Patent Publication Number: US-2005115028-A1

Title: Adjustable and detachable binding device

Description:
BACKGROUND OF THE PRESENT INVENTION  
      1. Field of Invention  
      The present invention relates to a binding device, and more particularly to an adjustable and detachable binding device for binding up an object, wherein the binding device is adapted to not only selectively adjust a loop size to fit the diameter of the object but also detach from the object while the binding device can be reused to bind up the object due to the change of the diameter of the object.  
      2. Description of Related Arts  
      Traditionally, people used strings, ropes and zip locks as binding fasteners in industrial and routine duty practice. Recently, disposable plastic fasteners have been widely used. Compared with traditional fastening means, like rope, plastic fasteners have a variety of distinctive advantages such as convenience, lower costs, simplicity, free of corrosion, water proof, strength, and so on. As a result, plastic fasteners have replaced traditional fastening means in more and more applications.  
      Just as its name applies, fasteners are adapted for tying up or binding different objects tightly in position. Fasteners could be bent or deformed to define a loop boundary wherein objects were bind within. Those traditional binding devices including plastic fasteners are all shown satisfied performance according to this aspect. However, in many occasions, users not only need fastener to provide tight binding function, but also request fastener to be adjustable and detachable.  
      For instance, the most notorious binding device application is of gardening practice, especially in vineyard or orchard. To seek richer productivity, young growth plants would be bound with wood frames or standing rods to keep corrected extending direction. Meanwhile, some fruitful trees, which occupy large area, need to be bound for gust resistance. Therefore, gardeners should tie those plants with wood frames or rods by ropes or whatever binding means. Unfortunately, the diameters of plants, especially of those seedlings or young growth trees, changed from year to year. If the ropes or fasteners were too tight, the nutrition passage of plants would be restricted thus causing plants wither and yellow, even to the extent death. Therefore, gardeners have to adjust the fasteners&#39; loop diameters from season to season. Here, it could be seen that traditional fastening devices have huge drawbacks.  
      If ropes or strings were fastened in detachable knots, the tight tension could not be guaranteed. Instead, if the dead knots were applied, gardeners would have to cut the ropes or strings to break the knots first, and then bind the plants again with new ropes. This procedure is time consuming and raw materials wasting. What is more, if the strings were made of metal materials, breaking process would be rather frustrating. On the other hand, the gardeners would have to carry plenty of new fastening devices to replace the old ones. It is hard to imagine that one gardener would bind all plants in an orchard of more than thousands of peach trees.  
      Another example, people sometimes would have to deal with bundles of different wires like cables, telephone lines, ordinary electrical lines, etc. To achieve a neat looking appearance, binding those cables with fasteners would be a good idea. However, if a user wishes to adjust the fastener, he or she may merely cut the fastener. The nonadjustable fastening devices do cause a lot of inconvenience.  
      Plastic fasteners are proven having adjustable function in comparison with traditional fastening means like rope. Nevertheless, it could be adjusted in unidirectional way instead of double direction. This is due to the fact plastic fastener for binding purpose is strip shaped and has an elongated body wherein a plurality of closely spaced zigzag teeth were formed on the down portion of its elongated body, while its top portion was formed with corresponding locking arrangement. In practice, users could bend the strip to form a loop structure, and insert the teeth end of elongated body into the slot of locking end until the zigzag teeth fully engaged with the lock thus fastening objects inside the loop. Here, the problem is that once the teeth were engaged with the lock, it could not be adjustable reversely. In other word, this kind of plastic fastener is only for tightening not for loosing up.  
      Therefore, adding an additional cable with the bound cables or removing one of the bound cables would eventually change the diameters of the loop. Users might merely cut the fastener, or else, have to use an additional fastener.  
      In brief, detaching and adjusting fasteners have been a perplexing problem for our lives. A kind of fasteners comprising detachable and adjustable function is highly desirable.  
