INTRA-002 A DEVICE FOR INTERMITTENT MOUNTING TO A BORE IN BONE FOR USE IN SURGICAL PROCEDURES CROSS REFERENCE TO RELATED APPLICATION [0001] This application claims priority from U.S. provisional application number 63/413,026 filed October 4, 2022, the disclosure of which is hereby incorporated herein by reference. TECHNICAL FIELD [0002] The present disclosure relates to an intermittent mounting device that may disposed within bone and used in surgical procedures and applications thereof. [0003] The present disclosure also relates to a removable mounting device for holding surgical instruments, tools and/or accessories without using of bone screws. BACKGROUND [0004] The emergence of modern neurosurgical procedures as well as other surgical and non-surgical procedures, a need has increased to mount devices on the patient’s bone structure such as skull and other bone structures. Different biomedical devices and surgical instruments have been developed to better serve the medical practice that utilize and need such a mounting device The current technology, however, are not considered entirely optimal by medical practitioners, neurosurgeons, and the like. Typically bone screws are used to hold the fixture device in place. [0005] There are many issues with these screws including the difficulty handling such small screws by the medical professional, difficultly removing the device in case replacement is needed, and the exposure to infections and other unwanted consequences and maladies. Indeed, if the device needs to be quickly removed, the medical practitioner must unscrew all the inserted screws in the bone structure. If the device needs to be remounted the bone is already compromised by the previous holes causes by the prior screw insertions. A better device that meets safety and functionality criteria is still demanded. [0006] Screws, rods, or other implants used during orthopedic surgery, for example, to mount a fixture, can cause infection. One of the causes of such infection and failure can be attributed to allergic reactions to titanium. Titanium is typically used for the bone screws to hold a fixture in place. The insertion of the bone screws for example in the skull during neurosurgery may expose the patient to an allergen. INTRA-002 [0007] In the past, there have been reports of hypersensitive reactions such as erythema, urticaria, eczema, swelling, pain, necrosis, and bone loss due to titanium insertion. [0008] In addition, osteoporosis is a common condition in patients of advanced age, especially in women. The most recent comprehensive report on osteoporosis in the European Union describes it as “characterized by reduced bone mass and disruption of bone microarchitecture, resulting in increased bone fragility and increased fracture risk. Approximately 6% of men and 21% of women aged 50-84 years have osteoporosis affecting 27.6 million people in the EU in 2010. Diminished bone quality impairs bone screw insertion or purchase, which may lead to loosening and its sequelae, in the worst case, breakage of the bone area that the screw has been inserted into to secure the fixture in place. [0009] Numerous attempts have been made to overcome problems with screw fixation in compromised bone quality. These include modified designs such as conical screws, special thread geometries, expandable screws, cross-linked constructs, and screw coatings, and alternative materials for screws such as composite or polymer based screws. Alternatively, surgical techniques have been modified to avoid unwanted consequence even though this is not commonly done. However these prior attempts have still failed in the case of osteoporosis where the surface of the bone is brittle and bone fragility and fracture risk are increased. [0010] Therefore, an alternative securing device has great importance. There is a need for an improved device that may mount over a bone structure and void the above disadvantages. SUMMARY [0011] Compared to the above prior attempts, the present disclosure fulfills the above criteria and provides additional benefits that state of the art systems cannot provide. Disclosed and described is a fixture device that secures inside a bone bore. Once the initial ole is mad in the bone for a medical procedure, no screws are needed to secure the fixture device over the bone. The fixture device may be used to hold surgical instructed, imaging devices, tools, and other accessories depending on the procedure. The novel holding mechanism to hold onto the inside of a bore, for example in a skull or bone, may be easily and quickly secured and removed. The novel holding mechanism allows intermittent holding of the device with compromising the securing bone structure by crewing and unscrewing in bone structure. INTRA-002 [0012] The device for intermittent mounting of tools, equipment, and/or accessories to a cylindrical bore in bone for use in surgical applications has several embodiments as further discussed herein. Rigid fixation to bone is a common requirement for surgical procedures for placement of tools, monitoring systems, positional systems, or used as fiducial markers and the present invention accomplishes this fixation without any of the drawbacks of screws or other prior attempts to provide a rigid fixation to bone. BRIEF DESCRIPTION OF THE DRAWINGS [0013] To assist those of skill in the art in making and using the disclosed composition and method, reference is made to the accompanying figures, wherein: [0014] Figures 1A-1B illustrate one embodiment of the present invention that utilizes a dove tail threaded slide and sliding tooth to mount the device inside a bone bore; [0015] Figures 2A-2B show an illustrative design of one embodiment of the present invention that utilizes a retractor mechanism and four feet or protrusions to mount the device inside a bone bore; [0016] Figure 3A-3B show an illustrative design of one embodiment of the present invention that utilizes a set screw mechanism and two feet or protrusions to mount the device inside a bone bore; [0017] Figure 4 shows an illustrative design of one embodiment of the present invention that utilizes a notch mechanism and two feet or protrusions to mount the device inside a bone bore; and [0018] Figures 5A-10 show various embodiments based on Figures 1A-4; and [0019] Figures 11-13 show various embodiments for the feet and teeth used in the present invention. DETAILED DESCRIPTION [0020] The invention includes, according to certain embodiments, systems and processes relates to a fixation device used in medical procedures. [0021] Disclosed is a device for intermittent mounting of tools, equipment, and/or