG. 27 is a perspective view of the accessory of FIG. 26 pinned in place against a wall;

FIG. 28 is a plan view of an alternative accessory attcachment covering apinned joint;

FIG. 29 is a section view of another accessory secured to a pinned joint in a wall to support a partition panel;

accessory attached FIG. 30is a plan view of another accessory secured to a pinned joint in a wall to support forms for an adjoining wall;

FIG. 31 is a plan view of another accessory ment to a pinned joint in a wall;

FIG. 32 is a fragmentary, elevational view of a' block having screw-threaded recesses to fit a screw-threaded locking pin;

FIG. 33 is cut-away, elevational view of a wall having a screw-threaded joint slot and a screw pin locking member;

FIG. 34 is a perspective view of the top of a locking pin for pinning the joints of a wall and supporting a structure resting atop the wall,

FIG. 35 is a plan view of two bodies shaped to formv a corner joint;

FIG. 36 is a plan view of the bodies of FIG. 35 assembled in a corner jointj FIG. 37 isa plan view of three walls pinned together with a junction body;

attach- FIG. 38 is a plan view of another junction body for pinned joints;

DETAILED DESCRIPTION FIG. 1 shows a wall section containing two pairs of identical blocks -11 and 12-13 fitted together with theinventive pinned joints. Each of the blocks 10-13 is molded of concrete in a simple, two-part mold separating along a central parting plane extending longitudinal of the block and through the center of the joinable. edges. Of course, blocks 10 13 can be formed of many moldable materials other than concrete. As best shown in FIGS. lal 1c illustrating block 11, projectionsl4 21 extend from the ends of block 11 alternately on opposite sides of such longitudinal central parting region. Projections 14 17 are complementary to projections 18 21 so that duplicates of block 11 can be fitted togetherend-to-end with projections 14 17 overlapping and interlocking with projections 18 21 as illustrated in FIG. 1.

With such an arrangement, inward facing surfaces 22 y and 23 of proje ctions 14 and 16 at one end of block 11 are arranged to confront and engage the inward facing surfaces 24 and 25 of

projections

19 and 21 of an adjoining block 11. Similarly, surfaces 26 and 27 of projections and 17 confront and engage surfaces 28. and 29 of projections 18 and of an adjoining block 11. This produces a solid interlock against lateral or bending stress.

Confronting surfaces 22 29 each have a pair of recesses 30 that arealigned through projections 14 l7 and 18'- 21 to form slots extending transversely across the joinable edges of block 11. Since confrontingsurfaces 22 2.9 lie on the parting region for the mo ld forming block 11 recess slots 30 are readily formed in the molding process in each of the block, surfaces 22 29. Slots 30 allot a longitudinal interlock as described below. V

The joint is assembled as best shown in FIGS. 1; and

1d. For example, block-10, which is a duplicate of block 1 1, is fitted in interlocking relation with block '1 1 as illustrated.- -This is accomplished by sliding blocks 10 and 11 endwise toward each other so that confronting surfaces 22 29 slide over each other and into engagement with each other in a common parting plane. This brings recess slots 30 in each block into registering alignment- Then pins 31 are placed in slots 30 tolock blocks 10 and 11 together. Slots 30 and pins 31 extend out beyond each side of the common parting plane between confronting surfaces 22 29 and prevent separation of blocks 10 and 11 which cannot be forced apart without shearing pins 31 in half or breaking projections 14 21. I

The assembled joints between blocks 10 11 and 12 13 are shown in FIG. M where projections 14 17 of block 10 are identified by section lines that slope upward to the right and projections 18 21 of block 11 are identified by section lines that slope upward to the cal, labor involves merely fitting blocks 5 13 to gether and placing pins 31 in slots 30.

Pins 31 have half-lap notches 32'so that they interlock in between superposed courses of blocks. Some of the pins 31 can be made longenough to extend through two or more courses of blocks if desired.

The outside surfaces of blocks 10 -13 are formed in an alternate convex and concave pattern for aesthetic purposes and to help conceal the joint between blocks. Many other patterns are available for such a purpose, and outside surfaces can be left plain.

