Door security system and method of using same

Abstract

A door security system is provided which is used to prevent a door, which separates first and second spaces, from opening. The door security system includes a security apparatus which is configured to be engaged with the floor within a first space. If the door is to be opened into the first space, the security apparatus blocks the door from opening into the first space. If the door is to be opened into the second space, an attachment assembly of the door security system acts in concert with the attachment assembly to block the door from opening into the second space. The door security system further includes a release mechanism which can be manipulated from the second space to disengage the security apparatus within the first space, thereby allowing for the door to be opened into either the first or second spaces, as appropriate.

Claims

1. In combination with a vertical door that at least opens from a second space into a first space, the second space connected to the first space by a floor extending underneath the door, a door security system comprising: a door blocking plate comprising a main body, the main body having an outer face and an inner face, a top portion at an upper end of the main body, and a pair of spaced pins extending from an inner face of the top portion along the inner face of the main body to a location beyond a lower edge of the main body; a pair of holes formed in the floor in the first space adjacent an inner side of the door, the pair of holes spaced corresponding to a spacing of the spaced pins; wherein the door blocking plate is operatively engageable with the inner side of the door to prevent the door from being opened into the first space from the second space by inserting the spaced pins in the spaced holes in the floor such that the outer face of the main body of the door blocking plate is located adjacent and facing the inner side of the door; and wherein the top portion of the main body of the door blocking plate is angled away from the outer face of the main body and towards the inner face of the main body.

2. The combination of claim 1, wherein a lower portion of the door blocking plate comprises a floor stop member between the spaced pins, the floor stop member comprising a channel facing inwardly away from the main body.

3. The combination of claim 2, wherein a gap exists between the door and the floor, and further comprising a multi-angled release tool comprising a handle portion comprising an outer free end and an inner end, and a generally J-shaped hook portion extending from the inner end of the handle portion at a right angle thereto, and further wherein the inner end of the handle portion and the generally J-shaped hook portion lie in a plane at an acute angle to an axis of the outer free end of the handle portion.

4. The combination of claim 3, wherein the generally J-shaped hook portion of the multi-angled release tool has a length sufficient to extend from the second space underneath the door through the gap to a location adjacent the channel on the door blocking plate when the spaced pins of the door blocking plate are inserted in the spaced holes in the floor in the first space.

5. The combination of claim 1, door security system further comprising a bracket on the inner side of the door, the bracket defining a slot spaced inwardly from the inner side of the door into the first space at a height and distance sufficient for the spaced pins and the main body of the door blocking plate to be inserted vertically therethrough when the door is closed until the spaced pins are fully inserted in the spaced holes in the floor and the main body is captured between the bracket and the inner side of the door.

6. The combination of claim 1, wherein the pair of spaced pins are fixedly oriented parallel to the main body.

7. The combination of claim 6, wherein the main body is substantially flat.

8. The combination of claim 7, wherein the top portion includes a handle.

9. In combination with a vertical door that at least opens from a second space into a first space, the second space connected to the first space by a floor extending underneath the door, a door security system comprising: a door blocking plate comprising a main body, the main body having an outer face, a top portion at an upper end of the main body, and at least a portion of a pair of spaced pins extending downwardly beyond a lower edge of the main body; a pair of holes formed in the floor in the first space adjacent an inner side of the door, the pair of holes spaced corresponding to a spacing of the spaced pins; wherein the door blocking plate is operatively engageable with the inner side of the door to prevent the door from being opened into the first space from the second space by inserting the spaced pins in the spaced holes in the floor such that the outer face of the main body of the door blocking plate is located adjacent and facing the inner side of the door; wherein a lower portion of the door blocking plate comprises a floor stop member between the spaced pins, the floor stop member comprising a channel facing inwardly away from the main body; and wherein a gap exists between the door and the floor, and the door security system further comprising a multi-angled release tool comprising a handle portion comprising an outer free end and an inner end, and a generally J-shaped hook portion extending from the inner end of the handle portion at a right angle thereto, and further wherein the inner end of the handle portion and the J-shaped hook portion lie in a plane at an acute angle to an axis of the outer free end of the handle portion.

10. The combination of claim 9, wherein the generally J-shaped hook portion of the multi-angled release tool has a length sufficient to extend from the second space underneath the door through the gap to a location adjacent the channel on the door blocking plate when the spaced pins of the door blocking plate are inserted in the spaced holes in the floor in the first space.

11. The combination of claim 9, wherein the main body of the door blocking plate includes an inner face, and wherein the spaced pins extend along the inner face of the main body of the door blocking plate.

12. The combination of claim 11, wherein the top portion of the main body of the door blocking plate is angled away from the outer face and towards the inner face, and wherein the spaced pins extend from an inner face of the top portion along the inner face of the main body to a location beyond the lower edge of the main body.

13. The combination of claim 8, wherein the pair of spaced pins are fixedly oriented parallel to the main body.

14. The combination of claim 13, wherein the main body is substantially flat.

15. The combination of claim 14, wherein the top portion includes a handle.

16. In combination with a vertical door that at least opens from a second space into a first space, the second space connected to the first space by a floor extending underneath the door, a door security system comprising: a door blocking plate comprising a main body, the main body having an outer face, a top portion at an upper end of the main body, and at least a portion of a pair of spaced pins extending downwardly beyond a lower edge of the main body; a pair of holes formed in the floor in the first space adjacent an inner side of the door, the pair of holes spaced corresponding to a spacing of the spaced pins; wherein the door blocking plate is operatively engageable with the inner side of the door to prevent the door from being opened into the first space from the second space by inserting the spaced pins in the spaced holes in the floor such that the outer face of the main body of the door blocking plate is located adjacent and facing the inner side of the door; and a bracket on the inner side of the door, the bracket defining a slot spaced inwardly from the inner side of the door into the first space at a height and distance sufficient for the spaced pins and the main body of the door blocking plate to be inserted vertically therethrough when the door is closed until the spaced pins are fully inserted in the spaced holes in the floor and the main body is captured between the bracket and the inner side of the door.

17. The combination of claim 16, wherein the main body of the door blocking plate includes an inner face, and wherein the spaced pins extend along the inner face of the main body of the door blocking plate.