     SUMMARY OF THE PRESENT INVENTION  
      A main object of the present invention is to provide an adjustable and detachable binding device, which is adapted to not only selectively adjusting a loop size to fit the diameter of the object but also detached from the object while the binding device can be reused to bind up the object due to the change of the diameter of the object.  
      Another object of the present invention is to provide an adjustable and detachable binding device, which comprises a plurality of locking holders spacedly provided at a tail portion of an elongated binding member and a loop locker integrally provide at a head portion of the elongated binding member to detachably engage with one of the locking holders to form a binding loop for binding at the object.  
      Another object of the present invention is to provide an adjustable and detachable binding device, wherein the loop locker is shaped and sized corresponding to the locking holders to securely engage with one of the locking holders in a detachably attaching manner such that the binding member can be reused to adjust the binding loop thereof for fitting the diameter of the object. In other words, the user is able to keep the binding device to bind the object even the diameter of the object has changed.  
      Another object of the present invention is to provide an adjustable and detachable binding device, wherein the binding operation of the binding device is quick and easy that by simply attaching the loop locker with the respective locking holder. In other words, the detaching operation of the binding device is rapid by detaching the loop locker with the respective locking holder.  
      Another object of the present invention is to provide an adjustable and detachable binding device, wherein the manufacturing process is easy and simple such that the binding device of the present invention can be mass produced in a low manufacturing cost.  
      Another object of the present invention is to provide an adjustable and detachable binding device, wherein no expensive or complicated structure is required to employ in the present invention in order to achieve the above mentioned objects. Therefore, the present invention successfully provides an economic and efficient solution not only for adjusting the loop size of the binding device to fit the object but also for reusing the binding device due to the change of the diameter of the object so as to facilitate the practical use of the binding device.  
      Accordingly, in order to accomplish the object, the present invention provides an adjustable and detachable binding device for binding up an object, comprising: 
          an elongated binding member having a head end, an opposed tail end, a head portion defining at the head end, and a tail portion defining at the tail end;     a plurality of locking holders spacedly and integrally formed along the tail portion of the binding member; and     a loop locker integrally formed at the head portion of the binding member to detachably engage with one of the locking holders to form a binding loop of the binding member for fittingly binding up the object, wherein the loop locker is shaped and sized that enables the loop locker to be detachably engaged with the respective locking holder, so as to adjust a diameter of the binding loop of the binding member with respect to the object.        

      These and other objectives, features, and advantages of the present invention will become apparent from the following detailed description, the accompanying drawings, and the appended claims.  
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       FIG. 1  is a perspective view of an adjustable and detachable binding device according to a first preferred embodiment of the present invention.  
       FIGS. 2A and 2B  are perspective views of the adjustable and detachable binding device according to the above first preferred embodiment of the present invention, illustrating the binding member forming a binding loop to bind up an object.  
       FIGS. 2C and 2E  illustrate the applications of the adjustable and detachable binding device according to the above first preferred embodiment of the present invention.  
       FIG. 3  illustrates the adjustable and detachable binding device being mass-produced according to the above first preferred embodiment of the present invention.  
       FIG. 4  illustrates a first alternative mode of the adjustable and detachable binding device according to the above first preferred embodiment of the present invention.  
       FIG. 5  illustrates a second alternative mode of the adjustable and detachable binding device according to the above first preferred embodiment of the present invention.  
       FIG. 6  illustrates a third alternative mode of the adjustable and detachable binding device according to the above first preferred embodiment of the present invention.  
       FIG. 7  is a perspective view of an adjustable and detachable binding device according to a second preferred embodiment of the present invention.  
       FIG. 8  illustrates a first alternative mode of the adjustable and detachable binding device according to the above second preferred embodiment of the present invention, illustrating the binding member forming a binding loop to bind up an object.  
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT  
      Referring to  FIGS. 1 and 2  of the drawings, an adjustable and detachable binding device adapted for binding up one or more objects  1  according to a first preferred embodiment of the present invention is illustrated, wherein the adjustable and detachable binding device comprises an elongated binding member  10  having a head end, an opposed tail end, a head portion  11  defining at the head end, and a tail portion  12  defining at the tail end.  
