PAVER LOCKDOWN SYSTEMS AGAINST WIND UPLIFT THAT WORK WITH REGULAR PEDESTALS

Abstract

The present disclosure provides a paver lockdown system that prevents strong wind from uplifting pavers from pedestals installed on rooftops.

Claims

1. An apparatus for locking down pavers to pedestals to prevent pavers from being lifted by wind, and for allowing pavers to be easily removed from the pedestal when necessary, comprising: a. a paver and a solid sheet that is glued to the back of the paver, where the solid sheet has at least two tabs on edges of the solid sheet, and said tabs extend beyond the edges of the pavers; b. one mechanism for each tab, where the mechanism is attached to a pedestal, or is built as a part of a pedestal, and where the mechanism has a screw hole to allow the tab to be screwed down by a screw, or the mechanism has a part that can be moved to a position on top of the tab in order to lock down the tab or can be moved away from the tab in order to unlock the tab.

2. The apparatus according to the claim 1, wherein the mechanism is a lock which consists of a lock body that is attached to the pedestal, and a sliding bolt that can be moved to the position on top of the tab in order to lock down the solid sheet or can be moved away from the tab in order to unlock the solid sheet.

3. The apparatus according to the claim 1, wherein the mechanism consists of: a modified spacer disk, which has slots that allow a sliding spacer to move back and forth; at least one sliding spacer, which consists of a base that is wider than the width of the slots and stays beneath the modified spacer disk, and a latch attached to the base. The latch can be moved to the position on top of the tab in order to lock down the solid sheet or can be moved away from the tab in order to unlock the solid sheet.

4. The apparatus according to the claim 1, wherein the solid sheet is galvanized steel sheet.

5. The apparatus according to the claim 1, wherein the solid sheet is a stainless steel sheet.

6. The apparatus according to the claim 1, wherein the solid sheet is a plastic grid.

7. The apparatus according to the claim 1, wherein the mechanism contains the screw hole, and the tab has a hole or an opening that allow a screw to go through the hole or the opening and go into the screw hole to secure the tab onto the pedestal.

8. The apparatus according to the claim 7, wherein the solid sheet is a galvanized steel sheet.

9. The apparatus according to the claim 7, wherein the solid sheet is a stainless steel sheet.

10. The apparatus according to the claim 7, wherein the solid sheet is a plastic grid.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 is a galvanized steel sheet with four tabs.

[0014] FIG. 2 shows that the galvanized steel sheet is glued to the back of a paver.

[0015] FIG. 3 is a plastic pedestal.

[0016] FIG. 4 shows four galvanized steel sheets, each with four tabs, placed on top of nine plastic pedestals.

[0017] FIG. 5 shows four galvanized steel sheets, each with four tables, with four pavers glued to these four sheets, which are then placed on top of nine plastic pedestals.

[0018] FIG. 6 is a metal lock assembly.

[0019] FIG. 7 shows the metal lock assembly glued into a hole on the pedestal head.

[0020] FIG. 8 shows the metal lock next to a tab of a galvanized steel sheet and the sliding bolt away from the tab.

[0021] FIG. 9 shows the metal lock next to a tab of a galvanized steel sheet, a paver glued to the galvanized steel sheet, and the sliding bolt on top of the tab.

[0022] FIG. 10 shows that a screw driver can be used to push the sliding bolt away from the tab to unlock it, or to push the sliding bolt to the position above the tab to lock it.

[0023] FIG. 11 shows a sliding spacer that can be used to lock or unlock the tab.

[0024] FIG. 12 shows the sliding spacer locking the tab.

[0025] FIG. 13 shows a screw being used to lock the tab.

[0026] FIG. 14 shows an alternative way to arrange the position of the four tabs on the galvanized steel sheet.

[0027] FIG. 15 shows how the galvanized steel sheets should be arranged during installation if the alternative arrangement of tab positions is used.

[0028] FIG. 16 shows that instead of four tabs, two tabs can be used.

DETAILED DESCRIPTION OF THE INVENTION

[0029] The exemplary embodiments set forth below represent the information needed to enable those skilled in the art to practice the disclosure and illustrate the best mode of practicing the disclosure. Upon reading the following description in light of the accompanying drawings, those skilled in the art will understand the concepts of the disclosure and will recognize applications of these concepts not explicitly addressed herein. It should be understood that these concepts and applications fall within the scope of the disclosure and the accompanying claims.

