NZ717916B2 - Tree treatment capsule - Google Patents

Abstract

This disclosure generally concerns the administering of treatment substance to porous elements in general, such as wood, and in particular to plants, trees etc. by means of a capsule for delivering such substance to the interior of the element. Generally, with all prior art solutions within this field it is a matter of great concern to maintain the capsule leak proof outwardly, towards the open end, and in particular to provide improved means and/or methods for administering treatment substance to porous elements. With this in mind, the present invention provides a capsule for insertion into a bore of a porous element to apply treatment substance to the interior of the element, and having a container, with at least one internal cavity for receiving treatment substance therein, a releasably closed first insertion end and an outer stop flange, and a plug received in and fixed to the container through a common interconnecting land, wherein a first container shank portion extending from the first insertion end of the capsule and up to the area of the interconnecting land has a uniform generally cylindrical shape, and a second container shank portion extending away from said first container shank portion, from the area of the interconnecting land towards the outer stop flange, at least at an inner surface thereof has an outwardly slightly diverging, conical shape and at an outer surface thereof, separated a short distance from the outer stop flange, has a first circumferential bevelled edge serving as a transition to an outer increased diameter section. The present also provides a method for applying a treatment substance to the interior of a porous element comprising the steps of providing a treatment substance capsule including a container having a releasably closed end, an internal cavity, treatment substance disposed in said internal cavity, and a plug fitted in said container to retain said treatment substance in the internal cavity, forming at least one bore into the interior of said element; inserting the capsule into said bore, and applying driving force to said plug to move it into the cavity, causing the releasably closed end of the container to open, thereby releasing treatment substance from said internal cavity by permitting it to pass from said internal cavity and into said bore; characterized by: first inserting the capsule with said closed end and a first container shank portion into the bore, acting as a guide; then driving the capsule with the plug further into the bore so that a second container shank portion of the container fits snugly in the bore; said second container shank portion at least at an inner surface having an outwardly slightly diverging, conical shape and at an outer surface, separated from an outer stop flange, having a first circumferential bevelled edge serving as a transition to an outer increased diameter section, so that the container past the first circumferential bevelled edge has an outer diameter exceeding the diameter of the bore; and then driving the capsule with the plug further into the bore so that the outer section of the container enters the bore, thereby causing the outer increased diameter section and the outer stop flange to be rotated inwardly towards the plug to seal any gap there between. ld it is a matter of great concern to maintain the capsule leak proof outwardly, towards the open end, and in particular to provide improved means and/or methods for administering treatment substance to porous elements. With this in mind, the present invention provides a capsule for insertion into a bore of a porous element to apply treatment substance to the interior of the element, and having a container, with at least one internal cavity for receiving treatment substance therein, a releasably closed first insertion end and an outer stop flange, and a plug received in and fixed to the container through a common interconnecting land, wherein a first container shank portion extending from the first insertion end of the capsule and up to the area of the interconnecting land has a uniform generally cylindrical shape, and a second container shank portion extending away from said first container shank portion, from the area of the interconnecting land towards the outer stop flange, at least at an inner surface thereof has an outwardly slightly diverging, conical shape and at an outer surface thereof, separated a short distance from the outer stop flange, has a first circumferential bevelled edge serving as a transition to an outer increased diameter section. The present also provides a method for applying a treatment substance to the interior of a porous element comprising the steps of providing a treatment substance capsule including a container having a releasably closed end, an internal cavity, treatment substance disposed in said internal cavity, and a plug fitted in said container to retain said treatment substance in the internal cavity, forming at least one bore into the interior of said element; inserting the capsule into said bore, and applying driving force to said plug to move it into the cavity, causing the releasably closed end of the container to open, thereby releasing treatment substance from said internal cavity by permitting it to pass from said internal cavity and into said bore; characterized by: first inserting the capsule with said closed end and a first container shank portion into the bore, acting as a guide; then driving the capsule with the plug further into the bore so that a second container shank portion of the container fits snugly in the bore; said second container shank portion at least at an inner surface having an outwardly slightly diverging, conical shape and at an outer surface, separated from an outer stop flange, having a first circumferential bevelled edge serving as a transition to an outer increased diameter section, so that the container past the first circumferential bevelled edge has an outer diameter exceeding the diameter of the bore; and then driving the capsule with the plug further into the bore so that the outer section of the container enters the bore, thereby causing the outer increased diameter section and the outer stop flange to be rotated inwardly towards the plug to seal any gap there between.

