Abstract:
A manual and tool adjustable, reusable tree bracing assembly to support a tree in a substantially vertical position, being specifically structured to allow mounting and removal of the assembly about a tree trunk by a single worker wherein the assembly comprises padded support members movably positionable at spaced apart locations from one another about the circumference of a tree trunk along a length of two adjustable straps and further including at least three brace members and at least three padded support members accommodating the straps wherein one support member is adjustably configured to provide virtually non-slip strap attachment with lock-down option and wherein the distal end of each brace member engages a base member removably fixed to the ground or to a tree grate substantially adjacent the tree trunk and the proximal end of each support member is disposed in abutting engagement with the outer surface of the grooved, padded support members so as to exert a supportive, bracing force on the tree trunk yet reduce or eliminate the possibility of moisture accumulation, mildew, scarring and erosion of the exterior surface of the tree trunk.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     This invention relates to a tree bracing assembly and method for supporting a tree in a substantially vertical position such as with a young tree or newly planted tree which requires stabilization. 
     2. Description of the Related Art 
     Bracing of trees is well known, and is generally accomplished by using several stakes pounded into the ground at a distance from and around the periphery of the base of the tree, generally using a series of ropes, flexible lines, wood, guy wires, or the like which are connected to the tree&#39;s trunk or limbs at a point spaced above the ground and extended downwardly and outwardly in an inclined angular direction for adjustable attachment to a ground inserted stake. While these arrangements function fairly well the installation of the anchoring devices or tie downs is time consuming as the length of the lines, guy wires, or supports must be adjusted or assembled together while they are being attached to the ground anchor often requiring more than one laborer and multiple tools. These systems may also entail wrapping the circumference of a tree trunk segment with a protective material, such as burlap, in an attempt to protect the tree trunk from scarring at the point where the anchoring component encircles the tree trunk. It is not uncommon for such tree bracing construction and wrapping to take 30 minutes or more per tree and to require more than one laborer, particularly with larger trees. 
     Wooden blocks engaging the tree trunk which are spatially positioned about the wrapped tree trunk segment and in overlying relation to the protective covering surrounding the trunk segment have also been used with one or more metal bands which are then positioned to surround all of the aforementioned trunk engaging members through frictional engagement or fixed attachment to an outer surface thereof. The metal bands are thereby forced into in confronting engagement with each of the trunk engaging members so as to substantially fix their positions relative to the tree trunk. A supportive force is applied to the tree at the points of engagement of the trunk engaging members by the application of an elongated board or like structure which fixedly attaches, such as by nailing, the bracing boards directly to the trunk engaging blocks. Other types of fixed engagement of the corresponding ends of the bracing members are also utilized. 
     U.S. Pat. No. 4,520,590 to Schuh discloses a circular, staked ground mounted base spaced from the tree, a pair of opposing brace members having a pair of upwardly extending legs and a rubber tubing cushioned collar of a width so as to not place it in direct and constant contact with the trunk. The collar width provides substantial space between collar and tree trunk and permits movement of the tree trunk within thereby decreasing the stability of the upright support and creating the potential for a less than vertical tree anchoring. It is also thought that the pair of brace members each with a parallel pair of upward leg extensions is not as stable to outside forces, e.g. wind and debris due to its parallel planar arrangement not being as able to withstand forces perpendicular thereto. Other collar like devices such as the adjustable, padded trunk holding ring and tree stakes in U.S. Pat. No. 4,848,027 to Skierwiderski, U.S. Pat. No. 5,199,214 to Caldwell, U.S. Pat. No. 4,462,622 to Ten Pas and a hinged foam-lined collar in U.S. Pat. No. 5,402,600 to Tompkins have also been used to support young trees. Hooks and rings attached to stakes to support trees have also been described such as in U.S. Pat. No. 4,649,666 to Ness and U.S. Pat. No. 5,129,179 to Kronmiller. 