      A plurality of locking holders  20  are spacedly and integrally formed along the tail portion  12  of the binding member  10 . A loop locker  30  is integrally formed at the head portion  11  of the binding member  10  to detachably engage with one of the locking holders  20  to form a binding loop  101  of the binding member  10  for fittingly binding up the object  1 , wherein the loop locker  30  is shaped and sized that enables the loop locker  30  to be detachably engaged with the respective locking holder  20 , so as to adjust a diameter of the binding loop  101  of the binding member  10  with respect to the object  1 .  
      The binding member  10  is bent between a matting position and a locking position, wherein at the matting position, the loop locker  30  is guided to one of the locking holders  20  so as to selectively adjust the diameter of the binding loop  101 , and at the locking position, the loop locker  30  is detachably engaged with the respective locking holder  20  to retain the diameter of the binding loop  101  with respect to the object while the loop locker  30  is allowed to be detached from the respective locking holder  20  when the head portion  11  of the binding member  10  is moved to the matting position.  
      According to the preferred embodiment, the binding member  10  is an elongated member having a length substantially longer than a diameter of the object  1 . The binding member  10  is made of flexible and durable material, such as plastic, adapted to be bent to form the binding loop  101  in a circular shape. The binding member  10  is embodied as an elongated plastic strip which can be manufactured by a conventional plastic molding technique to lower the manufacturing cost of the present invention. Preferably, the binding member  10  is made of polyethylene such as LDPE, HDPE, LLPE, wherein 10% of EVA is optional mixed therewith.  
      As shown in  FIG. 1 , the locking holders  20  are respectively embodied as a plurality of locking teeth  21  integrally and alignedly formed along a longitudinal edge of the tail portion  12  of the binding member  10  to define a holding neck portion  22  on the binding member  10  at a root portion of each of the locking teeth  21 . The holding neck portion  22  of each of the locking teeth  21  has a width W 1  smaller than a width W T  of the binding member  10 , wherein the loop locker  30  comprises means for detachably engaging with the holding neck portion  22  of the respective locking tooth  21  to form the binding loop  101 .  
      Each of the locking teeth  21  has a guiding edge  211  having an outer end  2111  formed at the longitudinal edge of the tail portion  12  of the binding member  10  and an inner end  2112  inclinedly and inwardly extended on the binding member  10  towards the tail end thereof to define the holding neck portion  22  on the binding member  10  at the inner end  2112  of the guiding edge  211  of each of the locking teeth  21 .  
      Each of the locking teeth  21  further has a locking edge  212  transversely and inwardly extended from the outer end  2111  of the guiding edge  211  to the inner end  2112  of the adjacent guiding edge  211  such that the locking teeth  21  are continuously extended along the longitudinal edge of the tail portion  12  of the binding member  10 .  
      It is worth to mention that the locking teeth  21  are integrally and alignedly formed along the two longitudinal edges of the tail portion  12  of the binding member  10 , as shown in  FIG. 1 , to enhance the locking ability of the locking holders  20 .  
      The engaging means of the loop locker  30  contains an elongated locker slot  31  longitudinally formed on the head portion  11  of the binding member  10  wherein the locker slot  31  has a longitudinal length L substantially larger than the width W T  of the binding member  10  and a transverse width W which is larger than a thickness of the binding member  10  and is larger than the width W 1  of the holding neck portion  22  of each of the locking teeth  21  in such a manner that when the tail portion  12  of the binding member  10  is twisted to align to the longitudinal length L of the locker slot  31 , i.e. the matting position, the tail portion  12  of the binding member  10  is allowed to slidably pass through the locker slot  31 , as shown in  FIG. 2A , while the tail portion  12  of the binding member  10  is then twisted back to overlap on the head portion  11  thereof to lock up the holding neck portion  22  of the corresponding locking tooth  21  at the locker slot  31  by the transverse width W thereof, i.e. the locking position, so as to form the binding loop  101  of the binding member  10 , as shown in  FIG. 2B .  