The wall form assembly 34 as shown in FIG. 2 is formed of similar panel bodies 35 that are pinned together according to the invention to make two spaced forms that are filled with a bonding material such as concrete. As best shown in FIGS. 2a 2d, bodies 35 have alternate projections 36 lying onopposite sides of a parting region and having confronting surfaces 37 that engage in a common parting region'when panels 35 are fitted together to align recesses 38 in continuous slots for receiving pins 39 (FIGS. 3d and 1e). FIG. 2c shows the left end 40 of panel 35, and FIG. 2d shows the right end 41 of panel 35 asillustrated in FIGS. 2a and 2b. The outer face 42 of bodies 35 is formed with convex segments to conceal joints andimprove the appearances of the wall. I I

Form assembly 34 is intended to become a permanent part of theresulting wall when the space between the forms is filled with a bonding material such as concrete. To facilitate this bodies 35 are preferably formed of a material giving a durable outer surface and an atv tractive inner surface to the resulting wall. Also, form extending between bodies 35 to connect the two sides of'the'formassembly 34, and T-bars 45 at the ends of tie' i'o'ds 44 having holes 46' to receive pins 39. T-bars 45 fit into slots 47 molded intobodies 35 so that tension'on tie-rods 44 from a filling material inside the form assembly is transmitted to pins 39 and to panels to hold form assembly 34 together. Clips 48 extend upward from T-bars and have intumed tabs 49 with holes 50 to extendinto a slot 47 in a superposed panel 35. Pins 39 extend through

holes

50 and 46 to lock tabs 49 into bodies 35 so that clips 48-vertically bridge a joint between bodies 35 and hold superposed courses of panels 35.together to prevent any floating of the courses when the form assembly 34 is filled. An alternative clip 51 as shown in FIG. 18 has inturned tabs 52 with holes 53 arranged so that tabs 52 can be fitted into superposed slots 47 and held in place by pins 39 through holes 53 for bridging and tying together superposed courses of blocks 35. The inventive pinned joint allows clips 51 or brackets 43 to be invisibly anchored in the wall without requiring any finishing. 8

FIGS. 4 and 4a show a float assembly 54 made of four molded sections 55 fitted together with the inventive pinned joint. Float 54 is formed of a lightweight material such as foamed resin and is used for floating a device on water. Manufacturing and shipping economy of float 54 are greatly enhanced by four separate sections 55 that are easily assembled and pinned according to the invention.

This is accomplished by molding alternate projections 56 having confronting surfaces 57 lying on opposite sides of a common parting plane and formed in a simple, two-part mold separating along such common parting plane. Recesses 54 are formed in each of the confronting surfaces 57 to form a continuous, linear slot when projections 56 are fitted together as shown in FIG. 4a A pin 59 inserted into slot 58 secures sections 55 together, and the complete assembly 54 is made secure and strong by four pins 59, or two of such pins made long enough to extend all the way across float 54.

Several alternative joint configurations are shown in FIGS. 5 13. Concrete blocks 60 of FIG. 5 are similar to blocks 19 13 of F IG. 1, and have alternate, interlocking projections 61 at their ends as previously described, but projections 61 have relatively deep and large recesses 62. The large size of recesses 62 helps lighten the weight of blocks 60 and allows convenient pinning together of blocks 60 with a two-by-four pin 64, or by concrete poured into recess 62. Pin 64 or a poured concrete locking member need not fill the entire recess 62 so long as it overlaps the common parting plane between blocks 60.

FIGS. 6 13 show several workable configurations for alternating projections at the joinable edges of pairs of blocks shown as matable fragments. All of these joints function as previously described, and only the differences will be pointed out.

The common parting region 65 of the blocks of. FIG. 6 is oblique to the general plane of such blocks to form projections 66 that are generally dove-tail shaped asillustrated. Projections 66 are slid together along oblique parting regions 65 until recesses 67. register to form a slot that is pinned as described above.

The joinable edges of the blocksof FIG. 7 have recesses 68 that lie entirely on one side of common parting plane 69 between projections 70. This means that only one-half of the projections v70 on each of the blocks has a recess 68, but since the recessed projections 70 alternate between the blocks, a pin in slot 68 nevertheless locks the blocks securely together.

The projections 71' of the blocks of FIG. 8 have a pair of recesses 72 that are spaced apart, and the confronting surfaces 73 of projections 71 are also spaced apart between recesses 72 to form a connecting channel between recesses 72. An irregular shaped locking member 74 such as shown in FIG. 8a is fitted between projections 71 to fill recesses 72 and the space between confronting surfaces 73 to lock the joint closed.

The common parting region 75 between projections 76 and 77 of the blocks of FIG. 9 is offset as illustrated so that projections 76 are thicker than projections'77.

This makes projections 76 stronger and able to bear a greater stress load. Such an arrangement is especially advantageous in form assemblies such as shown in FIGS. 2 and 3 where the interior portion of each half of the form bears a much greater load than the exteriorportion.

The recess 78 between projections 79 of the blocks of FIG. 10 is set further from the end of one block than another so that projections 79 have unequal extensions beyond recesses 78.