18. The combination of claim 17, wherein the top portion of the main body of the door blocking plate is angled away from the outer face and towards the inner face, and wherein the spaced pins extend from an inner face of the top portion along the inner face of the main body to a location beyond the lower edge of the main body.

19. The combination of claim 16, wherein a lower portion of the door blocking plate comprises a floor stop member between the spaced pins, the floor stop member comprising a channel facing inwardly away from the main body.

20. The combination of claim 19, wherein a gap exists between the door and the floor, and further comprising a multi-angled release tool comprising a handle portion comprising an outer free end and an inner end, and a generally J-shaped hook portion extending from the inner end of the handle portion at a right angle thereto, and further wherein the inner end of the handle portion and the generally J-shaped hook portion lie in a plane at an acute angle to an axis of the outer free end of the handle portion.

21. The combination of claim 20, wherein the generally J-shaped hook portion of the multi-angled release tool has a length sufficient to extend from the second space underneath the door through the gap to a location adjacent the channel on the door blocking plate when the spaced pins of the door blocking plate are inserted in the spaced holes in the floor in the first space.

22. The combination of claim 16, wherein the pair of spaced pins are fixedly oriented parallel to the main body.

23. The combination of claim 22, wherein the main body is substantially flat.

24. The combination of claim 23, wherein the top portion includes a handle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For a more complete understanding of the disclosure, reference may be made to the following detailed description and accompanying drawings wherein like reference numerals identify like elements in which:

(2) FIG. 1 is a perspective view of a main plate of a security apparatus forming part of a door security system of a preferred embodiment of the invention;

(3) FIG. 2 is a top view of the main plate illustrated in FIG. 1;

(4) FIG. 3 is a front view of the main plate illustrated in FIG. 1;

(5) FIG. 4 is a side view of the main plate illustrated in FIG. 1;

(6) FIG. 5 is a perspective view of a pin of the security apparatus forming part of the door security system of the preferred embodiment of the invention;

(7) FIG. 6 is a side view of the pin illustrated in FIG. 5;

(8) FIG. 7 is a bottom view of the pin illustrated in FIG. 5;

(9) FIG. 8 is a perspective view of a support plate of the security apparatus forming part of the door security system of the preferred embodiment of the invention;

(10) FIG. 9 is a top view of the support plate illustrated in FIG. 8;

(11) FIG. 10 is a side view of the support plate illustrated in FIG. 8;

(12) FIG. 11 is a perspective view of the security apparatus forming part of the door security system of the preferred embodiment of the invention;

(13) FIG. 12 is a top view of the security apparatus illustrated in FIG. 11;

(14) FIG. 13 is a front view of the security apparatus illustrated in FIG. 11;

(15) FIG. 14 is a side view of the security apparatus illustrated in FIG. 11;

(16) FIG. 15 is a perspective view of a sleeve forming part of the door security system of the preferred embodiment of the invention;

(17) FIG. 16 is a bottom view of the sleeve illustrated in FIG. 15;

(18) FIG. 17 is a front view of the sleeve illustrated in FIG. 15;

(19) FIG. 18 is a perspective view of a strap plate of an attachment assembly forming part of the door security system of the preferred embodiment of the invention;

(20) FIG. 19 is a front view of the strap plate illustrated in FIG. 18;

(21) FIG. 20 is a bottom view of the strap plate illustrated in FIG. 18;

(22) FIG. 21 is a perspective view of a washer plate of the attachment assembly forming part of the door security system of the preferred embodiment of the invention;

(23) FIG. 22 is a rear view of the washer plate illustrated in FIG. 21;

(24) FIG. 23 is a side view of the washer plate illustrated in FIG. 21;

(25) FIG. 24 is a perspective view of a bolt of the attachment assembly forming part of the door security system of the preferred embodiment of the invention;

(26) FIG. 25 is a side view of the bolt illustrated in FIG. 24;

(27) FIG. 26 is a top view of the bolt illustrated in FIG. 24;

(28) FIG. 27 is a perspective view of a nut of the attachment assembly forming part of the door security system of the preferred embodiment of the invention;

(29) FIG. 28 is a bottom view of the nut illustrated in FIG. 27;

(30) FIG. 29 is a side view of the nut illustrated in FIG. 27;

(31) FIG. 30 is a perspective view of a release mechanism forming part of the door security system of the preferred embodiment of the invention;

(32) FIG. 31 is a top view of the release mechanism illustrated in FIG. 30;

(33) FIG. 32 is a side view of the release mechanism illustrated FIG. 30;

(34) FIGS. 33-39 illustrate the initial installation of the door security system of the preferred embodiment of the invention;

(35) FIG. 40 illustrates the installation and operation of the door security system of the preferred embodiment of the invention in connection with an inwardly opening door; and

(36) FIGS. 41-54 illustrate the installation and operation of the door security system of the preferred embodiment of the invention in connection with an outwardly opening door.

DETAILED DESCRIPTION OF THE ILLUSTRATED EMBODIMENT

(37) While the present disclosure is susceptible to various modifications and alternative forms, certain embodiments are shown by way of example in the drawings and these embodiments will be described in detail herein. It will be understood, however, that this disclosure is not intended to limit the invention to the particular form described, but to the contrary, the invention is intended to cover all modifications, alternatives, and equivalents falling within the spirit and scope of the invention defined by the appended claims,

(38) A door security system 100 is provided which includes a security apparatus 102, a pair of sleeves 104, an attachment assembly 106, and a release mechanism 108.

(39) The security apparatus 102 is best illustrated in FIGS. 1-14. The security apparatus 102 includes a main plate 110, a pair of pins 112, and a support plate 114.

(40) As best illustrated in FIGS. 1-4, the main plate 110 includes a middle portion 116 having a front surface 118 and a rear surface 120. The middle portion 116 has a top edge 122, a bottom edge 124, and a pair of side edges 126a, 126b which connect the top edge 122 to the bottom edge 124. The bottom edge 124 has a length which is preferably less than a length of the top edge 122. Each side edge 126a, 126b preferably has a first side edge portion 128a, 128b, a second side edge portion 130a, 130b, and a third side edge portion 132a, 132b. The first side edge portions 128a, 128b extend vertically downwardly front opposite ends of the top edge 122. The third side edge portions 132a, 132b extend vertically upwardly from opposite ends of the bottom edge 124. The second side edge portions 130a, 130b curve downwardly and inwardly from the first side edge portions 128a, 128b to the third side edge portions 132a, 132b.