      In other words, at the matting position, the tail portion  12  of the binding member  10  is twisted to align to the longitudinal length L of the locker slot  31 , such that the tail portion  12  of the binding member  10  is allowed to slidably pass through the locker slot  31  so as to adjust the diameter of the binding loop  101 . In addition, at the locking position, the tail portion  12  of the binding member  10  is then twisted back to overlap on the head portion  11  thereof to lock up the holding neck portion  22  of the corresponding locking tooth  21  at the locker slot  31  to retain the diameter of the binding loop  101 .  
      It is worth to mention that the guiding edge  211  of each of the locking teeth  21  is extended inclinedly at a direction corresponding to an inserting direction of the tail portion  12  of the binding member  10  such that the locking teeth  21  are allowed to slide through the locker slot  31  at the inserting direction while the locking teeth  21  are blocked up at the transverse width W at an ejecting direction which is opposed to the inserting direction.  
      Therefore, while sliding the tail portion  12  of the binding member  10  through the locker slot  31  at the inserting direction, the inclined guiding edges  211  of the locking teeth  21  guide the tail portion  12  of the binding member  10  to slide through the locker slot  31  so as to prevent a tearing force applied at the tail portion  12  of the binding member  10  which may tear off the locking teeth  21 . In addition, when a pulling force applied on the binding member  10  at the ejecting direction, the locking edge  212  of the respective locking tooth  21  is substantially biased against the head portion  11  of the binding member  10  such that the pulling force can ensure the locking engagement between the locker slot  31  and the respective locking tooth  21 , as shown in  FIG. 2B .  
      As shown in  FIG. 2B , when the holding neck portion  22  of the locking tooth  21  is locked at the locker slot  31  via the transverse width W thereof, the locking edge  212  of the respective locking tooth  21  biases against the head portion  11  of the binding member  10  at the locker slot  31  so as to further securely lock up the tail portion  12  of the binding member  10  with the head portion  11  thereof to retain the size of the binding loop  101 .  
      As shown in  FIG. 1 , the locker slot  31  is formed as a triangular shape, wherein the locker slot  31  has a width gradually increasing towards the head end of the binding member  10 , so as to substantially guide the twisting movement of the tail portion  12  of the binding member  10  within the locker slot  31 . The locker slot  31  has a longitudinal length L substantially larger than the width W T  of the binding member  10  and a transverse width W which is larger than a thickness of the binding member  10  and is larger than the width W 1  of the holding neck portion  22  of each of the locking teeth  21 .  
      Accordingly, the longitudinal length L of the locker slot  31  is defined along an adjacent edge thereof for the tail portion  12  of the binding member  10  to slidably inserting therethrough. The locker slot  31  further has a longitudinal guiding width L 1  defining at a height of the locker slot  31  at least equal to the width W T  of the binding member  10  so as to enhance the tail portion  12  of the binding member  10  to slidably insert through the locker slot  31 , as shown in  FIG. 1 .  
      The tail end of the binding member  10  has a tapered shape having a width W 2  substantially smaller than the transverse width W of the locker slot  31  such that the tapered tail portion  12  of the binding member  10  is guided to slide through the locker slot  31  when the tail end of the binding member  10  is inserted therethrough. It is worth to mention that when the tapered tail end of the binding member  10  is inserted through the locker slot  31 , the user is able to pull the tail end of the binding member  10  to guide the tail portion  12  thereof to slide through the locker slot  31 .  