Description

TITLE: TREE TREATMENT CAPSULE TECHNICAL FIELD This disclosure lly concerns the administering of treatment substance to porous elements in general, such as wood, and in particular to plants, trees etc. by means of a capsule for delivering such substance to the interior of the element.

BACKGROUND U.S. Patents 4,905,410 and 5,485,698 disclose tree treatment es including a plug for insertion into an end opening of an internal cavity of a container. The e is introduced into a bore formed in a tree, with a protruding end of the plug engaging a bottom of the bore.

An impact force is applied to a head t of the plastic container to move the head element towards the plug and break a shank of the container. Chemical agent is released from the cavity when the shank is broken in this way. Generally, the use of these known capsules has advantageous effects and provides good final results, but involves rather time-consuming preparation due not only to the large number of bores required but also to the comparatively strict requirement for appropriate dimensions, especially depth, of the bores formed in the porous elements. EP2066171Bl discloses a capsule providing a container and a plug for in-sertion into an open rear end of the capsule and for closing the open end to retain treatment nce in a cavity. At the open end the capsule has a stop , for abutting an outer wall of a tree etc. when inserted into said bore. At the outer end this capsule has a straight cylindrical wall adjoining the stop flange. Generally, with all prior art solutions within this field it is a matter of great concern to maintain the capsule leak proof outwardly, towards the open end.

It is a general object to e a remedy to the discussed problems and concerns within the above indicated field.

In particular it is an object to suggest an improved means for administering treatment sub-stance to porous elements.

In particular it is also an object to suggest an ed method of administering treatment substance to porous elements.

W0 20151065277 These and other objects are met by embodiments as defined by the accompanying patent claims.

In a first aspect the technology relates generally to a capsule for applying ent substance to the interior of a porous element. The capsule is adapted for insertion into a bore of the t and has a container with at least one internal cavity for receiving treatment substance therein, an outer stop flange and a plug ed in and fixed to the container through a common interconnecting land. In a basic configuration a first container shank portion extends from a first insertion end of the capsule and up to the area of the interconnecting land and has a uniform generally cylindrical shape. A second container shank portion extends away from the first container shank portion, from the area of the interconnecting land towards the outer stop flange. At least at an inner surface f the second container shank n has an out- wardly slightly diverging, conical shape. At an outer surface thereof, separated a short distance from the outer stop flange the second ner shank portion also has a first circum- ferential beveled edge serving as a transition to an outer increased diameter section.

In a further aspect the technology relates to an ed method of ng treatment sub- stance to the interior of a porous element and comprising the steps of ing a treatment nce capsule including a container with a releasably closed end, an internal , treatment substance disposed in said internal cavity, and a plug fitted in the container to retain treatment substance in the al cavity. The method includes forming at least one bore into the interior of the porous element, inserting a tree treatment capsule into the bore and applying driving force to the plug to move it into the cavity. This causes the releasably closed end of the container to open, thereby releasing treatment substance from said internal cavity by permitting it to pass from the internal cavity and into the bore. In a basic configuration the method includes first inserting the capsule with the closed end and a first container shank portion into the bore, acting as a guide and then driving the capsule with the plug r into the bore so that a second ner shank portion of the container fits snugly in the bore. Then the capsule with the plug is driven further into the bore so that an outer increased diameter section of the container enters the bore, thereby causing the container increased diameter section and an outer stop flange to be rotated inwardly towards the plug to seal any gap there between.

W0 65277 Essentially, the basic configurations provide the advantage of securing a leak proof co- operation between container and plug during the entire installation process of the capsule.

This is accomplished with the different diameter sections of the capsule and its installation phases securing the sealing displacement of the container upper shaft portion and outer stop flange towards and against the plug outer surface.

Advantages offered by this technology, in addition to those described above, will be readily appreciated upon reading the below ed description of embodiments of the technology.