The confronting surfaces 80 of projections 81 of the blocks of FIG. 11 are spaced apart to form a long, narrow slot extending on either side of recesses 82. A

. that are alternately offset or spaced apart along the common parting region between the blocks. Relatively thinner projections 88 on one block are .spaced apart by the distance betweenparting planes 85 and86 of the common parting region, and relatively thicker projections 87 on the other block overlap parting

planes

85 and 86. Recess 89 is preferably wide enough to extend beyond each parting plate85 and 86 so'that a'locking member filling recess 89 extends beyond both confronting

surfaces

85 and 86. An end elevation of projections 87 is shown in FIG. 12a and an end elevation of projections 88 is shown in FIG. 12b.

The blocks of FIG. 13 are similar to the blocks of FIG. 11 with spaced-apart confronting surfaces 90, but twin recesses 91 are formed between projections 92 and given generally diamond shapes. This allows locking

members

93, 94, or 95, with extruded, rolled or stamped corrugations 96 to be inserted into recesses 91 and the space between confronting surfaces to lock the joint. Rods 97 can be added as shown in FIG. 13c. Locking members 93 are similar to locking member 83 of FIG. 11a in providing a barrier or seal through the assembled joint.

Bodies to be joined according to the invention need not be molded, but can also be formed in two parts as so that it is feasible to form each block of two parts with a strong and rugged inner facing portion that is not attractive, and a weaker but more attractive external facing portion. Such an arrangement is shown in body- 100 of FIG. 14 having a relatively thick and strong inner 7 facing panel 101, and a relatively thin andweaker outer facing panel 102.

Panels

102 and 101 are shown inplan view in FIGS. 14a and 14b and if such panels 'are overlaid as illustrated, secured together in any convenient way, and then turned on edge, they form body 100 as shown in FIG. 14. Exterior facing panel 102 can be relatively tough, durable, and attractive veneer, and interior facing panel 101 is preferably formed of a material that is cheap and strong. Alternating projections have recesses for pinning bodies 100 together according to the invention.

Exterior facing panel 102 is also applied to the different interior facing panels of

bodies

103 and 104 shown respectively in FIGS. and 16. The interior facing panel of body 103 is formed of boards 105 that are longitudinally offset and secured together along their edges with an additional backing panel 106 overlying boards 105 and adding to their strength strength. panel 107 of body 104 is formed of a steel stamping having stiffening ridges or corrugations 108 as illustrated to enhance the longitudinal strength of body 104. Exterior facing panel 102 can be secured to any of the interior, backing panels by any convenient means such as fasteners, cement, welding, fusion, etc.

The form assembly of FIG. 17 schematically illustrates some of the additional construction features that can be combined with the inventive pinned joint. An exterior veneer panel 109 is secured to the exterior face of bodies 110 that are pinned together according to the-invention by pin 111 to form an outer portion of the wall. A tie rod 112 anchored in place by pin 111 extends through the wall to inner bodies 113 that are pinned together by pin 114 anchoring the inner end of tie rod 1 12 in place. The interior facing surface of bodies 110 carry insulation material 115 which can also be assembled with the inventive pinned joint if desired. The space between insulation 115 and bodies 113 is used for building utilities such as heat conduit 116, electrical conduit 117, and plumbing conduit 118. Conduits 116 118 are buried securely in the resulting wall when the space between insulation 115 and bodies 113 is filled with a bonding material. An interior veneer 119 is formed on bodies 113 to finish off the inside of the resulting wall.

FIGS. 19 22 show several forms of expansion joints made with the inventive pinned joint. Expansion joints are readily made by elongating or widening the slotthat receives the locking member, so that the bodies joined together have limited relative movement along the common parting region because the locking member is not as wide as the slot.

As shown in' FIG. 19,

bodies

125 and 126 are pinned together by a locking pin 127 held in

elongated recesses

128 and 129.

Recesses

128 and 129 are wide enough in the direction of relative motionalong the common parting region between

bodies

125 and 126, so that

projections

130 and 131 on body 125 can move relative to

projections

132 and 133 of body 126 to close or narrow the locking slots until they engage locking pin 127. Such relative motion is indicated by themrows showing that the joint of FIG. 19 can expand and contract freely. From the position illustrated in FIG. 19,

bodies

125 and 126 can move closer together to full abutment of projections 130 133 and full registration of

recesses

128 and 129, or slightly farther apart to firm engagement of both

recesses

128 and 129 with'locking pin 127.