      In order to operate the adjustable and detachable binding device of the present invention to bind the object  1 , the user is able to twist the tail portion  12  of the binding member  10  to align with the longitudinal length L of the locker slot  31 , such that the tail portion  12  of the binding member  10  is allowed to slidably pass through the locker slot  31 . Then, by applying a pulling force on the tail portion  12  of the binding member  10  at the inserting direction, the tail portion  12  of the binding member  10  is slid through the locker slot  31  to form the binding loop  101 . Once the diameter of the binding loop  101  matches the diameter of the object  1 , the tail portion  12  of the binding member  10  is then twisted back to its original orientation such that the holding neck portion  22  of the corresponding locking tooth  21  is locked at the locker slot  31  so as to retain the diameter of the binding loop  101  to tightly bind up the object  1 . Therefore, the size of the binding loop  101  can be selectively adjusted via the engagement between the locker slot  31  and one of the locking teeth  21  so as to fittingly tight up the object  1  having various sizes.  
      In order to detach the adjustable and detachable binding device from the object  1 , the user is able to move the binding member  10  back to the matting position by twisting the tail portion  12  of the binding member  10  to align with the longitudinal length L of the locker slot  31  so as to release the engagement between the locker slot  31  and the corresponding locking tooth  21 . Therefore, the tail portion  12  of the binding member  10  is adapted to slide out from the locker slot  31  to detach the binding member  10  from the object  1 .  
      It is worth to mention that the mention that the adjustable and detachable binding device of the present invention can be reused to re-bind the object  1  by repeating the binding operation. As a result, for example, the user is able to reuse the adjustable and detachable binding device to bind the plant as the object  1  when the plant grows up. Likewise, the adjustable and detachable binding device can be reused to blind the cables as the object  1  when adding or removing the cables without cutting off the original adjustable and detachable binding device.  
      In addition, the adjustable and detachable binding device can be used to bind at an opening of a bag as a bag zipper or bind the vegetable during transportation and storage, as shown in  FIGS. 2C and 2D . Thus, the adjustable and detachable binding device is capable of using to bind the growing plant so as to guide the growth of the growing plant stem and branch, as shown in  FIG. 2E .  
      According to the preferred embodiment, the adjustable and detachable binding device of the present invention can be mass production in very low cost. As shown in  FIG. 3 , the manufacturing process of the adjustable and detachable binding device is simple that by providing a piece of plastic layer and forming a plurality of tearing lines thereon. Therefore, a plurality of adjustable and detachable binding devices are alignedly formed by the plastic layer such that the user is able to easily tear off one of the adjustable and detachable binding devices from the plastic layer for usage.  
       FIG. 4  illustrates a first alternative mode of the loop locker  30 A which embodies as the locker slot  31 A formed as a rectangular shape having an even width, wherein the locker slot  31 A has a longitudinal length L substantially larger than a width W T  of the binding member  10  and a transverse width L which is larger than a thickness of the binding member  10  and is larger than a width W 1  of the holding neck portion  22  of each of the locking teeth  21 . Accordingly, the longitudinal length L of the locker slot  31 A is defined at a longitudinal edge thereof and the transverse width L of the locker slot  31 A is defined at a transverse edge thereof.  
       FIG. 5  illustrates another alternative mode of the locking holder  20 B. Accordingly, each of the locking teeth  21 B is formed by an elongated slit  210 B inclinedly cut on the tail portion  12  of the binding member  10  from the longitudinal edge thereof wherein each of the locking teeth  21 B has a guiding edge  211 B having an outer end  2111 B formed at the longitudinal edge of the tail portion  12  of the binding member  10  and an inner end  2112 B inclinedly and inwardly extended on the binding member  10  towards the tail end thereof to define a holding neck portion  22 B on the binding member  10  at the inner end  2112 B of the guiding edge  211 B of each of the locking teeth  21 B. The holding neck portion  22 B of each of the locking teeth  21 B has a width W 1  smaller than a width W T  of the binding member  10 .  
      It is worth to mention that the elongated slits  210 B can be evenly formed at two longitudinal edges of the tail portion  12  of the binding member  10  such that the locking teeth  21 B are respectively formed along the two longitudinal edges of the tail portion  12  of the binding member  10 , as shown in  FIG. 5 .  