BRIEF DESCRIPTION OF THE DRAWINGS The technology, together with further objects and advantages thereof, will be best tood by reference to the following description taken er with the accompanying gs, in which: Fig. 1A is a side View rating a first embodiment of a capsule for administering treat- ment substance; Fig. 1B is a top View of the ent substance capsule of Fig. 1A; Fig. 1C is a bottom view of the treatment substance capsule of Fig. 1A; Fig. 2 is a udinal section through the treatment substance capsule of Fig. 1A; Fig. 3A illustrates in section a first phase of the introduction of the treatment substance capsule of Fig. 1A into a bore formed in a porous element; Fig. 3B illustrates in section a final phase of the introduction of the treatment substance capsule of Fig. 1A into a bore formed in a porous element; Fig. 4A is a side view illustrating a second embodiment of a capsule for administering treat- ment substance; Fig. 4B is atop View illustrating the second ment of the capsule of Fig. 4A; W0 65277 Fig. 5A is a side View illustrating a section through a third embodiment of a capsule for administering treatment substance; and Fig. 5B is a side view of the capsule of Fig. 5A with a bottom seal separate from the capsule.

DETAILED DESCRIPTION The technology will be ned with reference to exemplifying embodiments thereof that are illustrated in the accompanying drawing . The embodiments serve to exemplify the use of the principles of the invention in different applications for stering or supplying a treatment substance, such as a chemical agent, to a porous element, in particular to the phloem layer of a tree. The substance may in such applications for trees be either a herbicide or any other tree destroying agent if the treatment is designed to kill the tree. Otherwise, it may be an insecticide if the treatment is designed for noxious insect control, or a fertilizer, fungicide or other nt or nutrient if the treatment is designed to cure the tree from a disease or a nt deficiency. It shall be emphasized, though that the illustrations serve the purpose of describing preferred embodiments of the technology and are not intended to limit the invention to s thereof. The technology may thus also be used for other applications such as the delivery of dye or an impregnation agent in order to change the color or other characteristics of a plant or tree trunk, either living or felled, or any other porous element.

The majority of the prior art solutions of the initially discussed kind, for introducing treat- ment substance in a porous element such as a tree trunk, are all based on the insertion of a capsule into a bore in the t with an open end of a container first. This open end is temporarily closed by an installed plug. To e the desired function the capsule must be introduced into the bore until the plug abuts the bottom of the bore, which requires the formation of a bore with relatively narrow tolerance with regard to its depth. Forming such bores with narrow tolerance is ssarily time consuming and undesirable.

In other prior art solutions inadequate security is provided with regard to a possible leakage of treatment solution backwards past the plug and container shank during installation and activation of the capsule. Such leakage problems would be even more serious if liquid treat- ment solution would be provided in the capsule, which in itself would be a desirable feature.

W0 20151065277 This technology practically eliminates such omings in the prior art by suggesting a solution that allows for a leakage proof handling and installation of treatment capsules, even when used in combination with a liquid treatment solution.

A first exemplifying embodiment of the technology is shown in Figs. 1—3B, wherein the present invention is embodied in a tree treatment capsule 1 that with reference to Fig. 3A-B is adapted for insertion into a predrilled bore 15 formed in a porous element 20, such as in the trunk of a tree, to apply treatment substance 16 (Fig. 3A) to the interior of the element be treated. As is conventional for tree treatment applications the bore 15 extends through the bark and into the phloem layer of the tree 20. The capsule 1 includes a container 2 having a first container shank portion 6 forming at least one internal cavity 3 for receiving treatment substance 16 therein in an led condition of the capsule 1.

The capsule 1 further has an outer stop flange 8 and a plug 4 that is received inside the con- tainer 2 and is fixed thereto through a common interconnecting land 5 (see Fig. 2). Specifi- cally, an open upper container end 2A has a circular g for receiving the plug 4. The plug 4 closes the open upper end of the container 2 and retains treatment substance 16 in the internal container cavity 3 with a bottom wall 4D thereof. The plug 4 that is generally rical in shape has at its upper end 4E an impact surface for applying plug driving impact force thereto during activation of the treatment capsule 1. ing specifically to Figures 2 and 3A-B, it is apparent that the plug 4 may ably be hollow, with a series of, here four, evenly distributed rcing ribs 4C. The ribs 4C cross each other centrally in the plug 4 and are ally formed with and on a ferential inner e 4B f to provide a lightweight and yet strongly reinforced structure that will be snugly received Within the capsule 1 container 2.