(41) The main plate 110 includes a top portion 134. The top portion 134 has a front surface 136 and a rear surface 138. The top portion 134 has a top edge 140, a bottom edge 142, and a pair of side edges 144a, 144b which connect the top edge 140 to the bottom edge 142. The top edge 140 has a length which is preferably less than a length of the bottom edge 142. The side edges 144a, 144b preferably curve downwardly and outwardly from the top edge 140 to the bottom edge 142. An aperture 146 is preferably provided through the top portion 134 generally equidistantly between the side edges 144a, 144b. The aperture 146 is preferably generally rectangular in configuration, but preferably is rounded at its corners.

(42) The main plate 110 includes a bottom portion 148. The bottom portion 148 has a top surface 150 and a bottom surface 152. The bottom portion 148 has a front edge 154, a rear edge 156, and a pair of side edges 158a, 158b which connect the front edge 154 to the rear edge 156. The front and rear edges 154, 156 preferably have identical lengths and the top and bottom surfaces 150, 152 are preferably rectangular in configuration.

(43) The middle, top, and bottom portions 116, 134, 148 of the main plate 110 are all preferably integrally formed. The bottom edge 142 of the top portion 134 is connected to the top edge 122 of the middle portion 116, with the bottom edge 142 and the top edge 122 preferably having identical lengths. The top portion 134 is angled relative to the middle portion 116, preferably at an angle of forty-five (45) degrees. The top surface 150 of the bottom portion 148 is connected to the bottom edge 124 of the middle portion 116, such that the rear surface 120 of the middle portion 116 is generally flush with the rear edge 156 of the bottom portion 148. The bottom portion 148 has a length which is less than a length of the bottom edge 124 of the middle portion 116 such that equal parts of the bottom edge 124 of the middle portion 116 are exposed on either side of the bottom portion 148. The bottom portion 148 is thus angled relative to the middle portion 116, preferably at an angle of ninety (90) degrees.

(44) The pins 112 of the security apparatus 102 are best illustrated in FIGS. 5-7. The pins 112 include a generally cylindrical portion 160, a generally conical portion 162, and a generally domed portion 164, each of which are preferably integrally formed. The generally cylindrical portion 160 has a top edge 166 which is generally formed at an angle, preferably forty-five (45) degrees, and a bottom edge 168. The generally conical portion 162 has a top edge 170 and a bottom edge 172, where the top edge 170 has a larger diameter than the bottom edge 172. The generally domed portion 164 has a top edge 174 and a bottom point 176. The bottom edge 168 of the generally cylindrical portion 160 and the top edge 170 of the generally conical portion 162 are connected to one another and preferably have the same diameter. The bottom edge 172 of the generally conical portion 162 and the top edge 174 of the generally domed portion 164 are connected to one another and preferably have the same diameter.

(45) The support plate 114 of the security apparatus 102 is best illustrated in FIGS. 8-10. The support plate 114 includes a top surface 178 and a bottom surface 180. The support plate 114 has a front edge 182, a rear edge 184, and a pair of side edges 186a, 186b which connect the front edge 182 to the rear edge 184. The front and rear edges 182, 184 preferably have identical lengths and the top and bottom surfaces 178, 180 are preferably rectangular in configuration.

(46) The security apparatus 102 is formed by welding the main plate 110, the pair of pins 112, and the support plate 114 together. More specifically, the pins 112 are positioned on opposite sides of the bottom portion 148 of the main plate 110 so that the generally cylindrical portion 160 of each pin 112 is positioned against the front surface 118 of the middle portion 116 of the main plate 110 and such that the angled top edges 166 of the generally cylindrical portions 160 are positioned flat against the front surface 136 of the top portion 134 of the main plate 110. The generally cylindrical portions 160 of the pins 112 are preferably slightly distanced from the side edges 158a, 158b of the bottom portion 148 of the main plate 110, and a lower portion of the generally cylindrical portions 160, as well as the generally conical portions 162, and the generally domed portions 164, of the pins 112, are positioned below the bottom portion 148 of the main plate 110. The pins 112 are preferably welded to the main plate 110 at least at the connection of the angled top edges 166 of the generally cylindrical portions 160 to the front surface 136 of the top portion 134 of the main plate 110. The pins 112 may further be welded to the main plate 110 at other positions as desired.

(47) The rear edge 184 of the support plate 114 is positioned against the front surface 118 of the middle portion 116 of the main plate 110, at a predefined distance above the bottom portion 148 of the main plate 110, preferably generally in alignment with the connection of the second and third side edges 130a, 132a; 130b, 132b of the middle portion 116 of the main plate 110. Thus, an elongated channel 188 is defined between the top surface 150 of the bottom portion 148 of the main plate 110 and the bottom surface 180 of the support plate 114. The support plate 114 preferably has a length which is equal to a length of the bottom portion 148 of the main plate 110, and the support plate 114 is generally provided in general alignment with, and in parallel relation to, the bottom portion 148 of the main plate 110. The generally cylindrical portions 160 of the pins 112 are preferably slightly distanced from the side edges 186a, 186b of the support plate 114. The support plate 114 is preferably welded to one or more of the middle portion 116 of the main plate 110 and the pins 112.

(48) The security apparatus 102 of the door security system 100 is thus formed, as illustrated in FIGS. 11-14.

(49) The sleeves 104 of the door security system 100 are best illustrated in FIGS. 15-17. Each sleeve 104 is preferably formed of aluminum, but may be formed of any other suitable material. Each sleeve 104 has a shank portion 190 and a head portion 192 which are preferably integrally formed. The shank portion 190 is generally elongated and cylindrical in configuration and has a bottom end 194, a top end 196, and a generally cylindrical outer surface 198. The head portion 192 has a bottom surface 200, a top surface 202, and a generally circular outer edge 204. The top end 196 of the shank portion 190 is connected to the bottom surface 200 of the head portion 192, and the generally circular outer edge 204 of the head portion 192 has a diameter which is larger than a diameter of the generally cylindrical outer surface 198 of the shank portion 190. The head portion 192 preferably has a small thickness for reasons which will become apparent herein. An aperture 206 extends through the sleeve 104 from the top surface 202 of the head portion 192 to the bottom end 194 of the shank portion 190. The aperture 206 may have a different dimension within the head portion 192 than in the shank portion 190.