       FIG. 6  illustrates an alternative mode of the locking holders  20 C which are respectively embodied as a plurality of locking teeth  21 C integrally and alignedly formed along the longitudinal edge of the tail portion  12  of the binding member  10 , wherein the locking teeth  21 C, having even thickness, are parallelly extending to the longitudinal edge of the tail portion  12  of the binding member  10  to form as a comb shape so as to define a holding neck portion  22 C on the binding member  10  at a root portion of each of the locking teeth  21 C, wherein the holding neck portion  22 C of each of the locking teeth  21 C has a width W 1  smaller than a width W T  of the binding member  10 .  
      Therefore, while the tail portion  12  of the binding member  10  is twisted back to overlap on the head portion  11  thereof, the holding neck portion  22 C of the corresponding locking tooth  21 C is locked up at the locker slot  31 C by the transverse width W thereof, so as to form the binding loop  101  of the binding member  10 . In addition, locking teeth  21 C are integrally and alignedly formed along the two longitudinal edges of the tail portion  12  of the binding member  10 , as shown in  FIG. 6 , to enhance the locking ability of the locking holders  20 C.  
      As shown in  FIG. 6 , the locker slot  31 C has a longitudinal engaging portion  311 C having a width larger than the thickness of the binding member  10  and a longitudinal locking portion  312 C integrally extended from the engaging portion  311 C towards the head end of the binding member  10 , wherein the locking portion  312 C has a width gradually increasing from the engaging portion  312 C in such a manner that when the respective locking tooth  21 C is locked at the locker slot  31 C after the tail portion  12  of the binding member  10  is slid through the locker slot  31 C, the holding neck portion  22 C of the respective locking tooth  21 C is retained at the locking portion  312 C of the locker slot  31 C.  
      It is worth to mention that the engaging portion  311 C of the locker slot  31 C ensures the alignment of the tail portion  12  of the binding member  10  with the longitudinal length L of the locker slot  31 C while the locking portion  312 C of the locker slot  31 C restricts the twisting movement of the tail portion  12  of the binding member  10  within the locker slot  31 C to complete the locking operation of the loop locker  30 C to one of the locking holders  20 C.  
      It is worth to mention that the alternative modes of the locker holders  20 ,  20 B,  20 C and the loop locker  30 ,  30 A,  30 C, as shown in  FIGS. 1 through 6 , can be interchanged to detachably engage the loop locker  30 ,  30 A,  30 C with one of the locker holders  20 ,  20 B,  20 C by the corresponding dimensions. That is, the locker slot  31  has a longitudinal length L substantially larger than a width W T  of the binding member  10  and a transverse width L which is larger than a thickness of the binding member  10  and is larger than the width W 1  of the holding neck portion  22  of each of the locking teeth  21 .  
      As shown in  FIGS. 7 and 8 , an adjustable and detachable binding device of a second embodiment illustrates an alternative mode of the first embodiment of the present invention, wherein the adjustable and detachable binding device comprises an elongated binding member  10 ′ having a head end, an opposed tail end, a head portion  11 ′ defining at the head end, and a tail portion  12 ′ defining at the tail end.  
      The adjustable and detachable binding device further comprises a plurality of locking holders  20 ′ spacedly and integrally formed along the tail portion  12 ′ of the binding member  10 ′, and a loop locker  30 ′ integrally formed at the head portion  11  of the binding member  10 ′ to detachably engage with one of the locking holders  20 ′ to form a binding loop  101 ′ of the binding member  10 ′ for fittingly binding up the object  1 , wherein the loop locker  30 ′ is shaped and sized that enables the loop locker  30 ′ to be detachably engaged with the respective locking holder  20 ′, so as to adjust a diameter of the binding loop  101 ′ of the binding member  10 ′ with respect to the object  1 , as shown in  FIG. 8 .  
      According to the preferred embodiment, the locking holders  20 ′ are respectively embodied as a plurality of locking holes  21 ′ spacedly and alignedly formed between two longitudinal edges of the tail portion  12 ′ of the binding member  10 ′, wherein each of the locking holes  21 ′, having a predetermined diameter, is adapted to be deformed to slightly increase the diameter thereof.  