     Design U.S. Pat. Nos. 310,769, and 310,948 to Jensen, disclose double and single clamp tree braces respectively, which are structurally dissimilar to the present invention, however, depict an apparent disadvantage of not providing support to the tree in all planes thereby subjecting the tree to instability and movement in the direction which is substantially perpendicular to the plane created by the ground support(s). These patents and others such as U.S. Pat. No. 4,318,246 to Jungbluth and U.S. Pat. No. 4,319,428 to Fox reveal configurations of strap-like anchoring in direct contact with the tree trunk which has been known to cause damage to the exterior surface of the tree trunk. 
     U.S. Pat. No. 5,950,359 to Pivnik describes a tree staking system with a plurality of padded support members movably positioned and spaced apart along the length of an attachment assembly about the circumference of a tree and including an equal number of brace members disposed in abutting engagement with the support members so as to exert a supportive, bracing force on tree trunk. Although the Pivnik system protects the tree trunk from scarring and can be mounted by a single laborer, its means for tightening the support members against the tree trunk is restricted to and limited by the amount of manual pulling, pushing and gripping strength of the laborer on narrow cable-like ties and has narrow strap gripping area as well. Also, heavy wood pieces and nails remain necessary to adequately secure the bracing members to the support members which makes transporting the assembly unwieldy for one laborer and time consuming to assemble and disassemble. 
     A more primitive variety of tree brace arrangement has been frequently used over the years and consists merely of nailed 2×4 type boards for bracing against the ground and the support members with metal bands wrapped around the wooden block support members placed against the tree. This is a relatively inexpensive assembly which adequately functions, however, due to high labor costs there is no motivation to disassemble it and remove the parts when the need for support no longer exists. This leaves unsightly support assemblies in place, often years after tree stabilizing has been accomplished. 
     Although a variety of tree bracing systems exist, disadvantages abound. For instance, thin guy wires or ropes pose a physical danger to people and animals because the wires and ropes are difficult to see and can easily be unknowingly and dangerously encountered. Single use application systems, full on site assembly, and multiple laborers and tools required for proper installation make many systems expensive. Failure to disassemble and remove the supports when support is no longer necessary is unsightly and polluting to the environment and time consuming to install. Physical injury to the tree arises many times from stiff straps or metal bands in firm direct contact with the trunk. Also encountered has been physical injury to the laborers during installation of the tree brace assemblies using metal bands when the band breaks, slips or grip is lost, the metal bands have been known to flip back impacting and injuring the worker. Single, double, or only planar staking creates stability problems when a destabilizing force e.g. wind, is imposed against the tree from a plane perpendicular to the staking. Loss of stability also occurs due to a “push-pull” effect on the fastening members, usually nails holding both the ground base arrangement and the arrangement against the tree trunk itself in the prior devices, from wind or other forces against the tree which loosens these fastening members on the side opposite the destabilizing force. Leaning and less than a vertical arrangement may result where direct contact with the tree is not present such as in the spaced collar type devices. The burlap or other material used to cushion the tree trunk is time consuming to install and often allows moisture to accumulate and mildew to form causing an eroded or blemished region on the outer surface of the tree trunk as well as requiring additional time and labor to wrap the tree at the point where the anchoring device contacts the tree. Heavy wood bracing boards prove to be unwieldy requiring full on site assembly which is time consuming and often requires multiple workers. Most Difficulty also arises in anchoring the bracing members to grates that often surround trees particularly in urban areas because the standard staking absent direct contact with the ground cannot function. Another problem is theft of the tree brace assembly, which is encountered particularly in high traffic public areas e.g. medians, schools, public parks and government buildings. 
     Accordingly, there is a need for a tree bracing system which is self-contained, substantially pre-assembled, reusable, easy to transport and install by a single worker without a large amount of tools and equipment, reduces the possibility of blemishing or marring of the exterior surface of the tree trunk, is lockably secured, is adjustable to varying tree sizes, is installable and removable by a single worker, provides maximum stability in all directions without loosening of fastening members, is usable with tree grates, and includes structural components which are physically less injurious. 