[0030] In the present disclosure, three exemplary embodiments are provided. In all the three exemplary embodiments, a 1.2 mm thick rectangular (or square, depending on the shape of the paver) shaped galvanized steel sheet 1-1 is used, and the sheet has four tabs 1-2, as shown in FIG. 1. The sheet is 2-3 mm smaller than the paver on each side, which makes it easier to both glue the sheet to the back of the paver without getting excessive glue onto the side of the paver, and to use glue to cover the edges of the galvanized steel sheet to prevent the edges from rusting. Applying glue to the edges of the sheet is especially important when large galvanized steel sheets are cut into smaller sheets that fit the back of the paver, as the edges exposed by cutting are not protected by a galvanized layer. FIG. 2 shows a galvanized steel sheet glued to the back of a paver 2-1. Each tab 1-2 should stick out from the edge of the paver by 4 mm (assuming that the open space between pavers is 5/16=5 mm). Pavers with galvanized steel sheets glued on the back are then installed on top of the plastic pedestal showing in FIG. 3. FIG. 4 shows the positions of each galvanized steel sheet on the pedestals. According to the FIG. 4, if a sheet is laid with two tabs on the top and two tabs on the bottom, then all the sheets next to it should have two tabs on the left and two tabs on the right. FIG. 5 shows that pavers are on top of the galvanized steel sheets with tabs sticking out of the edges of the pavers.

[0031] In the first exemplary embodiment, a metal lock is provided, as shown in FIG. 6. The metal lock assembly includes a lock body 6-2 which includes a lock base 6-3. The lock base fits into the hole 3-3 in a plastic pedestal. The metal lock assembly also includes a sliding bolt 6-1. FIG. 7 shows how the sliding bolt 6-1 fits into the lock body 6-2. The lock base 6-3 has been glued into the hole 3-3 in FIG. 7. Note that the sliding bolt will not fall off the lock body since the sliding bolt and the lock body will be in the tight open space between two pavers.

[0032] One alternative for the lock base is to make it longer with threads 7-1 on the bottom half of the lock base. Once the lock base is place into the hole 3-3, a large nut 7-2 can be tighten onto the threads 7-1 from the bottom side of the hole 3-3. This alternative is more secure than gluing the lock base to the hole 3-3. But gluing the lock base to the hole 3-3 is easier and requires less labor.

[0033] Some plastic pedestals do not have holes on the head 3-1. In that case, the metal lock can be made without lock base 6-3, and can be glued onto the surface of the head 3-1 directly. Please also note that one can make a head 3-1 that already comes with a plastic lock body 6-2 and a plastic sliding bolt 6-1.

[0034] FIG. 8 shows a lock body 6-2 next to a tab 1-2, with the sliding bolt 6-1 away from tab. This is called an unlock position since the sliding bolt is not on top of the tab to lock it down. FIG. 9 shows that a paver has already been glued to the galvanized steel sheet, and the sliding bolt 6-1 is on top of the tab 1-2. This is called a lock position, because the sliding bolt on top of the tab locks down the tab in place, preventing the paver from being lifted from the pedestal. FIG. 10 shows that a screw driver 10-1 can be used to go into the open space 10-2 to push the sliding bolt 6-1 into a lock position or unlock position.

[0035] Note that once pedestals are glued to the roof top and all the sliding bolts are in lock position, the pavers cannot be removed from the pedestals, which then prevents strong winds from uplifting the pavers. If any paver needs to be removed to repair the wires or pipes below the pavers, a repair person can easily use a screw driver to push all the four sliding bolts that are locking the four tabs of this paver to the unlock position, which allows the paver to be easily lifted up from the pedestals.