      The loop locker  30 ′ comprises a locker member  31 ′ detachably inserted into one of the locking holes  21 ′ to form the binding loop  101 ′ wherein the locker member  31 ′ has a narrowed neck portion  311 ′ integrally protruded from the head portion  11 ′ of the binding member  10 ′ and an enlarged inserting head  312 ′ which is integrally extended from the narrowed neck portion  311 ′ and has a diameter substantially larger than a diameter of the narrowed neck portion  311 ′. Each of the locking holes  21 ′ has the diameter substantially larger than the diameter of the narrowed neck portion  311 ′ and slightly smaller than the diameter of inserting head  312 ′ in such a manner that when the locker member  31 ′ is detachably inserted into one of the locking holes  21 ′, the respective locking hole  21 ′ is slightly deformed to allow the inserting head  312 ′ to pass therethrough while the narrowed neck portion  311 ′ of the locker member  31 ′ is locked at the respective locking hole  21 ′ so as to retain the binding loop  101 ′ of the binding member  10 ′.  
      According to the second embodiment, the inserting head  312 ′ of the locker member  31 ′ has a tapered shape having a diameter substantially reducing towards a free end thereof so as to enhance the inserting head  312 ′ to slidably insert into the respective locking hole  21 ′.  
      In order to operate the adjustable and detachable binding device, the user is able to bend the tail portion  12 ′ of the binding member  10 ′ towards the head portion  11 ′ thereof to fold the binding member  10 ′ to the matting position that the free end of the inserting head  312 ′ is concentrically aligned with one of the locking holes  21 ′ to adjustably form the binding loop  101 ′ corresponding to the object  1 . Once the size of the binding loop  101 ′ matches the size of the object  1 , the binding member  10 ′ is moved to the locking position that the locker member  31 ′ is slidably inserted into the respective locking hole  21 ′ until the inserting head  312 ′ passes through the locking hole  21 ′ by applying an inserting force on the locker member  31 ′ so as to retain the diameter of the binding loop  101 ′ for binding the object  1 .  
      It is worth to mention that the mention that the adjustable and detachable binding device of the present invention can be reused to re-bind the object  1  when the binding member  10 ′ is moved back to the matting position by applying a pulling force on the tail portion  12 ′ of the binding member  10 ′ to pull the inserting head  312 ′ of the locker member  31 ′ sliding out from the respective locking hole  21 ′ and repeating the binding operation as mentioned above.  
      Alternatively, the loop locker  30 ″ contains at least a retaining hole  31 ″ formed at the head portion  11 ′ of the binding member  10 ′ wherein the tail portion  12 ′ of the binding member  10 ′ is folded to overlap with the head portion  11 ′ thereof to align the retaining hole  31 ″ with one of the locking hole  21 ′ so as to adjust the size of the binding loop  101 ′ of the binding member  10 ′. Therefore, a hole locker  32 ″ is used to slidably pass the retaining hole  31 ″ through the respective locking hole  21 ′ to lock up the head portion  11 ′ of the binding member  10 ′ with the tail portion  12 ′ thereof so as to retain the binding loop  101 ′ of the binding member  10 ′ with respect to the object  1 ′. Accordingly, the hole locker  32 ″ can be a pin or a rivet detachably inserted into the retaining hole  31 ″ through the respective locking hole  21 ′ to retain the size of the binding loop  101 ′ of the binding member  10 ′.  
      One skilled in the art will understand that the embodiment of the present invention as shown in the drawings and described above is exemplary only and not intended to be limiting.  
      It will thus be seen that the objects of the present invention have been fully and effectively accomplished. It embodiments have been shown and described for the purposes of illustrating the functional and structural principles of the present invention and is subject to change without departure from such principles. Therefore, this invention includes all modifications encompassed within the spirit and scope of the following claims.