     SUMMARY OF THE INVENTION 
     The present invention is directed towards a tree bracing system designed to support and maintain a tree in a substantially vertical position. Such supportive bracing is normally required for trees during the replanting process and usually continues until the roots are solidly implanted in the ground. More specifically, the preferred embodiment of the subject tree bracing assembly comprises at least three padded support members. Two adjustable, soft, durable, flexible straps are used to removably but securely position the support members in spaced relation to one another circumferentially about the trunk of the tree being supported. The two substantially parallel spaced-apart straps, are preferably formed of a high strength, flexible and durable material such as nylon or polyester, capable of being held in place by two flexible pressure-sensitive brackets each with a serrated edge gripping the straps and pressing said straps against the serrated edge to prohibit loosening or slippage of the straps within the support members. The straps pass through open-ended, elongated channels which extend through each of the support members and allow sliding movement of the support members along the length of the straps. Further, structurally, along one side and integrally connected within only one of the support members i.e., the strap adjusting support member, are vertically spaced extensions with center cut openings of a size and shape capable of accommodating a tool from either end, for use in tightening, i.e. decreasing the circumference, of the straps once the support members and straps are positioned as desired in first a loose planar frictional engagement around the girth of the tree trunk. The tool tightening action generated at the strap adjusting support member provides the ability to individually tighten each strap. The bottom portion of the channel located proximal to the vertically spaced extension in the adjustable support member creates a lipped serrated edge which cooperately operates with the serrated edge on the pressure sensitive strap retaining member to place a slight bend in the strap, providing dual action gripping of the strap and prohibiting slippage of the strap within the channel. As the slotted tool engages one strap at a time in the slot and is rotated, the circumference of the strap is decreased and strap is tightened, forcing the support members into firm frictional engagement with the tree trunk, the force being dispersed over the entire surface of each padded support member. The pad of the support member is preferably arcuate in overall structure although it functions in a planar form as well, as it engages the tree trunk and is preferably vertically grooved, substantially perpendicular to the ground which allows a flow of water and air within the grooves which prevents or reduces the likelihood of mildew forming such as what occurs when burlap or other material is used for protection as with other devices. In one embodiment release of the strap retaining member is accomplished by manually pulling a lever or arm-like protrusion in the direction of the fasteners fixating the strap retaining member to the support member thereby disembedding the serrations and allowing strap to be straightened and moved slidably through the channels in the support members. In addition, because the tree bracing assembly does not require a large area of contact of the support member with the tree trunk to function properly, a majority of the exterior trunk surface remains uncovered, freely exposed to needed air and water. As such only a minimal area of the tree trunk is covered and even that area is has a ventilating channeled pad. 
     In order to apply the proper bracing force to the tree trunk, preferably at spaced apart locations about the circumference of the tree trunk, a brace assembly is provided in the form of at least three elongated, rigid brace members each cooperatively engaging one of an equal number of support members. The brace members may be any elongated shape, and in one solid part or two or more parts adjustably fixated to variable lengths in a telescoping arrangement one part within other to create optional lengthening of the brace members for use with a variety of height of trees. Each of the brace members comprises a proximal end disposed in force transferring pivotal engagement with the outer surface of each support member and a distal end pivotally engaging a base member bracket fixedly attached to the upper surface of a base member which is fixed to the ground by one or more stakes passing through at least one opening in the base member and said base member, as assembled, being situated at a lateral distance from but around the periphery of the tree to be supported. A “J” bolt and nut, or the like, may also be used to anchor the base member to a tree grate surrounding the base of the tree, with the looped end of the “J” slipping under and engaging one of the slats in the grate while the vertical stem of the “J” passes up through the one or more openings in the base member being then tightly secured by tightening a nut thereto which lies adjacent to and overlapping the base member opening(s). 