The stop flange 8 acts as an outer stop circumferentially surrounding the upper end 2A of the container for abutting an outer surface of said porous element or tree 20 when the capsule is inserted into said bore 15. Thus, the actual container 2 has an outer diameter that is smaller than the outer diameter of the outer stop flange 8. The outer stop flange 8 in turn that has an outer diameter essentially exceeding the diameter of the bore 15 to present an appropriate positioning support surface.

W0 20151065277 The first container shank portion 6 extends from a first insertion end 1A of the capsule 1 and approximately to the area of the interconnecting land 5 and has a uniform generally cylindric- al shape. A second container shank portion 7 s away from the container first shank portion 6, approximately from the area of the interconnecting land 5 s the outer stop flange 8 at the upper end 2A of the container 2. The second container shank portion 7 has an outwardly slightly diverging, conical shape at least at an inner e 7B thereof. At an outer surface 7A thereof, separated a short distance from the outer stop flange 8, it has a first cir- cumferential beveled edge 9 serving as a transition to an outer increased diameter section 7C.

The outer surface 7A as well as the outer increased diameter section 7C of the second con- tainer shank portion 7 likewise, each have a uniform generally cylindrical shape.

The plug 4 has the shape of a lly straight er from the at least partially open end portion 4E thereof and down to the area of the interconnecting land 5, leaving a downwardly tapering space 17 between an outer surface 4A of the plug 4 and the inner surface 7B of the second container shank portion 7. The tapering space 17 between the plug 4 outer e 4A and the second container shank portion 7 inner surface 7B does in combination with the outer sed diameter section 7C of the second container shank n 7, serve a very essential purpose for obtaining the capsule treatment solution seal, as will be explained below.

A second circumferential beveled edge 10 is provided at the first container shank portion 6, at a position close to the area of the interconnecting land 5 and serves as a transition to the second container shank portion 7. From the first insertion end 1A of the capsule l and up to the second beveled edge 10, the container 2 has an outer er slightly smaller than the diameter of the bore 15 of the porous element 20 and past the second beveled edge 10 and up to the first beveled edge 9 the container 2 has an outer diameter that is essentially the same as the diameter of the bore 15 in the porous t 20. Past the first beveled edge 9 the container 2 has an outer er slightly exceeding the diameter of the bore 15 of the porous element 20.

For practical reasons the bore 15 may in red applications be drilled having an approxi— mately 10 mm inner diameter. For such an application the following approximate dimensions would be appropriate for ing the purposes of this technology. An outer diameter of the first container shank portion 6, at least in the first insertion end 1A and preferably from said W0 20151065277 first insertion end 1A and up to the second circumferential beveled edge 10, is approximately 9 mm. An increase A of the container 2 outer diameter at the second beveled edge 10 is in the order of 1 mm and an increase B of the container 2 outer diameter at the first beveled edge 9 is in the order of 0.2—0.3 mm. It shall be ized that the dimensions that are given here only serve to exemplify the general relationships. The actual dimensions, both with regard to length and diameter etc. of the bore 15, of the first and second shank portions as well as of the beveled edges may be varied freely for alternative applications. The actual dimensions used do to a great extent depend upon the volume of the sustance to be delivered in different applications.

In the embodiment of Fig. 1-3B the container 2 is lly closed at the first insertion end 1A by a bottom wall 12 that is releasably attached to the container 2 at said closed end. This bottom wall 12 is releasably received in an inner circumferential groove 13 of a container 2 inner shank surface or wall 6B. A central ng or ejecting member 11 is firrther provided in the inner cavity 3 of the container 2, extending along a major portion of the cavity 3 and being formed integral with a bottom wall 4D of the plug 4.

The outer stop flange 8 is provided at an upper end of the second container shank portion 7 that ts to the outer increased diameter section 7C and in this embodiment has a uni- form, outwardly ng shape around the entire container 2 outer circumference. Apart from serving as a positioning stop during insertion of the e 1 into the porous element 20 the outer stop flange 8 also has the additional purpose of thening the container 2 at the upper end 2A of the second container shank portion 7, especially during activation of the capsule l by forcing the plug 4 into the container 2, as will be ned below.