(50) The attachment assembly 106 of the door security system 100 is best illustrated in FIGS. 18-29. The attachment assembly 106 includes a strap plate 208, a pair of washer plates 210, a plurality of bolts 212, and a plurality of nuts 214.

(51) The strap plate 208 of the attachment assembly 106 is best illustrated in FIGS. 18-20. The strap plate 208 has a front surface 216, a rear surface 218, a top edge 220, a bottom edge 222, and opposite side edges 224a, 224b which connect the top edge 220 to the bottom edge 222. The strap plate 208 has a middle portion 226, opposite end portions 228a, 228b, and connecting portions 230a, 230b. Each of the middle portion 226, the end portions 228a, 228b, and the connecting portions 230a, 230b are preferably rectangular in configuration. The end portion 228a extends from the side edge 224a to the connecting portion 230a, and the end portion 228b extends from the side edge 224b to the connecting portion 230b. The connecting portion 230a extends angularly inwardly and forwardly from the end portion 228a to the middle portion 226, which the connecting portion 230b extends angularly inwardly and forwardly from the end portion 228b to the middle portion 226. The middle portion 226 is thus parallel to, but offset from, the end portions 228a, 228b, and the end portions 228a, 228b are separated from one another, but are planar with one another. The connecting portions 230a, 230b are preferably angled relative to each of the middle and end portions 226, 228a, 228b at approximately forty (40) to forty-five (45) degrees. Each of the end portions 228a, 228b preferably have a pair of apertures 232a, 234a; 232b, 234b provided therethrough. Each aperture 232a, 234a, 232b, 234b is preferably provided equidistant between the top edge 220 and the bottom edge 222. The apertures 232a, 232b are provided proximate to the side edges 224a, 224b, respectively, while the apertures 234a, 234b are provided distal to the side edges 224a, 224b and proximate to the connection of the end portions 228a, 228b and the connecting portions 230a, 230b.

(52) The washer plate 210 of the attachment assembly 106 is best illustrated in FIGS. 21-23. Each washer plate 210 includes a front surface 236 and a rear surface 238. The washer plate 210 has a top edge 240, a bottom edge 242, and a pair of side edges 244a, 244b which connect the top edge 240 to the bottom edge 242. The top and bottom edges 240, 242 preferably have identical lengths and the front and rear surfaces 236, 238 are preferably rectangular in configuration. The washer plate 210 has a pair of apertures 246a, 246b provided therethrough. Each aperture 246a, 246b is preferably provided equidistant between the top edge 240 and the bottom edge 242. The aperture 246a is provided proximate to the side edge 244a while the apertures 246b is provided distal to the side edge 244a and proximate to the side edge 244b.

(53) The bolts 212 of the attachment assembly 106 are best illustrated in FIGS. 24-26. The attachment assembly 106 preferably includes four bolts 212. The bolts 212 are preferably round head, square neck bolts. Each bolt 212 has a shank portion 248 and a head portion 250 connected at one end of the shank portion 248. The head portion 250 is preferably domed in configuration and has a larger base diameter than a diameter of the shank portion 248. The shank portion has a generally square, non-threaded portion 252 proximate to the head portion 250 and a generally cylindrical, threaded portion 254 extending from the non-threaded portion 252 to a free end of the shank portion 248.

(54) The nuts 214 of the attachment assembly 106 are best illustrated in FIGS. 27-29, The attachment assembly 106 preferably includes four nuts 214. The nuts 214 are preferably zinc-plated, steel acorn nuts. Each nut 214 has a hexagonal base portion 256 and a domed portion 258 which extends therefrom. An opening 260 is provided at the hexagonal base portion 256 and extends through the hexagonal base portion 256 and into the domed portion 258. The opening defines a wall 262 which is preferably threaded.

(55) The release mechanism 108 is best illustrated in FIGS. 30-32. The release mechanism 108 is preferably formed of a rolled steel bar which has been bent to provide its desired configuration. More specifically, the release mechanism 108 has a first portion 264, a second portion 266, a third portion 268, a fourth portion 270, and a fifth portion 272. Each of the second, third, fourth, and fifth portions 266, 268, 270, 272 are planar with one another.

(56) The first portion 264 extends from a first free end 274 of the release mechanism 108 to the second portion 266. The second portion 266 extends straight outwardly from the first portion 264 to the third portion 268, such that the first and second portions 264, 266 are in alignment with one another, but with the first portion 264 being provided at an angle relative to the second portion 266. The third portion 268 extends from the second portion 266 to the fourth portion 270, with the third portion 268 preferably being perpendicular to the second portion 266. The fourth portion 270 extends from the third portion 268 to the fifth portion 272, with the fourth portion 270 preferably being perpendicular to the third portion 268. The fourth portion 270 is preferably positioned opposite of, and in parallel position to, the second portion 266. The fifth portion 272 extends from the fourth portion 270 to a second free end 276 of the release mechanism 108, with the fifth portion 272 preferably being perpendicular to the fourth portion 270. The fifth portion 272 is preferably positioned opposite of, and in parallel position to, the third portion 268. The connections between the portions 264, 266, 268, 270, 272 are preferably smooth and curved. The third, fourth, and fifth portions 268, 270, 272 are generally provided in a J-shaped configuration. The first portion 264 is preferably longer than the third portion 268, the third portion 268 is preferably longer than the second portion 266, the second portion 266 is preferably longer than the fourth portion 270, and the fourth portion 270 is preferably longer than the fifth portion 272.