     The support members are cooperatively structured and configured as to receive and retain the proximal end of one if of the brace members. The support members and base member brackets are secured to the elongated rigid brace members by a fastener, e.g. wing-nut and bolt or the like for easy hand manipulated installation and adjustment without the need for extra types of tools such as a wrench, pliers, or hammer and nails, or any additional laborers. The brace members in addition to being physically visible due to size may be painted or wrapped with reflective tape or florescent colors to enhance visibility and thereby diminish the likelihood of physical injury to humans and animals. 
     Therefore, it is an object of the present invention to provide a self-contained, substantially pre-assembled, reusable adjustable tree bracing system designed to support a tree in a substantially upright predetermined position, which is easily transported, mounted, and tightened into bracing position and removable by a single worker. 
     Another object of the present invention is to provide a tree bracing system which supplies and maintains adequate bracing or supporting forces circumferentially to the trunk portion of a tree without scarring, blemishing or otherwise damaging the exterior surface of the tree trunk at the points where the supportive forces are applied. 
     Yet another object of the present invention is to provide a tree bracing system comprising trunk engaging support members each of which accommodates a single bracing member which is easily and efficiently positionable at and removable from a variety of locations and angles about the circumference of a variety of sized tree trunks so as to create maximum stability. 
     Still another object of the present invention is to provide enhanced visibility and safety from physical injury to humans and animals. 
     Another object of the present invention is to provide a lock down tree bracing assembly to minimize theft of and vandalism to the assembly. 
     Yet another object of the present invention is to provide a tree bracing system which can easily be secured to and removed from tree grates. 
     Another object is to provide a tree bracing assembly which does not loosen over time when destabilizing forces are applied in a variety of directions. 
     These and other objects, features and advantages of the present invention will become more clear when the drawings as well as the detailed description are taken into consideration. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a perspective view of the present invention in operation on the ground supporting a tree. 
     FIG. 2 shows a top plan cross-sectional view of a non-strap adjusting support member through  8 — 8  in FIG.  4 . 
     FIG. 3 is a top plan view of one embodiment showing one adjustable support member, and telescoping brace member. 
     FIG. 4 is a side elevational view of the present invention showing brace members of indeterminate length and strap adjusting tool in place within the top opening in the strap adjusting channel of the adjustable support member. 
     FIG. 5 is a rotated side elevational view of the strap adjusting support member and strap adjusting channel in accordance with the present invention. 
     FIG. 6A is a side view of the strap adjusting tool. 
     FIG. 6B is an end side view of the strap adjusting tool. 
     FIG. 7 is a lateral side view of a support member without the strap adjusting tool channel or strap retaining bracket. 
     FIG. 8 shows a top plan cross-sectional view of the strap adjusting support member through  8 — 8  of FIG.  4 . 
     FIG. 8A is a top plan cross-sectional view of the grooved protective pad in enlarged detail of designated area of FIG.  8 . 
     FIG. 9A is a bottom edge side view of the strap retaining member with C-shaped arm. 
     FIG. 9B is a top view of the strap retaining member. 
     FIG. 10 is a longitudinal side view of a strap adjusting projections and strap retaining member. 
     FIG. 11 is a longitudinal side view of the strap adjusting support member with strap retaining member removed. 
     FIG. 12 is a perspective view of the present invention in operation with a tree grate supporting a tree. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     Referring now to the drawings, and in particular FIG. 1, the present invention is shown generally at  20  including at least three brace members  21  and at least three (equal number of) support members  22  disposed in confronting engagement with the exterior of tree trunk  33 . At least three support members and an equal number of brace members is preferred as such arrangement creates a stable geometric plane of support, unlike what exists when only one or two brace members is used. A greater number of brace members can be used to apply additional supportive force at spaced locations on the ground  36  about the circumference of the tree trunk  33  to maintain the tree in substantially vertical position so long as the number of support members equals the number of brace members. Although the brace members as shown are equally spaced away from the tree and about the circumference of the tree such equal spacing and distance is not mandatory and may be altered depending for example, on the exact angle desired for the tree and space available for foothold of the brace members  21 . Through all but one of the support members  22  run at least a first pair and second pair of laterally and vertically disposed open-ended parallel channels  30 , through each lateral pair runs one of two flexible straps  23  intended to be disposed in closed loop configuration about the tree trunk, allowing the support members  22  to slide along the strap in adjustable confronting engagement with the exterior of the tree trunk  33 . Through one support member, referred to as the strap adjustable support member, runs a third pair and fourth pair of open-ended channels  30  positioned beneath the first pair and adjacent the second pair of open ended channels through which the flexible strap is threaded creating the closed loop strap arrangement. 