Preferably, locking pin 127 is made cylindrical for rolling engagement in recesses 128 and 129m facilitate relative motion between the jOIIICd'bIOCkSn-The joint of FIG. 19 can be made between individual bodies and 126, or between bodies or panels extending upward or superposed to form a wall. W

FIG. 21 shows a similar expansion joint between bodr ies 135 and 136, using a combination of -somewhat

elongated recesses

137 and 138 joined with a resilient locking member 139 that is deformable as illustrated to allow

bodies

135 and 136 to separate slightly. Locking member 139 can be an elastomeric, solid cylinder or resilient tube. v

The expansion joint of FIG. 20 is similar to the joint of FIG. 19 except that it includes a seal 140 arranged between the confronting surfaces of

projections

141 and 142. Seal 140 is preferably formed as a sleeve that lies nearly flat between

projections

141 and 142, with locking member 143 enclosed in sleeve 140 and lying in the recesses in

projections

141 and 142. To seal a joint in a wall, sleeve 140 preferably extends vertically between the confronting surfaces of all the projections from top to bottom of the wall and encloses a preferably cylindrical locking member 143 which moves inside sleeve 140 to accommodate expansion and contraction motion between the joined bodies of the wall. Seal 140 can also be formed as a generally flat sheet extending between the confronting surfaces of

projections

141 and 142 and passing along one side of locking member 143. Also, seal 140 can be made of a pair of flat sheets straddling locking member 143, and this would be the equivalent of the illustrated sleeve with the edges slit. Furthermore, various arrangements can be made for securing seal 140 in place FIG. 22 shows an expansion. joint formed in a wall made of

forms

144 and 145 filled with a filler material 146. Selected opposed joints in

forms

144 and 145 have elongated

slots

147 and 148 so that

forms

144 and 145 can move relative to locking pins 149 and 1-50. Filler material 146 is interrupted between the expansion joints by an air space or expandable material 151 allowing expansion and contraction of the wall. The expansion space 151 can also be elongated to enclose a steel or other vertical support beam extending upward through the wall. Also, space enclosure 151 can support sleeved dowels 215 as preferred for expansion joints. 7 j

FIG. 23 shows another cross-bracing arrangement between

forms

152 and 153 similar in effect to the cross-bracing shown in FIGS. 3 3c. Cross-brace 154 is generally X-shaped as illustrated with its free ends interlocking with locking

pins

155 and 156 to hold

forms

152 and 153 and their respective block courses securelyin place. Cross-brace 154 can be conveniently cut and shaped from asingle piece of metal with no waste, and preferably has stiffening ridges or grooves.-

Pins

155 and 156 need not pass from top to bottom through

forms

152 and 153 to traverse all the courses a of the wall. One convenient construction uses relatively short pins spanning only a single course until several courses are built up, then one long pin is driven down through the courses next to the strengthen the assembly. 7

FIGS. 24- 31 show several accessories that can be interlocked with the inventive pinned joint -forvarious purposes as described below. S'uch accessories have tabs that fit between the projections of joined bodies shorter pins to.

and extend outward away from the common parting regions of the bodies to support some structure alongside the joint.

The accessory of FIG. 24 is formed as a box 157 having tabs 158 that extend around the ends of projections 159 of bodies 160 and have hook ends 161 hooked around the ends of prrjections 159 and lying in the common parting region between bodies 160. This holds box 157 close against the outside of the assembled joint.

Box 157 is filled with a filler material 162 such as concrete to form a strengthening member alongside the joint between bodies 160. With bodies 160 superposed to form a vertical wall, box 157 preferably extends vertically on one face of the wall, so that when filled with material 162, it forms a pilaster strengthening the wall and helping to support a roof, beams, etc. Box 157 can also be left unfilled to serve as a conduit for utilities such as electric wiring, plumbing, or heating or airconditioning ducts.

Box 157 is preferably formed as shown in FIG. 26 with tabs 158 alternating vertically to extend around the ends of alternate projections of blocks to be joined together in a wall. Box 157 can be the same width as the joint as shown in FIG. 26, wider than the joint, as shown in FIG. 24, or any other desired width.

The assembly of box 157 with blocks 160 in a wall, is best shown in FIG. 27. Box 157 can conceal or weatherproof the joint, serve as a pilaster or load support as mentioned above, or can be used or adapted to connect other structures to the wall. It can be formed of various materials including metal and plastics.

FIG. 25 shows an alternative accessory 163 formed as a flat board or batten concealing the joint in a wall, and making the joint area flush with panels l64'covering the main bodies of blocks 165 of the wall. Blocks 165 have molded projections for joining together according to the invention, and panels 164 are secured only over the main bodies of blocks 165, without covering the joint areas.T his is convenient-because panels 164 can then be made in a simple, rectangular shape. Then batten or joint-covering board 163 is secured to blocks 165 to cover the joint area and fill the space between panels 164. Board 163 is preferably held in place by tabs 158 as described above.