(57) Each of the main plate 110, the pair of pins 112, and the support plate 114 of the security apparatus 102, the strap plate 208 and the washer plate 210 of the attachment assembly 106, and the release mechanism 108 are preferably made of steel. Alternatively, one or more of these parts may be made of aluminum, wood, or any other material known to one skilled in the art, provided that these alternative materials enable the door security system 100 to work in the manner as described hereinbelow. The sleeves 104 are preferably made of aluminum. Alternatively, the sleeves 104 may be made of steel, wood, plastic, or any other material known to one skilled in the art, provided that these alternative materials enable the door security system 100 to work in the manner as described hereinbelow.

(58) Description of the installation and operation of the door security system 100 will now be described with reference to FIGS. 33-54. While the door security system 100 may be installed and operated in any type of setting having a door separating a first space from a second space, the door security system 100 will be described herein as being installed and operated in connection with a door 300, 400 which separates a classroom 500 (e.g., the first space) from a hallway 600 (e.g., the second space) in a school, where the classroom 500 and the hallway 600 share a common floor 700. Door 300 is defined as a door which opens into the classroom 500, whereas door 400 is defined as a door which opens into the hallway 600.

(59) Regardless of whether door 300 or door 400 is provided, initial installment of the door security system 100 is required and will be described with reference to FIGS. 33-39. Initial installment of the door security system 100 requires that a pair of holes 702 be formed in the floor 700 of the classroom 500, proximate to the door 300, 400, as illustrated in FIG. 33. The holes 702 are preferably provided on opposite sides of a center of the door 300, 400, but may be provided at any desired position along a base of the door 300, 400.

(60) Once the holes 702 are formed, the sleeves 104 are preferably positioned in the holes 702 with the shank portions 190 being provided within the holes 702 and with the bottom surfaces 200 of the head portions 192 being positioned flat against the floor 700, as illustrated in FIG. 34. The sleeves 104 may be retained within the holes 702 and held in place relative to the floor 700 in any suitable manner, such as by an adhesive or an epoxy. Thus, the holes 702 must have a depth which is at least as large as a length of the shank portions 190 of the sleeves 104. As the top surface 202 and the circular outer edge 204 of the head portions 192 of the sleeves 104 are positioned above the floor 700, the thickness of the head portions 192 are preferably minimized as much as possible. In this regard, the head portions 192 do not prevent or impede the opening of the door 300 into the classroom 500 and, if desired, the circular outer edge 204 may taper from the bottom surface 200 to the top surface 202 (so that the top surface 202 has a smaller diameter than the bottom surface 200), or, alternatively, the head portions 192 may be entirely removed from the sleeves 104 so that the top end 196 of the shank portion 190 is generally flush with, or recessed from, the floor 700. As another option, the sleeves 104 may not be utilized at all, but this is not preferred.

(61) In connection with door 400 only, initial installment of the attachment assembly 106 is also required, with reference to FIGS. 35-39. Also in connection with door 400 only, a gap 410 must be provided between the bottom of the door 400 and the floor 700 (a gap can be provided between the bottom of door 300 and the floor 700, but it is not required for operation of the door security system 100). When door 300 is provided between the classroom 500 and the hallway 600, the attachment assembly 106 of the door security system 100 is not installed, and the release mechanism 108 of the door security system 100 is not likely to be operated.

(62) The attachment assembly 106 is installed by drilling first and second pairs of apertures 402a, 404a; 402b, 404b through the door 400, proximate to a lower end of the door 400. Of course, it is to be understood that the apertures 402a, 404a; 402b, 404b could be provided through the door in any desired manner. When viewed as in FIG. 35, it is apparent that the first pair of apertures 402a, 404a are provided to the left of the leftmost sleeve 104, while the second pair of apertures 402b, 404b are provided to the right of the rightmost sleeve 104. One pair of apertures 402a, 404a; 402b, 404b is preferably provided proximate to one of the sleeves 104, while the other pair of apertures 402a, 404a; 402b, 404b is preferably provided distal to the other one of the sleeves 104. As illustrated in FIG. 35, the second pair of apertures 402b, 404b is preferably provided proximate to the rightmost sleeve 104, while the first pair of apertures 402a, 404a is preferably provided distal to the leftmost sleeve 104.

(63) With the apertures 402a, 404a; 402b, 404b properly provided in the door 400, each of the washer plates 210 are positioned to have their front surfaces 236 positioned against the side or surface of the door 400 which faces the hallway 600, as illustrated in FIGS. 36 and 37. One washer plate 210 is positioned so that the aperture 246a is in alignment with the aperture 402a, and so that the aperture 246b is in alignment with the aperture 404a. The other washer plate 210 is positioned so that the aperture 246a is in alignment with the aperture 404b, and so that the aperture 246b is in alignment with the aperture 402b.

(64) Each of the four bolts 212 are then inserted, shank portion 248 first, through the aligned apertures 246a, 402a; 246b, 404a; 246a, 404b; 246b, 402b until the base of the head portion 250 abuts against the rear surfaces 238 of the washer plates 210, as illustrated in FIGS. 36 and 37. When the base of the head portions 250 of the bolts 212 abut against the rear surfaces 238 of the washer plate 210, portions of the threaded portions 254 of the shank portions 248 of the bolts 212 will extend outwardly from the apertures 402a, 404a, 402b, 404b and into the classroom 500.

(65) The strap plate 208 is then positioned to have the threaded portions 254 of the shank portions 248 of the bolts 212 be positioned through the apertures 232a, 234a, 234b, 232b thereof, with aperture 232a being in alignment with aperture 402a, aperture 234a being in alignment with aperture 404a, aperture 234b being in alignment with aperture 404b, and aperture 232b being in alignment with aperture 402b. The rear surface 218 of the end portions 228a, 228b thus are positioned against the side or surface of the door 400 which faces the classroom 500, as illustrated in FIGS. 38 and 39.

(66) Nuts 214 are then threaded onto the threaded portions 254 of the shank portions 248 of the bolts 212 until the base portions 256 of the nuts 214 are tightly positioned against the front surface 216 of the end portions 228a, 228b of the strap plate 208. The attachment assembly 106 of the door security system 100 is thus fixedly secured to the door 400. When the attachment assembly 106 is fixedly secured to the door 400, a slot 800 is provided between the door 400 and the middle and connecting portions 226, 230a, 230b of the strap plate 208, as illustrated in FIGS. 38 and 39.