     The preferred sliding movement of the support members  22  along the length of each of the soft, flexible straps  23  is facilitated by passage of the straps  23  through open ended channels  30  spaced at the opposite ends of the support members  22 . Each channel  30  is specifically dimensioned and configured so as to allow sliding movement of the support members  22  along the length of the straps  23 . This sliding movement facilitates a single person positioning the support members about the exterior of the tree trunk  33  at predetermined locations after merely reaching around and securing the straps  23  about the trunk of the tree. The soft yet durable texture and flexibility of the straps minimizes damage to the tree trunk if and when the straps are in direct contact therewith. 
     Another important feature of the present invention as shown in FIGS. 2,  8 , and  8 A is the provision of a protective portion  31  on the inner surface of each of the support members  22 . Such protective portion is in the form of a water resistant, resilient, cushion-like pad  31 , such as rubber, which is disposed so as to confrontingly engage the exterior surface of the tree trunk  33  at locations where each of the support members  22  are operatively positioned. The protective pads  31  are preferably at least slightly arcuate in structure to conform reasonably to the curve of the tree trunk. Grooves  72  on pad  31  run vertically and substantially parallel to the tree trunk to allow water and air to pass between the tree trunk  33  and the pad  31 . Pads  31  are structured to prevent or eliminate scaring or blemishing of the exterior surface of the tree trunk  33  even though a significant bracing or supportive force is transferred to the tree trunk  33  at the locations of the support members. 
     At least three brace members  21  are further provided to engage the outer surface  24  of each of the support members  22 . With reference to FIGS. 1 and 4, each of the brace members  21  has a proximal end  40  disposed to engage and be retained by the outer surface of each of the support members  22  using a fastener, such as an eye bolt  29  and wing nut  32  to create an adjustable, tightenable, rotatable, and pivotal, positioning of the brace member  21 . The bolt  29  and nut  32  fastener withstands the “push-pull” loosening effect at both ends of the brace member and thereby provides a more stable bracing assembly, particularly over extended periods of time. Each of the brace members are operatively positioned in an angular orientation such that the opposite or distal end of each of the brace members  42  is preferably pivotally engaging a retaining bracket  54  fixed to the top surface  50  of base number  26  which is disposed in penetrating relation to the ground  36  using a fastening member preferably a stake  44 , driven through opening  38  in base member  26  with the bottom surface  52  of base member  26  being firmly a fixed to ground  36  as seen best in FIGS. 3 and 4. FIG. 12 shows another embodiment of the present invention in conjunction with a tree grate  76  surrounding the base of the tree trunk  33  which is often used in inner city planting with the base member  26  anchored to slat  74  of the tree grate  76  using a standard type “J” bolt  78  and nut fastener which loops under the slat  74  and the nut tightened to provide firm frictional engagement of the “J” with the slat thereby securing the base member to the tree grate. It should be apparent that these operative positionings provide the aforementioned supportive force to each of the support members  22  and accordingly to the tree trunk  33 . 