Accessory 166 of FIG. 28 is a similar batten board secured over the joint area between blocks 167. Board 166 covers, conceals and weatherproofs the joint between blocks 167, but instead of being held in place by tabs 158, it is secured to blocks 157 by tabs 168 that are flat and horizontal to fit between courses or projections of blocks 167. Each tab 168 has a hole 169 registered with the slot in the joint between blocks 167 to receive the same locking member that pins blocks 167 together. Tab 168 is then securely anchored in the joint by an interlock with the joint pin to hold board 166 securely in place. v

The accessory of FIG. 29 is formed as a channel 170 receiving the end of a structure 171 such as a beam, partition wall, stair tread, etc. Channel 170 is secured to the projections, of blocks 172 by tabs 158 as previously described, or can use horizontal tabs 168 as shown in FIG. 28. Channel 170 also supports reinforcing rods 173 extending along the. face of the wall formed by blocks 172 to hold and interlock a covering and strengthening material 174 against the face of wall 172. For example, blocks 172 could form the core of a wall with accessory I70 supporting reinforcing rods 173 which interlock a sprayed-on coating 174of plaster or concrete to blocks 172 to strengthen and cover the resulting wall.

FIG. 31 shows a similar arrangement for an accessory box 175 secured to wall blocks 176 by tabs 168that can be struck out of one wall of box 175, or welded on as extra pieces. Tabs 168 interlock with locking pin 177 as described above, either by means of the illustrated hole in tabs 168, or by hooks or notches hooking around pin 177. Also, tabs 168 can hook over the confronting interior faces of the projectoons of blocks 176 to hold box 175 in place. Box 175 can be filled to form a pilaster as described above, or can serve as a conduit or other support. Box 175 also supports reinforcing screen 178 so that a strengthening or coating material can be secured to blocks 176. One advantage in such an arrangement is that blocks 176 can be formed of a lightweight, weak, insulator material that is easily molded and assembled, such as expanded polyurethane or polystyrene, and, a coating of concrete or other material can be readily secured to reinforcing screen 178 to strengthen, beautify, or improve the wall around core blocks 176.

The accessory of FIG. 30 connects to wall

blocks

210 and 211 by tabs 168'interlocked with pins 212 and supports a channel 213 having a pair of pinned joints to receive forms 214 for an adjoining wall. The accessory of FIG. 30 could also use a single pinned joint to receive the end blocks of a wall or some other structure joinable to

blocks

210 and 211.

The molding of recesses in bodies for pinning together according to the invention preferably results in molding one-half of the recess into each of the alternate projections of. the bodies to be joined. If the ultimate slot formed by the joined bodies is cylindrical as often preferred, the recess molded into each projection is semi-cylindrical. This allows each recess to be molded with a screw thread with no special problem, and no substantial additional molding expense. Then the locking member can be a screw-threaded pin that is screwed into the slot formed in the joined bodies. This has many advantages in screw-threading blocks together, screwing the blocks to footings; or screwing supported beams or trusses to the blocks.

FIG. 32 best shows screw-thread recesses 179 formed in the projections 180 of a block 181 to receive a screw-threaded locking pin 182. Mating threads are formed in the recesses of an adjoining block so that pin 182 can be screwed down through the joint between blocks 181 as best shown in FIG. 33. The alternate projections 180 of pairs of superposed and joined blocks 18] are screwed together by locking pin 182 that is screwed down through blocks 181 from top to bottom.

If such a long screw is undesirable, only selected projections 180 need have screw threads so that pin 182 need be screwed no further than desired. For example, as shown in FIG. 33, pin 182 is screwed into a threaded hole in footing 183 supporting blocks 181. It may be desirable to establish a screw-thread connection between the bottom blocks 181 and footing 183, but unnecessary to screw superposed blocks 181 together. To accomplish this, only the lowermost projections 180 of the bottom blocks 181 need be provided with screw threads, and only the lower end of rod 182 need be threaded to screw the bottom blocks 181 to footing 183.

A beam or truss 184 rests atop the uppermost blocks 181 as illustrated in FIG. 33, and is conveniently secured to blocks 181 by a nut 185'screwed to the top of pin 182. Pin 182 can also be screwed into beam 184, and many connections can be made between blocks, locking pins, and accessories attached to blocks or recesses are available.

FIG. 34 shows a support channel 186 formed at the upper end of a locking pin 187 to support-a beam, truss, or other structure on top of a wall. If pin 187 is made strong enough, it can serve not only to lock together the bodies in a wall, but it can support a channel 186, or a plate, box, or other securing means for attaching beams, trusses, rafters, or other structures to the top of a wall.

FIGS. 35 and 36 show a preferred corner joint formed according to the invention.