(67) With the holes 702 formed and the sleeves 104 positioned therein, and when the attachment assembly 106 is secured to the door 400 (if door 400 is provided), further installation and operation of the door security system 100 may be performed when required. The security apparatus 102 is retained in the classroom 500, preferably in a location which is proximate to the door 300, 400, which is easily accessible, and which is in open view. For instance, one or more magnets may be provided along a wall of the classroom 500 proximate to the door 300, 400, for instance twelve (12) inches or less, and the security apparatus 102 may be secured to the magnets.

(68) Attention is directed to FIG. 40 in connection with a description of the further installation and operation of the door security system 100 in connection with door 300. If an unauthorized person has entered the school and one or more individuals located in the classroom 500 are alerted to, or otherwise become aware of, the unauthorized person's presence in the school, the individual(s) may use the door security system 100 to try and prevent (or at least delay) the unauthorized person from entering the classroom 500 through the door 300. More specifically, an individual would locate the security apparatus 102 and bring it next to the door 300. The security apparatus 102 is easily handled due to the provision of the aperture 146 through the top portion 134 of the main plate 110, thus allowing the individual to insert his/her fingers through the aperture 146 to allow for the easy gripping of the security apparatus 102. Thus, the top portion 134 of the main plate 110 of the security apparatus 102 acts as a handle portion of the security apparatus. The security apparatus 102 preferably is also relatively light, preferably approximately five (5) pounds, such that any individual, even a young child, would be able to pick up and move the security apparatus 102.

(69) The pins 112 of the security apparatus 102 are then positioned over, and in general alignment with, the holes 702/sleeves 104 in the floor 700. The rear surfaces 120, 138 of the middle and top portions 116, 134 of the security apparatus 102 are positioned to face the door 300, with the bottom portion 148 and the support plate 114 (and thus the opening to the channel 188 therebetween), being provided in a non-facing relation relative to the door 300.

(70) The security apparatus 102 is then moved downwardly so that the generally domed portions 164, the generally conical portions 162, and portions of the generally cylindrical portions 160 of the pins 112 are inserted into the apertures 206 of the sleeves 104 (or into the holes 702 if the sleeves 104 are not provided, or are missing). The configuration of the conical and domed portions 162, 164 aids in the proper insertion of the pins 112 into the apertures 206 of the sleeve 104. The apertures 206 of the sleeve 104 are preferably slightly larger than the size of the pins 112, such that any type of side-to-side movement of the pins 112 is substantially prevented. The security apparatus 102 is moved downwardly until the bottom surface 152 of the bottom portion 148 comes into contact with the head portions 192 of the sleeves 104 (if the head portions 192 are not provided on the sleeves 104, or if the sleeves 104 are not provided at all, or are missing, the bottom surface 152 of the bottom portion 148 may contact the floor 700). Thus, the sleeves 104 act as a receiving assembly of the door security system 100, the pins 112 of the security apparatus 102 act as a floor engaging portion of the security apparatus 102, and the bottom portion 148 acts as a stop member of the security apparatus 102.

(71) With the pins 112 in place, the rear surface 120 of the middle portion 116 of the security apparatus 102 is preferably positioned flush against, or in close proximity to, the door 300, as illustrated in FIG. 40. More specifically, a distance between the door 300 and the rear surface 120 of the middle portion 116 of the security apparatus 102 is approximately one-quarter of an inch (¼″), although the distance between the door 300 and the rear surface 120 of the middle portion 116 of the security apparatus 102 may be larger or smaller provided that the door security system 100 operates in the manner as described herein. The top portion 134 of the security apparatus 102 is provided at an angle relative to the middle portion 116 so as to provide the individual with adequate space to handle the security apparatus 102 proximate to the door 300.

(72) As illustrated in FIG. 40, the security apparatus 102 is thus essentially engaged with the floor 700, as the pins 112 are anchored in the sleeves 104 positioned in the floor 700, and prevents the door 300 from being opened into the classroom 500. The middle portion 116 of the security apparatus 102 thus acts as a door blocking portion of the security apparatus 102. Thus, the door security system 100 will prevent, or at least substantially delay, the unauthorized person from gaining access to the classroom 500 through the door 300. When the unauthorized person is no longer a threat to the individual(s) within the classroom 500, the individual(s) may remove the security apparatus 102 from the sleeves 104 by grabbing the top portion 134 of the security apparatus 102, preferably utilizing the aperture 146 to aid in the gripping of the top portion 134, and pulling the security apparatus 102 straight upwardly. When the pins 112 are no longer positioned within the sleeves 104, the security apparatus 102 can be returned to its place of storage and the door 300 can be opened into the classroom 500.

(73) Attention is directed to FIGS. 41-54 in connection with a description of the further installation and operation of the door security system 100 in connection with door 400. If an unauthorized person has entered the school and one or more individuals located in the classroom 500 are alerted to, or otherwise become aware of, the unauthorized person's presence in the school, the individual(s) may use the door security system 100 to try and prevent (or at least delay) the unauthorized person from entering the classroom 500 through the door 400. More specifically, an individual would locate the security apparatus 102 and bring it next to the door 400. The security apparatus 102 is easily handled due to the provision of the aperture 146 through the top portion of the main plate 110, thus allowing the individual to insert his/her fingers through the aperture 146 to allow for the easy gripping of the security apparatus 102. Thus, the top portion 134 of the main plate 110 of the security apparatus 102 acts as a handle portion of the security apparatus. The security apparatus 102 preferably is also relatively light, preferably approximately five (5) pounds, such that any individual, even a young child, would he able to pick up and move the security apparatus 102.

(74) The pins 112 of the security apparatus 102 are then positioned over the slot 800 provided between the door 400 and the strap plate 208 of the attachment assembly 106. The pins 112 are further position over, and in general alignment with, the holes 702/sleeves 104 in the floor 700. The rear surfaces 120, 138 of the middle and top portions 116, 134 of the security apparatus 102 are positioned to face the door 400, with the bottom portion 148 and the support plate 114 (and thus the opening to the channel 188 therebetween), being provided in a non-facing relation relative to the door 400.