     Strap retaining members  25  are fixedly attached to the lateral portion of the one adjustable support member as seen in FIGS. 4 and 5 each having one serrated edge  58  which grips and secures the flexible straps  23  preventing slippage. The strap retaining member may be fixed to the support member  22  using one or more fasteners, such as bolts  56  but preferably two per strap retaining member, as shown in FIG. 5, which creates a hinged pressure point which aids the serrated edge  58  in gripping the straps  23  due to the natural downward pressure created by the bolted edge of the strap retaining member against the support member  22 . Each of these strap retaining members  25  cooperates with the opposite ends  48  of each strap  23  so as to allow passage of the end  48  through the strap retaining member  25  and facilitate the tightening of each of the straps in a fixed position about the trunk  33  so as to fixedly but removably maintain the support members in their operative, force transferring position as best shown in FIGS. 2 and 4. The strap retaining members  25  may be additionally structured so as to allow release of the ends  48  of the straps  23  as well as a portion of the length thereof engaged by the strap retaining members  25 , thereby permitting further adjustment and/or re-use thereof. The opposite end  46  of strap  23  is folded back over and stitched, glued or otherwise attached to itself to create a thickness on the strap which will not pass through the strap channels  30  and will serve as a connector portion of the strap to the support member at time of fastening and tightening to restrict the strap from sliding completely through the channel. The strap retaining member releasing means  41  as shown in FIGS. 5 and 9A is manually pulled in the direction opposite the support member to lift the strap retaining member from its closed arrangement pressing down upon and gripping the strap, to an opened arrangement releasing the serrated edge  58  from contact with the strap  23  and simultaneously releasing the strap from the curved pressured engagement with the serrated bottom edge  62  of the strap channel  30  which allows the strap  23  to slide in both directions. Such release allows the strap circumference to be made smaller, larger or to completely eliminate the looped arrangement such as at time of removal of the tree brace assembly from around the tree. 
     FIG. 7 shows a non-adjustable support member  22  with vertically positioned channels  30  for the straps  23 , and a fastening means shown, as an eye bolt  29  which will pass through the proximal end of and connect each brace member to a support member. The non-adjustable support members do not have the strap retaining members  25  or strap adjusting projections  59  or center cut openings  35  because only one such adjustable support member is necessary to tighten the tree brace assembly regardless of the number or size of support members and brace members utilized to support the tree, as shown in FIGS. 5 and 8. 
     It should therefore be apparent that the assembly may be easily mounted in its operative position as shown in FIG. 1 by a single worker and just as easily and efficiently be removed therefrom once support or bracing of the tree  33  is no longer required. In particular, a single worker simply extends the straps  23 , with the support members  22  bunched together in orientation about the tree trunk  33 , and secures the strap in place utilizing the strap retaining members  25 . Once loosely secured, the support members  22  are slideably moved about the tree trunk  28  until disposed in a desired position and further strap tightening is performed to establish firm frictional engagement of the support members about the tree. 
     Another embodiment of the present invention relates to the strap retaining member  25  shown in FIG. 9B, particularly useful in areas where vandalism or theft of the support assembly may occur, comprises an opening  60  of a size and shape to accommodate a flat head screwdriver or the flat head end  64  of the strap adjusting tool  37  shown in FIGS. 6A and 6B which is opposite the end  80  of the tool such that twisting tool  37  essentially locks down the strap retaining members  25  into a firm gripping orientation against the straps, pressing the straps into a curved alignment against the serrated lip formed by the bottom serrated edge  62  of the strap channel  30  thereby reducing the likelihood of theft without the proper tools to untighten it. A top plan cross-sectional view of the tree bracing system embodiment shown with the tool adjustable support member is in use about a tree seen in FIG.  8 . The tree bracing system may be constructed with all non-support members, particularly on the smaller versions for homeowner type of use as shown in FIG. 2 or may be constructed with one tool adjustable support member as shown in FIG. 8 having tool adjusting projections  59  embodied in and extending laterally from the support member  22  and forming opening  35  of a size and shape to accommodate the strap adjusting tool  37 , the projections  59  are also shown in FIG.  5 . Lastly, the brace members are spread out in the desired place at the preferred angle for maximum support as determined by the installer, and stake  44  driven into the ground  36  through opening  38  in each the base member  22 . Opening  38  may be positioned to the back or side of the base member bracket as determined by the installer to be of maximum stability. More than one opening  38  may be provided in the base member to accommodate more than one stake to more securely attach the member to the ground. 