Bodies

188 and 189 are oriented at an angle to each other-such as the illustrated 90 angle to form a comer, and their ends are formed with alternating projections 190 that-slide together along a common parting region 191. Projections 190 are formed with recesses 192 to receive a locking pin 193 when the joint is assembled as illustrated in FIG. 36. The common parting plane 191 for sliding

bodies

188 and 189 together is preferably normal to the bisector of the angle between

bodies

188 and 189 as illustrated. However, any desired angle between

bodies

188 and 189 can be used, and if unequal projections 190 are tolerable, the parting region between projections 190 can be somewhat off the bisector of the angle between

bodies

188 and 189.

The joint of FIGS. 35 and 36 is useful not only in making comers in walls and other constructions, but can be applied to furniture, toys, coffins, telephone booths, and various other box constructions, especially where panels can be shipped flat and assembled at the site of use. With some of these it is advantageous to use the screw thread joint of FIGS. 32 and 33 to secure the box or joined body to another structure such as a support.

FIG. 37 shows a junction body 194 interconnecting several bodies 195 197 at desired angles by using the inventive pinned joint. Junction body 194 has a plurality of projections 198 set at the desired angles to receive bodies 195 197 for inter-connection. Two, three, four or more'bodiesf can be joined together by a junction body of suitable shape asis suggested by junction body 199 of FIG. 38 having four sets of projections 200 for inter connecting four bodies at right angles to each other. Other angles between joined bodies can be used as desired.

Block 200 of FIG. 39 has its alternate projections 201 formed with upper surfaces 203 that slope downward locking pins once the readily moldable screw-thread vide drainage of moisture from the center of the block toward the outside, and makes block 200 somewhat more weatherproof and suitable for outside wall constructions where liquid drainage is a problem.

Blocks 204 of FIGS. 40 and 41 are laid in superposed courses in a wall or form. To prevent one course from floating above another or separating for any reason, a clip 205 spans the course line between

blocks

204 and 12 it is invisible inside the finished wall. Clip 207 of FIG.

. 41 serves the same purposes in a similar way except away from common parting plane 202. This helps prohooks over a projection 206 on the upper block 204,

and under a projectionv206 on the bottom'block 204. The common parting plane for blocks 204 has clearance for clip 205 so that it can be fitted in place where that it is U-shaped instead of S-shaped.

Clips

205 and 207 can be lengthened to span several course lines,'or can interlock with more than two projections if desired.

The inventive joint can be formed of many materials and can be used in many circumstances where a pinned joint is desired between two bodiesfThe size,'shape and proportion of projections, slots, pins, and other'locking members can vary widely within the scope of the inven tion, and many different surface patterns and textures can be used.

Persons wishing to practice the invention should re member that other embodiments and variations can be adapted to particular circumstances. Even though one point of view is necessarily chosen in describing and defining the invention, this should not inhibit broader or related embodiments going beyond the semantic orientation of this application but falling within the spirit of the invention. For example, those skilled in the art will understand how to adapt the inventive joint to many particular circumstances, and will be able to apply the invention to many materials, uses and environments.

The inventive joint has been described as applied to walls, building blocks, form panels and floats and yet the joint has many other uses. For example, the inventive joints could be made for attachment to structural panels and parts that are assembled by other means, with the joints used to connect such structural parts. Modular sections of building walls formed of two-byfours, panelling, and the like, could have strips of the inventive joint material attached to their edges for connecting such modules together.

The inventive joint can be formed around inside or outside comers, between vertical and horizontal members, and can be set at any convenient orientation. Parts to be joined can be formed of different materials, and the joint can be arranged to connect wall sections with door and windowframes and other components. Shiplap joints such as illustrated in FIGS. 2 2d, and other known panel configurations can be combined with blocks or bodies connected by the inventive joint.

I claim:

1; A pinned joint for connecting two bodies, said joint comprising:

' a. the joinable edges of each of said bodieshaving projections arranged alternately on opposite sides ofaparting region; Y j

b. said projections on said respective joinable edges being arranged in complementary orientation so said bodies can be fitted together by a relative movement that slides said parting regions together in a common parting region between confronting surfaces of said alternate projections;

c. said projections having recesses in said confronting surfaces;

d. said recesses'being aligned in said fitted-together relationship of said bodies to form a slot extending along said common parting region transversely to the direction of said relative movement; and

e. a locking member placed into said slot to prevent separation of said bodies.

2. The joint of claim 1 wherein said locking member is a pin.

3. The joint of claim 1 wherein said slot is linear and said locking member is a straight pin.

4. The joint of claim 1 wherein said locking member substantially fills said slot 5. The joint of claim 1 wherein said projections have substantially the same thickness on each side of said common parting region.