(75) The security apparatus 102 is then moved downwardly so that the generally domed portions 164, the generally conical portions 162, and portions of the generally cylindrical portions 160 of the pins 112 are first inserted through the slot 800, and then inserted into the apertures 206 of the sleeves 104 (or into the holes 702 if the sleeves 104 are not provided, or are missing). The configuration of the conical and domed portions 162, 164 aids in the proper insertion of the pins 112 into the apertures 206 of the sleeve 104. The apertures 206 of the sleeve 104 are preferably slightly larger than the size of the pins 112, such that any type of side-to-side movement of the pins 112 is substantially prevented. The security apparatus 102 is moved downwardly until the bottom surface 152 of the bottom portion 148 comes into contact with the head portions 192 of the sleeves 104 (if the head portions 192 are not provided on the sleeves 104, or if the sleeves 104 are not provided at all, or are missing, the bottom surface 152 of the bottom portion 148 may contact the floor 700). Thus, the sleeves 104 act as a receiving assembly of the door security system 100, while the pins 112 of the security apparatus 102 act as a floor engaging portion of the security apparatus 102.

(76) With the pins 112 in place, the cylindrical portions 160 of the pins 112 are positioned to rest against, or be in close proximity to, the rear surface 218 of the middle portion 226 of the strap plate 208 of the attachment assembly 106. The first side edge portion 128b of the side edge 126b of the middle portion 116 of the security apparatus 102 is positioned proximate to the connection of the connecting portion 130b and the end portion 128h of the strap plate 208 of the attachment assembly 106, while the first side edge portion 128a of the side edge 126a of the middle portion 116 of the security apparatus 102 is positioned distal to the connection of the connecting portion 130a and the end portion 128a of the strap plate 208 of the attachment assembly 106. Furthermore, the rear surface 120 of the middle portion 116 of the security apparatus 102 is preferably positioned flush against, or in close proximity to, the door 400, as illustrated in FIGS. 41 and 42. More specifically, a distance between the door 400 and the rear surface 120 of the middle portion 116 of the security apparatus 102 is approximately one-quarter of an inch (¼″), although the distance between the door 400 and the rear surface 120 of the middle portion 116 of the security apparatus 102 may be larger or smaller provided that the door security system 100 operates in the manner as described herein. The top portion 134 of the security apparatus 102 is provided at an angle relative to the middle portion 116 so as to provide the individual with adequate space to handle the security apparatus 102 proximate to the door 400. The top portion 134 is also preferably positioned above the strap plate 208.

(77) As illustrated in FIGS. 41 and 42, the security apparatus 102 is thus essentially engaged with the floor 700, as the pins 112 are anchored in the sleeves 104 positioned in the floor 700, and captured between the strap plate 208 and the door 400, and thus prevents the door 400 from being opened into the hallway 600. The strap plate 208 of the attachment assembly 106 and the middle portion 116 of the security apparatus 102 thus act as door blocking portions of the security apparatus 102. Thus, the door security system 100 will prevent, or at least substantially delay, the unauthorized person from gaining access to the classroom 500 through the door 400. When the unauthorized person is no longer a threat to the individual(s) within the classroom 500, the individual(s) may remove the security apparatus 102 from the sleeves 104 and from being captured by the attachment assembly 106 by grabbing the top portion 134 of the security apparatus 102, preferably utilizing the aperture 146 to aid in the gripping of the top portion 134, and pulling the security apparatus 102 straight upwardly. When the pins 112 are no longer positioned within the sleeves 104 or within the slot 800, the security apparatus 102 can be returned to its place of storage and the door 400 can he opened into the hallway 600.

(78) However, if, for whatever reason, the individual(s) within the classroom 500 cannot or will not remove the security apparatus 102, and if an individual in the hallway 600 needs to enter the classroom 500 (such as a school administrator or emergency personnel, e.g., a police officer or a fireman), the release mechanism 108 of the door security system 100 can he utilized by this individual to unanchor and disengage the security apparatus 102 from the floor 700 within the classroom 500, as illustrated in FIGS. 43-54. Unlike the security apparatus 102, the release mechanism 108 is preferably stored in secured location remote from the door 400 to the classroom 500, such as in an administrator's office, in a police car, or in a fire truck.

(79) As illustrated in FIG. 43, the individual located in the hallway 600 first positions the release mechanism 108 on the floor 700 of the hallway 600 proximate to the door 400 such that the second, third, fourth, and fifth portions 266, 268, 270, 272 of the release mechanism 108 are positioned flat against the floor 700, and such that the first portion 264 is angled upwardly from the floor 700. The fourth portion 270 of the release mechanism 108 is positioned most proximate to the door 400, preferably in a parallel relationship with the door 400, and in general alignment with the washer plate 210 positioned at the right side of the door 400. As will become apparent herein, the first and second portions 264, 266 of the release mechanism 108 act as a handle portion of the release mechanism 108, while the third, fourth and fifth portions 268, 270, 272 of the release mechanism 108 act as a security apparatus engaging portion of the release mechanism 108.

(80) As illustrated in FIGS. 44 and 45, the release mechanism 108 is then moved forward, under the door 400 and through the slot 800 until the first and second portions 264, 266 of the release mechanism 108 are positioned proximate to the door 400 (see FIG. 44), and until the fourth and fifth portions 270, 272 of the release mechanism 108 are positioned further into the classroom 500 than is the security apparatus 102 (see FIG. 45).

(81) As illustrated in FIGS. 46 and 47, the release mechanism 108 is then moved to the left until the third portion 268 of the release mechanism 108 abuts against one or both of the leftmost pin 112 of the security apparatus 102 and the head portion 192 of the leftmost sleeve 104 (when viewed from the classroom 500, as shown in FIG. 47).

(82) As illustrated in FIGS. 48 and 49, the release mechanism 108 is then moved back toward the individual in the hallway 600 until a portion of the fifth portion 272 of the release mechanism 108, including at least the free end 276 thereof, is positioned within the channel 188 of the security apparatus 102, between the bottom portion 148 of the main plate 110 and the support plate 114.