It will be understood that the described technology likewise concerns a method of applying treatment substance 16 to the interior of a porous element 20. An embodiment of the method will be described with nce to Figs. 3A-B and es providing a ent substance capsule 1 having a container 2 with a releasably closed end 1A, an internal cavity 3, treatment substance 16 disposed in said internal cavity and a plug 4 fitted in said container to retain the treatment substance 16 in the internal cavity 3. At least one bore 15, one for each capsule 1 to be installed, is first formed into the interior of the element 20. A tree treatment e l is then inserted into the or each bore 15 force is applied to the , whereupon driving W0 20151065277 plug 4 by means of an appropriate tool, not shown. The d driving force will move the plug 4 into the cavity 3 and such nt of the plug 4 into the cavity 3 causes the releas- ably closed end 1A of the container to open, thereby releasing treatment substance 16 from the internal cavity 3 by permitting it to pass from said internal cavity 3 and into said bore 15.

The presently disclosed technology specifically involves first inserting the capsule 1 with the closed end and the first smaller er container shank portion 6 into the bore 15, acting as a guide. Then, as the e l with the plug 4 is driven further into the bore 15, the second, medium diameter container shank portion 7 will fit snugly in the bore 15. The capsule 1 with the plug 4 is then driven further into the bore 15 causing the outer large or sed diameter section 7C of the container 2 to enter the bore 15. This in turn causes the container 2 increased diameter section 7C and the outer stop flange 8 to be rotated inwardly, in the direction of the arrows R in Fig. 3B, towards the plug 4 to seal any gap, such as the provided tapered gap 17, there between. The capsule l is maintained in position in the bore 15 by the engagement of the outer stop flange 8 with an outer surface of the porous element 20.

Continued application of driving force to the plug 4 will finally cause the common inter- connecting land 5, by which the plug 4 is fixed to the container 2, to break. Then further pushing of the plug 4 into the container 2 cavity 3 will in the illustrated ment cause the l ejecting member 11 to eject the releasable bottom wall 12 from the inner groove 13 and from the capsule 1. At that stage the further pushing of the plug 4 will force treatment substance 16 out from the ner 2 cavity 3 with the outer stop flange 8 still maintaining the capsule in position through its engagement with the porous element 20.

A second ment of the capsule 101 of this technology is illustrated in Fig. 4A-B that discloses an alternative, thinner outer stop flange 108 that at regular intervals around the con- tainer 102 has upper, individual strengthening beads 108A. In all other respects the capsule 101 is identical with the capsule of the first embodiment. Accordingly, the corresponding parts and sections of the second capsule 101 embodiment are provided with the same reference designations plus 100.

Finally, a third embodiment of the capsule 201 of this technology is illustrated in Fig. 5A-B.

In this ative embodiment a thin sheet or foil 212 is adhered to the container 202 first W0 20151065277 insertion end 201A. The plug 204 carries a piercing member 211 that during pushing of the plug 204 pierces and/or finally removes the sheet or foil 212 so that treatment fluid may be discharged from the container 202 cavity 203. This third embodiment is based on the structure of the first embodiment so that the corresponding parts and sections of the third e 201 embodiment are provided with the same reference designations plus 200.

In another, not cally shown embodiment that may be preferable for applications re- quiring le treatments, the ent substance cavity may be divided into multiple tments. Likewise, the capsule cavity/cavities may be filled with different substances and different types of substances for different applications, such as powders, granules, gels, liquids or other formulations. In a further aspect the capsule of this technology may be varied by the material that it is ed of. For environmental s the capsule may preferably be molded from a paper material or other wood fiber material, but may naturally also be molded from a degradeable plastic material Although the technology has been described and illustrated with specific reference to an application for a tree trunk or stump, it shall in no way be restricted to such applications, as indicated above. The basic principles of thereof may be applied to treat other porous elements by impregnation, dying etc.

The present logy has been bed in connection with embodiments that are to be regarded as illustrative examples thereof. It will be understood by those skilled in the art that the present technology is not limited to the disclosed embodiments but is intended to cover various modifications and equivalent arrangements. The present technology likewise covers any feasible combination of features described and illustrated . The scope of the present technology is defined by the appended claims.