6. The joint of claim 1 wherein said projections on one side of said common parting region are thinner than said projections on the other side of said common parting region.

7. The joint of claim 1 wherein said common parting region is oblique to the general plane of said bodies.

8. The joint of claim 1 including a plurality of said slots and a plurality of said locking members in said slots.

9. The joint of claim 1 wherein said bodies are formed in a two-part mold separating along said parting regions.

10. The joint of claim 1 wherein said recesses are formed in said confronting surfaces on one side of said common parting region.

11. The joint of claim 1 wherein said recesses are formed in said confronting surfaces on each side of said common parting region, and said locking member extends beyond each side of said common parting region.

12. The joint of claim 1 wherein said confronting surfaces engage each other in said common parting region.

13. The joint of claim 1 wherein said confronting surfaces are spaced apart, and said locking member fills said slot and said space between said confronting surfaces. v

14. The joint of claim 1 wherein said confronting surfaces lie on parallel planes alternately offsetrelative to each other.

15. The joint of claim 1 wherein said common parting region is generally plane.

16. The joint of claim 15 wherein said confronting surfaces are spaced apart and lie in a pair of parallel planes, and said locking member fills said slot and said space between said confronting surfaces.

17. The joint of claim 15 wherein said surfaces engage in said plane.

18. The joint of claim 17 wherein said recesses are formed in said confronting surfaces on each side of said plane, and said locking member extends on each side of said plane.

19. The joint of claim 18 wherein said bodies are formed in a two-part mold separating along said parting regions.

20. The joint of claim 1 including a pair of said slots, said confronting surfaces being spaced apart in the region between said slots, and said locking member filling said slots and said space between said slots.

21. A wall formed of a plurality of said bodies joined with the pinned joint of claim 1.

confronting 22. The wall of claim 21 wherein said bodies are arranged in superposed courses.

23. The wall of claim 22 wherein a plurality of said locking members placed between said bodies are arranged to extend vertically between said superposed courses.

24. The wall of claim 22 wherein said superposed courses are tied together by clips extending between said bodies at vertically spaced locations and anchored in place by said locking members.

25. The wall of claim 22 wherein said bodies are formed in a two-part mold separating along said parting regions.

26. A wall formed of a pair of spaced-apart and connected forms each of which comprises a plurality of said bodies joined with the pinned joint of claim 1, and a material filling the space between said forms and bonding said forms together.

27. The wall of claim 26 wherein said connection between said forms comprises ties extending between said bodies and across the space between said forms.

28. The wall of claim 27 wherein said ties are an-- chored between said bodies by said locking members.

29. The wall of claim 26 wherein said bodies are arranged in superposed courses.

30. The wall of claim 29 wherein a plurality of said locking members placed between said bodies are arranged to extend vertically between said superposed courses.

31. The wall of claim 29 wherein said connection between said forms comprises ties extending between said bodies and across said space between said forms, said ties being anchored between said bodies by said locking members.

32. The wall of claim 26 wherein said projections on the inside of said forms are thicker than said projections on the outside of said forms.

33. The wall of claim 26 wherein said bodies are formed of backing plates arranged on the inside of said fonns and face plates arranged on the outside of said forms.

34. The wall of claim 26 wherein said filling material is concrete.

35. The joint of claim 1 wherein said slot iswider than said locking member in the direction of said relative movement so said bodies can move a limited amount relative to said locking member to provide an expansion joint.

36. The joint of claim 35 wherein said locking member is cylindrical for rolling in said slot.

37. The joint of claim 35 wherein said confronting surfaces are spaced apart, a sleeve extends across said common parting region between said confronting surfaces, and said locking member is inside said sleeve.

38. The joint of claim 35 wherein said confronting surfaces are spaced apart, and a sealing member is arranged between said confronting surfaces.

39. The joint of claim 1 wherein said bodies are angled to each other and said common parting region is approximately nonnal to the bisector of the angle between said bodies.

40. The joint of claim 1 wherein the upper surfaces of said projections slope downward from said common parting region.

41. The joint of claim 1 including an accessory interlocked with said joint and extending outward from said bodies away from said common parting region.

42. The joint of claim 41 wherein said accessory has tabs interlocked with said projections.

43. The joint of claim 41 wherein said accessory has a tab interlocked with said locking member.

44. The joint of claim 41 wherein said accessory overlies the outside of said joint.

45. The joint of claim 1 wherein said recesses have a screw thread, and said locking member has a mating screw thread for screwing into said slot.

46. The wall of claim 22 wherein said slot in superposed bodies is wider than said locking member in the direction of said relative movement to superposed pairs of .said bodies can move a limited amount relative to said locking member to provide an expansion joint in said wall.