(83) As illustrated in FIGS. 50 and 51, the release mechanism 108 is then rotated to the right (when viewed from the hallway 600, as shown in FIG. 50) by the individual in the hallway 600 so that the second portion 266 of the release mechanism 108 comes to a position where it is substantially perpendicular to the floor 700 (see FIG. 50). This rotational movement of the release mechanism 108 also causes the fourth and fifth portions 270, 272 of the release mechanism 108 to likewise rotate. As a portion of the fifth portion 272 is positioned in the channel 188 between the bottom portion 148 of the main plate 110 and the support plate 114, the fifth portion 272 engages the support plate 114 to lift the security apparatus 102 upward, thereby lifting the pins 112 out of the sleeves 104. As the fifth portion 272 lifts the security apparatus 102, the fifth portion 272 slides to the left within the channel 188 (as viewed in FIG. 51).

(84) As illustrated in FIGS. 52 and 53, continued rotation of the release mechanism to the right (as viewed from the hallway 600, as shown in FIG. 52) causes the first portion 264 of the release mechanism 108 to be positioned in a generally parallel positioned relative to, but offset from, the floor 700. Such continued rotation causes the fourth portion 270 of the release mechanism 108 to come to a position which is substantially perpendicular to the floor 700, and causes the fifth portion 272 of the release mechanism 108 to further slide to the left in the channel 188 (as viewed from the classroom 500, as shown in FIG. 53), thereby unanchoring the pins 112 from the sleeves 104 and moving the security apparatus 102 within the slot 800 to the left, such that the pins 112 arc no longer aligned with the sleeves 104 (as viewed from the classroom 500, as shown in FIG. 53). The strap plate 208 is preferably positioned at a height above the door 400 so as not to interfere with the rotational movements of the release mechanism 108.

(85) As illustrated in FIG. 54, once the security apparatus 102 is unanchored from the floor 700 and the pins 112 are moved out of alignment with the sleeves 104, the release mechanism 108 can be moved forwardly by the individual in the hallway 600 so as to disengage the fifth portion 272 of the release mechanism 108 from within the channel 188 of the security apparatus 102. The domed portions 164 of the pins 112 of the security apparatus 102 will then rest on the floor 700, but the security apparatus 102 will be maintained in a standing position as it will remain captured within the slot 800 between the door 400 and the strap plate 208. The release mechanism 108 can then be pulled by the individual in the hallway 600 so that the release mechanism 108 moves between the pins 112 of the security apparatus 102 and through the slot 410 between the door 400 and the floor 700. As the security apparatus 102 is no longer anchored in the floor 700, the door 400 can then be opened into the hallway 600.

(86) It is to be understood that the release mechanism 108 of the door security system 100 could also be utilized to unanchor the security apparatus 102 from the floor 700 when the security apparatus 102 is preventing the opening of door 300 into the classroom 500. The manner in which the release mechanism 108 would unanchor the security apparatus 102 in relation to door 300 would be identical to that in relation to door 400.

(87) Thus, it is to be understood that the security apparatus 102 of the door security system 100 can be anchored within the sleeves 104 positioned in the floor 700 (and in the slot 800 in the case of an outwardly opening door 400) in both a quick and easy manner, even by a small child, in the event where one or more unauthorized individuals has entered the facility in which the room 500 is provided, e.g., in the event of a lockdown or emergency in a school. The door security system 100 thus does not require the use of keys or alarms, or the execution of complicated procedures—the security apparatus 102 can just be dropped into place to lock the door 300, 400. From within the room 500, the security apparatus 102 can be quickly and easily unanchored from the floor 700 by simply pulling upward on the security apparatus 102. Conversely, from outside of the room 500, the security apparatus 102 can also be quickly and easily unanchored from the floor 700 through quick use of the release mechanism 108.

(88) It is to be recognized that the door security system 100 is suitable for use in a number of different environments, including schools, offices and residences. With regard to schools and offices, these environments are typically subject to jurisdictional fire codes. While fire codes vary from jurisdiction to jurisdiction, unlike many other types of door security systems, the door security system 100 of the present invention has been found to comply with a number of different jurisdictional fire codes as the door security system 100 can be disengaged and removed from outside the room 500 in which it is installed.

(89) The door security system 100 also provides significant strength improvements as compared to other prior art door security systems. As stated, the pins 112 are preferably formed of solid steel and are each designed to provide 8,000 pounds per square inch (“PSI”) of tensile strength. Thus, each security apparatus 102, which has two pins 112, provides 16,000 PSI of tensile strength toward the prevention of the door 300, 400 being opened.

(90) Furthermore, the door security system 100 when not in use (e.g., with only the sleeves 104 and attachment assembly 106 in place), poses no tripping or other hazards,

(91) The door security system 100 may also lead to lower insurance premiums for environments where the door security system 100 is installed/utilized.

(92) While not presently illustrated, if desired, the sleeves 104 could be outfitted with some type of cover so as to prevent dirt or other objects from falling into the apertures 206 of the sleeves 104. The covers could be of a removable/reinstallable type, or the covers could be provided in a manner where, if the security apparatus 102 is to be used, the pins 112 of the security apparatus 102 could essentially puncture through the covers, with the covers “breaking away”, thereby allowing the pins 112 to move into their desired position within the apertures 206 of the sleeves 104.

(93) The use of the terms “a” and “an” and “the” and similar referents in the context of describing the invention (especially in the context of the following claims) are to be construed to cover both the singular and the plural, unless otherwise indicated herein or clearly contradicted by context. Recitation of ranges of values herein are merely intended to serve as a shorthand method of referring individually to each separate value falling within the range, unless otherwise indicated herein, and each separate value is incorporated into the specification as if it were individually recited herein. All methods described herein can be performed in any suitable order unless otherwise indicated herein or otherwise clearly contradicted by context. The use of any and all examples, or exemplary language (e.g., “such as”) provided herein, is intended merely to better illuminate the disclosed embodiments of the invention and does not pose a limitation on the scope of the invention unless otherwise claimed. No language in the specification should be construed as indicating any non-claimed element as essential to the practice of the invention. It is further to be understood that the drawings are not necessarily drawn to scale.

(94) Preferred embodiments of this invention are described herein, including e best mode known to the inventor for carrying out the invention. It should be understood that the illustrated embodiments are exemplary only, and should not be taken as limiting the scope of the invention.