     FIG. 3 is a top plan view of one embodiment with a smaller in diameter upper elongated leg  70  of the brace assembly telescoping down into the larger diameter lower elongated leg  68  of the brace member  21 . Although virtually any size diameter and length of tubing may be used for the brace members, depending on need, it is critical to telescoping that the upper portion be smaller in diameter than the lower portion of the brace member to allow it to slide down into the lower and both must be of a diameter and strength to support the tree desired. It is also preferred but not mandatory, that at least one foot of the upper elongated leg  70  remain within the lower elongated leg  68  during telescoping for the maximum utility combination in strength and extension. The range of one half inch (½) to one and one-half inch (½) diameter for the brace members is preferred but other diameters outside these ranges can be used, for tree brace assemblies which telescope as well as those which do not. The preferred length of brace member legs measured from the support member to base member, whether or not telescoped, range from a little over three feet to in excess of nine feet, although lengths outside this range can be used depending on tree height, tree circumference and weight, and soil and environmental conditions, just to name a few. To reduce acquisition and transportation costs particularly on larger trees, wood such as (2×4) two by four boards, or the like may be used as the brace assembly and fastened, such as by bolts to the support members and base members in place of the brace assembly tubing, which is preferably steel, but could also be made of aluminum, high strength plastic or other durable material. If telescoping of the legs is needed the material used should be such that a hollow construction could be achieved so as to accommodate one leg portion sliding into the other. The diameter of base member  26  can also be any desired size, however, it is recommended that in selecting the size that the soil conditions and size of the tree being supported be taken into consideration, recognizing that large trees and soft soil would necessitate a larger circumference of the base member and deeper or multiple staking into the ground. The general, but not exclusive range of base member circumference for most commonly encountered trees is between four inches and one foot. The ground fastening means is preferably a removable stake  28  which can be made from wood, plastic, metal or other durable high-strength material of a diameter preferably, but not exclusively, from one-half inch to one inch and driven into the ground through at least one opening  38  in the base member to a depth capable of supplying adequate supporting force to the tree, preferably from one to two feet. The stake head  44  ideally has a cap-like arrangement shown in FIG. 4, at the proximal end, which rests on the upper surface of the base member after installation and is pointed at the distal end for easier insertion into the ground. The cap-like proximal end provides an area for a crow bar or the like to grip and lift the stake from the ground when tree support is no longer necessary, or for adjustment or moving of the assembly, and for an enlarged hammer strike area at time of insertion. 
     FIG. 10 is a longitudinal side view of a support member  22  with strap adjusting projections  59  and strap retaining members  25 . The strap retaining members  25  are fixed to the support member  22  by a bolt  56  or the like and an opening  60  capable of accommodating a flat head screwdriver or tool end  64  to lift said strap retaining member  25  away from the surface of the support member  22  releasing the grip on the strap  23  created when the bottom serrated edge  58  of the strap retaining member grips the strap  23  as it curves over and against the serrated bottom edge  62  of the strap channel  30  shown in FIG. 11 creating non-slip tension against the strap and firm frictional engagement within the support member and against the tree trunk. Absent a flat head screwdriver type device or tool end  64  to release the grip the likelihood of theft or vandalism of the tree support assembly is lessened and provides a virtually immovable strap attachment assembly to support the tree. 
     FIG. 11 shows the same longitudinal side view as FIG. 10, however, the strap retaining member has been removed to reveal the bottom serrated edge  62  of the strap channel  30  located between the strap adjusting projections  59 . The bolt  64  attaches support member  22  to the proximal end of brace member. Openings  66  are shown after removal of the bolts  56  and strap retaining member  25  from the support member  22 . Opening  68  will accommodate the bolt or other fixating means to attach the support member to the proximal end of the brace member  21 . 
     Since many modifications, variations and changes in detail can be made to the described preferred embodiment of the invention, it is intended that all matters in the foregoing description and shown in the accompanying drawings be interpreted as illustrative and not in a limiting sense. Thus, the scope of the invention should be determined by the appended claims and their legal equivalents.