47. The wall of claim 46 wherein said locking member is cylindrical for rolling in said slot.

48. The wall of claim 46 wherein said confronting surfaces of said superposed bodies are spaced apart, and a sealing member is arranged between said confronting surfaces to seal said expansion joint in said wall.

49. The wall of claim 22 including an accessory interlocked with superposed joints between said bodies and extending outward along a face of said wall.

50. The wall of claim 49 wherein said accessory has tabs interlocked with said projections.

51. The wall of claim 49 wherein said accessory has a tab interlocked with said locking member.

52. The wall of claim 49 wherein said accessory overlies the outside of said joint.

53. The wall of claim 49 wherein said accessory includes a vertical channel adjacent said wall and filled with a construction material to form a pilaster.

54. The wall of claim 49 wherein said accessory includes means for interlocking with another wall structure adjacent said wall.

55. The wall of claim 49 wherein said accessory includes a hollow body serving as a conduit.

56. The wall of claim 21 including a junction body having at least two sets of said projections at angles to each other to establish an angle between the one of said bodies joined to said junction body.

57. The wall of claim 21 wherein at least some of said recesses have screw threads, and said locking members have mating screw threads screwed into said slots.

58. The wall of claim 57'including a footing fo'r'said wall, and wherein said locking members are screwed said courses together.

' 61'. The wall of claim 22 including a clip arranged in said common parting region and interlocking with said projections in said superposed courses to hold said courses together.

62. The wall of claim 22 including a structure on said wall secured to said locking member for connection to said wall.

63. The wall of claim 26 wherein opposite joints in said forms have said slots formed wider than said locking member in said relative movement, and said filling material between said opposite joints is arranged to allow the bodies of said forms to move a limited amount relative to said locking members in said opposite joints to provide an expansion joint in said wall.

outward along a face of said wall. 65. The wall of claim 31 wherein said ties are generally X-shaped.

Claims

1. A pinned joint for connecting two bodies, said joint comprising: a. the joinable edges of each of said bodies having projections arranged alternately on opposite sides of a parting region; b. said projections on said respective joinable edges being arranged in complementary orientation so said bodies can be fitted together by a relative movement that slides said parting regions together in a common parting region between confronting surfaces of said alternate projections; c. said projections having recesses in said confronting surfaces; d. said recesses being aligned in said fitted-together relationship of said bodies to form a slot extending along said common parting region transversely to the direction of said relative movement; and e. a locking member placed into said slot to prevent separation of said bodies.

2. The joint of claim 1 wherein said locking member is a pin.

4. The joint of claim 1 wherein said locking member substantially fills said slot.

5. The joint of claim 1 wherein said projections have substantially the same thickness on each side of said common parting region.

13. The joint of claim 1 wherein said confronting surfaces are spaced apart, and said locking member fills said slot and said space between said confronting surfaces.

14. The joint of claim 1 wherein said confronting surfaces lie on parallel planes alternately offset relative to each other.

15. The joint of claim 1 wherein said common parting region is generally plane.

17. The joint of claiM 15 wherein said confronting surfaces engage in said plane.

22. The wall of claim 21 wherein said bodies are arranged in superposed courses.

28. The wall of claim 27 wherein said ties are anchored between said bodies by said locking members.

33. The wall of claim 26 wherein said bodies are formed of backing plates arranged on the inside of said forms and face plates arranged on the outside of said forms.

34. The wall of claim 26 wherein said filling material is concrete.

35. The joint of claim 1 wherein said slot is wider than said locking member in the direction of said relative movement so said bodies can move a limited amount relative to said locking member to provide an expansion joint.

39. The joint of claim 1 wherein said bodies are angled to each other and said common parting region is approximately normal to the bisector of the angle between said bodies.

46. The wall of claim 22 wherein said slot in superposed bodies is wider than said locking member in the direction of said relative movement to superposed pairs of said bodies can move a limited amount relative to said locking member to provide an expansion joint in said wall.

58. The wall of claim 57 including a footing for said wall, and wherein said locking members are screwed into said footing.

59. The wall of claim 57 including a structure arranged on said wall and secured to said locking member for connection to said wall.

60. The wall of claim 22 wherein said slots through said superposed courses are screw-threaded and said locking members are screwed into said slots to hold said courses together.

61. The wall of claim 22 including a clip arranged in said common parting region and interlocking with said projections in said superposed courses to hold said courses together.

64. The wall of claim 26 including an accessory interlocked with a joint in one of said forms, and extending outward along a face of said wall.

65. The wall of claim 31 wherein said ties are generally X-shaped.