accessories to a cylindrical bore in bone for use in surgical applications. Rigid fixation to bone is a common requirement for surgical procedures for placement of tools, monitoring systems, positional systems, or used as fiducial markers. [0022] Similar devices are commonly and almost exclusively fastened to a bore or hole through the uses of bone screws in the outer table. Insertion and removal of small bone INTRA-002 screws by hand can be tedious and time consuming, particularly for applications where the device is not for use as an implant and only intended to be used intraoperatively. This device does not utilize screws and achieves stability via applying force to the inner wall of the bore and is therefore faster, easier to use, and less user dependent. The device facilitates fast, easy anchoring system for use with other devices that require rigid fixation to bone. [0023] Device Description: [0024] A device for intermittent mounting of tools, equipment, and/or accessories to a cylindrical bore in bone for use in surgical applications. Rigid fixation to bone is a common requirement for surgical procedures for placement of tools, monitoring systems, positional systems, or used as fiducial markers. [0025] Advantages: [0026] Similar devices are commonly and almost exclusively fastened to a bore or hole through the uses of bone screws in the outer table. Insertion and removal of small bone screws by hand can be tedious and time consuming, particularly for applications where the device is not for use as an implant and only intended to be used intraoperatively. This device does not utilize screws and achieves stability via applying force to the inner wall of the bore and is therefore faster, easier to use, and less user dependent. The device facilitates fast, easy anchoring system for use with other devices that require rigid fixation to bone. [0027] There are 4 concepts, each with unique features for this application. [0028] Concept 1:‘Dove Tail’ Figures 1A-1B [0029] 1)Male Dove Tail Threaded Slide – male portion of dove tail feature, contains thread for actuation via screw [0030] 2)Sliding tooth – tooth attached to male dove tail feature (1) [0031] 3)Fixed tooth – tooth attached to main body of anchor [0032] 4)Driver guide – thru hole to position driver on same axis as screw (5) [0033] 5)Screw – LH thread (CCW) to provide user consistent with RH tightening nomenclature. Turning the driver to the right (CW) applies force to the burr hole (“tightening”) [0034] 6)Annular body – allows for generic mounting of accessories and tools [0035] 7)Female dove tail feature – retains male dove tail feature and allows for screw to be aligned with the direction of the dove tail cut [0036] 8)Driver – device is to be used with a standard driver [0037] Concept 2 Figures 2A-2B Retractors [0038] 100)Tooth body A INTRA-002 [0039] 101)Retractor A tooth member [0040] 102)Retractor pivot pin [0041] 103)Retractor B leg member – retains screw for tensioning [0042] 104)Tensioning screw – tightening screw opens retractor teeth to apply force to inner wall of burr hole. [0043] 105)Retractor A leg member – contains thread for screw for tensioning [0044] 106)Spreader Ring – (110) pushes ring in opposite direction, applying force to Tooth Body B [0045] 107)Alignment pins – keeps rings aligned in direction of force [0046] 108)Retractor B tooth member [0047] 109)Annular Body [0048] 110)Set screw – when tightened, applies force on (106) [0049] 111)Tooth A [0050] 112)Tooth B [0051] 113)Tooth Body B [0052] 114)Ring force application dimple – dimple feature to focus force on side wall of tooth body B [0053] 115)Angle undercut groove – groove allows tooth bodies A and B to be constrained along the direction of force applied by the ring. It also provides rigidity to the annular body such that when the system is under tension (ring force applied, teeth apply pressure to bone), all components are fully constrained to provide rigid fixation. [0054] 116)Stabilizing feature for tooth body – mates into (115) when system is under tension [0055] 117)Deforming hinge – body is intended to flex to allow separation between tooth body A (100) and B (113) as set screw (11) applies force to ring (106) [0056] Concept 3:‘Ring’ Ring concept is identical to the ‘Retractor’ concept but without the tractor features. Figures 3A-3B [0057] Concept 4: ‘Notch’ Figure 4 [0058] 200)Notch – a notch is form between two slot shaped cuts in the main annular body [0059] 201)Rigid annular body – stiffness is such that when system is under tension, the top surface of the annular body remains parallel with (211) [0060] 202)Vertical axis – this axis is parallel to the hole in bone [0061] 203)Tensioning screw A INTRA-002 [0062] 204)Tensioning screw B [0063] 205)Deforming Body A – body with tooth bends around the notch (200) to get closer the screw head. [0064] 206)Tooth A – too expands tangentially about notch center along (210). The tooth is able to ‘pull’ the anchor assembly against bone due to the direction of applied force through the teeth into the wall of the hole in bone [0065] 207)Deflecting annular body – this portion of the annular body deforms when both screws are tensioned. [0066] 208)Tooth B – same action as tooth A [0067] 209)Deforming body B - body with tooth bends around the notch (200) to get closer the screw head. [0068] 210)Teeth expansion path – as the screws are tensioned, the teeth are expanded in about the notch in the direction of the circular path [0069] Figures 10-13 illustrate geometry for the teeth used in the present invention. The particular geometry of the teeth and feet portions are important to the invention as both assist with holding the device in place flat on the patient. [0070] Any headings and sub-headings utilized in this description are not meant to limit the embodiments described thereunder. Features of various embodiments described herein may be utilized with other embodiments even if not described under a specific heading for that embodiment. [0071] Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims. [0072] While exemplary embodiments have been described herein, it is expressly noted that these embodiments should not be construed as limiting, but rather that additions and modifications to what is expressly described herein also are included within the scope of the invention. Moreover, it is to be understood that the features of the various embodiments described herein are not mutually exclusive and can exist in various combinations and permutations, even if such combinations or permutations are not made express herein, without departing from the spirit and scope of the invention.