PATENT

Claims (11)

1. A capsule for insertion into a bore of a porous element to apply treatment substance to the interior of the element, and having a container, with at least one internal cavity for receiving treatment substance therein, a first releasably closed insertion end and an outer stop flange, and a plug received in and fixed to the container through a common interconnecting land, wherein a first container shank portion extending from the first insertion end of the capsule and up to the area of the inter-connecting land has a uniform generally cylindrical shape, and a second container shank portion extending away from said first container shank n, from the area of the interconnecting land towards the outer stop flange, at least at an inner e thereof has an outwardly slightly diverging, conical shape and at an outer surface f, separated a short distance from the outer stop flange, has a first circumferential beveled edge g as a transition to an outer increased diameter section.

2. A capsule according to claim 1, wherein the plug has the shape of a generally straight er from an at least partially open top portion of the plug and down to the area of the interconnecting land leaving a downwardly tapering space n an outer surface of the plug and the inner surface of the second container shank portion.

3. A capsule according to claim 1 or 2, wherein a second circumferential beveled edge is provided at the first container shank portion at a on close to the area of the interconnecting land and serving as a transition to the second container shank portion.

4. A capsule according to any one of claims 1-3, n the container up to the second d edge has an outer diameter that is slightly smaller than the diameter of the bore of the porous element, and past the second beveled edge and up to the first beveled edge has an outer diameter that is essentially the same as the diameter of the bore of the porous element.

5. A capsule according to any one of claims 1-4, wherein the container past the first beveled edge has an outer diameter slightly ing the diameter of the bore of the porous element.

6. A capsule according to any one of claims 1-5, for use with a bore of the porous element having a diameter of approximately 10 mm, wherein an outer diameter of the first container shank portion at least at the first insertion end is approximately 9 mm, that an increase of the container outer diameter at the second beveled edge is in the order of 1 mm and that an increase of the container outer diameter at the first beveled edge is in the order of 0.2-0.3 mm.

7. A capsule according to any one of claims 1-6, n the ner is initially closed at the first insertion end by a bottom wall that is releasably attached to the container at said first insertion end and that the bottom wall is releasably received in an inner circumferential groove of the container or is alternatively adhered to the first insertion end .

8. A capsule according to any one of claims 1-7, wherein a central piercing or ng member is provided in the inner cavity of the container, extending along a major portion of the cavity and is formed integral with a bottom wall of the plug.

9. A capsule according to any one of claims 1-8, wherein the outer stop flange that has a uniform shape around the entire container or alternatively, at regular intervals around the container has upper, individual strengthening beads is ed at an upper end of the second container shank portion connecting to the outer increased er section.

10. A method of applying treatment substance to the interior of a porous element comprising the steps of: - providing a treatment substance capsule including a container having a releasably closed end, an internal cavity, treatment nce disposed in said internal cavity, and a plug fitted in said container to retain said treatment substance in the internal - forming at least one bore into the interior of said element; - inserting the e into said bore, and - applying driving force to said plug to move it into the cavity, causing the releasably closed end of the container to open, thereby releasing treatment nce from said internal cavity by permitting it to pass from said internal cavity and into said bore; characterized by: - first inserting the capsule with said closed end and a first container shank portion into the bore, acting as a guide; - then driving the capsule with the plug further into the bore so that a second container shank portion of the container fits snugly in the bore; - said second container shank portion at least at an inner surface having an dly ly diverging, conical shape and at an outer surface, separated from an outer stop flange, having a first circum-ferential beveled edge serving as a transition to an outer increased diameter section, so that the container past the first circumferential beveled edge has an outer diameter ing the er of the bore; and - then driving the capsule with the plug further into the bore so that the outer section of the container enters the bore, thereby causing the outer increased diameter section and the outer stop flange to be rotated inwardly towards the plug to seal any gap there between.

11. A method according to claim 10, characterized by ued application of driving force to the plug, finally causing a common interconnecting land, by which the plug is fixed to the container, to break, by further pushing the plug into the container cavity to cause a central piercing or ng member to pierce or eject a releasable bottom wall from the capsule, whereby further pushing of the plug will force treatment substance out from the container cavity with the outer stop flange still ining the capsule in position through its engagement with the porous element. WO 65277 m w ‘V 4 .‘---~all 07"i---‘ 4A ‘5‘illfl. “3 a‘\ §WN‘NE‘ . u5 _ E‘EI‘