[0036] In the second exemplary embodiment as shown in FIG. 11, a modified spacer disk 11-1 and a modified head 11-6 are provided. The modified spacer disk 11-1 can be obtained by taking a regular spacer disk 3-4 and pulling the four spacers 3-5 off from the disk. Note that most of the spacers are designed so that they can be easily pulled off. This feature is useful in the event that the pedestal is used along the edges of the paver installation, or in case that installers want to place pedestals underneath the center of pavers for added safety. When a spacer is pulled off, it leaves a rectangular slot 11-2, which is called a spacer slot. A sliding spacer 11-3 is provided, which consists of a latch 11-5 that looks like an upside down L, and a flat base 11-4, which is called a sliding spacer base. The sliding spacers are assembled to the spacer disk by putting the latch 11-5 through the spacer slot 11-2 from the bottom of the modified spacer disk 11-1. The modified spacer disk with the sliding spacers assembled is placed into the basin 11-7 of the modified head 11-6, and the center cylinder 11-8 is glued to the basin 11-7. The sliding spacer base 11-4 must be wider than the width of the spacer slot 11-2 so the sliding spacer 11-3 cannot not be pulled away from the pedestal from above. Note that the modified head 11-6 is modified to have a basin 11-7 that is deep enough, so that even with the sliding spacer base 11-4 added to the bottom of the modified spacer disk 11-1, the top surface of the modified spacer disk 11-1 is still lower than the top surface 11-9 of the modified head 11-6. This ensures that the weight of the pavers is placed on the top surface 11-9 of the modified head 11-6, not on the top surface of the spacer disk 11-1. Otherwise, if the weight of the pavers is placed on the top surface of the spacer disk 11-1, it will push down on the sliding spacer base and make it impossible for the sliding spacer to move.

[0037] FIG. 12 shows that the latch 11-5 is moved onto the top of the tab 1-2, and locks down the galvanized steel sheet 1-1. Note that latch 11-5 is inside the open space 10-2 between two pavers. A screw driver can be used to move the latch to lock or unlock the galvanized steel sheet.

[0038] In the third exemplary embodiment as shown on FIG. 13, a nut 13-1 which fits the existing hole 3-3 on the pedestal head is provided. The nut has a screw hole in the center. A hole in the center of the tab 1-2 is provided so a screw 13-2 can be used to secure the tab to the nut 13-1. Note that the hole in the center of the tab 1-2 can be made into an oval shape that is much larger than the diameter of the screw for easy installation. A washer can be used the cover this large oval hole if it is needed. The screw 13-2 locks the tab in place which prevents the paver glued to the galvanized steel sheet 1-1 from being removed. The screw 13-2 is hidden in the open space 10-2 between two pavers and can be accessed with a screw driver. The nut 13-1 is glued into the hole 3-3.

[0039] Alternatively, the nut 13-1 can be modified into 13-3, which has threads 13-4 on the bottom. Another larger nut 13-5 is tighten onto the threads 13-4 from the bottom side of the hole 3-3. Using the bolt 13-3 and the large nut 13-5 eliminates the need for glue and is more secure. But using bolt 13-1 with glue is easier for installation.

[0040] Each of the exemplary embodiment described above is only one possible exemplary embodiment. Other embodiments can be derived from the exemplary embodiments described. For example, stainless steel sheets or plastic grids can be used to replace the galvanized steel sheet.

[0041] The four tabs on the galvanized steel sheet can be arranged differently from the arrangement in FIG. 1. An example of a different arrangement is shown on FIG. 14 and FIG. 15.

[0042] Additionally, instead of having four tabs on each galvanized steel sheet, having two tabs on each sheet located in diagonally opposite positions would also allow the galvanized steel sheet to be secured on the pedestals. See FIG. 16.

[0043] Gluing 1.2 mm galvanized steel sheet to the back of the paver not only provides a way to lock down the paver to pedestals to prevent wind from uplifting the paver, but also provides additional safety. Tests showed that even when the paver is broken, the galvanized steel sheet is strong enough for a person to stand on the broken paver without falling down from pedestals. 1.5 mm thick perforated galvanized steel sheet was also tested. Again, with the perforated galvanized steel sheet glued to the back of the paver, and after the paver is broken by a hammer, a person can still safely stand on top of the broken paver that sits on top of four pedestals.

[0044] If a user feels that the added safety of gluing a large galvanized steel sheet to the back of the paver is not needed, four smaller pieces of galvanized steel sheet, each with a tab, can be glued to four corners of the paver. For example, with a 2424 paver, four 22 galvanized steel sheets, each with one tab, can be glued to the back of the paver with the tabs sticking out of the edges of the pavers by 4 mm.

[0045] Although no detailed mechanical drawings or detailed assembly instructions are given in the above description, the apparatus described above is clear enough, and a person skilled in the field should be able to design and manufacture the apparatus according to the description.