The invention relates to a force sensor, particularly suitable for use in a temporary hip joint implant in order to measure the forces acting on the artificial hip joint and to use this information to improve the characteristics of a definite hip joint after implementation into the patient.
A problem with known force sensors that are particularly used for measuring the forces acting on an artificial hip joint is that strain gauges cannot be used in view of its requirement to be integrally construed with the hip joint, which hinders its application because cleaning and sterilization is virtually impossible without damaging the construction of the force sensor.
It is an object of the invention to provide a solution for this problem and to answer the need for a reliable force sensor with which the forces acting on an artificial hip joint can be measured. Eventually this leads to better solutions for the patient when he or she is provided with an artificial hip joint that is optimized in terms of its placement and its interference with the bones of the patient.
US-B1-10,486,314; US2006/0213287; CN-A-104568279; DE 10 2017 218 033 A1; US2014/0041461; and US2019/0025143 each disclose a force sensor which comprises a base, a table with legs mounted on the base and said table being movable with respect to the base by a force applied to the table, wherein the force sensor is further equipped with a measuring instrument or instruments for measuring a deflection of one or more of the legs, which deflection represents a measure of said force applied to the table.
Note that any reference to other references herein is given for more complete background and is not to be construed as an admission that such publications are prior art for patentability determination purposes.
A force sensor according to an embodiment of the present invention has the features of one or more of the appended claims.
Each leg of a force sensor according to an embodiment of the present invention is preferably connected to the base and is connected to the table, wherein there is a distance between the base and the table, and wherein each leg comprises a relatively thick portion and a relatively thin portion, wherein the relatively thick portion is fixed to the base and the relatively thin portion is fixed to the table, without the thick portion engaging the table and without the thin portion engaging the base, and wherein the thick portion and the thin portion are essentially parallel to each other, such that both the thick portion and the thin portion substantially span the distance between the base and the table, and that the thin portion comprises two parallel parts, a first part connected to the table and having a first extremity distant from the table, and a second part connected to the thick portion proximate to the table and provided with a second extremity distant from the table, which first extremity and second extremity merge into each other so as to arrange that a movement of the table with respect to the base that results in a corresponding movement of the first part of the thin portion that connects to the table, translates into an enlarged movement of the first extremity and second extremity that are merged into each other distant from the table.
To say it short, a relatively small movement of the table is thus amplified into a relatively large movement at the first and second extremities that are merged into each other distant from the table. This provides a very effective means for measuring the displacement of the table which is representative of the force that is applied to the table. Accordingly it is preferred that the measuring instrument or instruments are arranged to measure a displacement of the first extremity and second extremity that are merged into each other distant from the table.
Preferably the force sensor has three legs with which the table is mounted on the base, to provide the force sensor with three degrees of freedom for measuring.
Within the scope of the invention, several types of measuring instruments can be used in the force sensor. In one embodiment the measuring instrument or instruments comprise an optical displacement sensor or sensors. In another embodiment the measuring instrument or instruments comprise a Hall effect sensor or sensors for measuring a displacement of the first extremity and second extremity that are merged into each other distant from the table. In that embodiment it is preferred that the measuring instrument or instruments comprise a magnet or magnets mounted on the thin portion of the leg, preferably on the first extremity and/or second extremity that are merged into each other distant from the table.
One of the benefits of the force sensor according to an embodiment of the present invention is that it is possible to arrange that the measuring instrument or instruments are dismountable from the force sensor to enable cleaning and/or sterilization of the respective parts of the force sensor.
Another benefit of the force sensor according to an embodiment of the present invention is that it is not costly to manufacture, particularly when at least one of the base, the table and the legs is made from stainless steel.
In a suitable embodiment, the table connects to a ball of a hip joint implant. This opens the way to a use of the force sensor according to an embodiment of the present invention in a hip joint implant of a patient for measuring forces acting on the hip joint implant during movement of the patient.
Objects, advantages and novel features, and further scope of applicability of the present invention will be set forth in part in the detailed description to follow, taken in conjunction with the accompanying drawings, and in part will become apparent to those skilled in the art upon examination of the following, or may be learned by practice of the invention. The objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.
The accompanying drawings, which are incorporated into and form a part of the specification, illustrate one or more embodiments of the present invention and, together with the description, serve to explain the principles of the invention. The drawings are only for the purpose of illustrating one or more embodiments of the invention and are not to be construed as limiting the invention. In the drawings:
Whenever in the figures the same reference numerals are applied, these numerals refer to the same parts.
Making first reference to
Further there is a measuring instrument or there are measuring instruments 6, 7 for measuring a deflection of one or more of legs 4, which deflection ultimately is representative for said force FX, FY, Fz that is applied —indirectly- to table 3 through ball head 5. It is possible to apply optical instruments for the measurement of said displacement, but it is preferred to apply a Hall effect sensor or sensors 6 that cooperate with magnets 7 for measuring a displacement of legs 4. Magnets 7 are placed on legs 4, and Hall effect sensors 6 are stationary provided on base 2. To achieve best results magnets 7 are mounted on a thin portion 4″ of legs 4, preferably on first extremity 8′ and/or second extremity 9′ that are merged into each other distant from table 3 as will be discussed in the next paragraphs.
Specifically with reference to
The difference between the construction of
The elucidation of the previous paragraphs also applies to the 2D representation of
It is further preferred that at least one of base 2, table 3 and legs 4 is made from stainless steel. This reduces manufacturing costs.
Preferably ball head 5 that connects to table 2 of force sensor 1 is a ball of a hip joint implant. Accordingly, force sensor 1 can suitably be used in a hip joint implant of a patient for measuring forces acting on the hip joint implant during movement of the patient.
Although the invention has been discussed in the foregoing with reference to an exemplary embodiment of the force sensor of the invention, the invention is not restricted to this particular embodiment which can be varied in many ways without departing from the invention. The discussed exemplary embodiment shall therefore not be used to construe the appended claims strictly in accordance therewith. On the contrary the embodiment is merely intended to explain the wording of the appended claims without intent to limit the claims to this exemplary embodiment. The scope of protection of the invention shall therefore be construed in accordance with the appended claims only, wherein a possible ambiguity in the wording of the claims shall be resolved using this exemplary embodiment.
Embodiments of the present invention can include every combination of features that are disclosed herein independently from each other. Although the invention has been described in detail with particular reference to the disclosed embodiments, other embodiments can achieve the same results. Variations and modifications of the present invention will be obvious to those skilled in the art and it is intended to cover in the appended claims all such modifications and equivalents. The entire disclosures of all references, applications, patents, and publications cited above are hereby incorporated by reference. Unless specifically stated as being “essential” above, none of the various components or the interrelationship thereof are essential to the operation of the invention. Rather, desirable results can be achieved by substituting various components and/or reconfiguration of their relationships with one another.
Number | Date | Country | Kind |
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2024695 | Jan 2020 | NL | national |
This application is a continuation of International Patent Application No. PCT/NL2020/050784, titled “Force Sensor”, filed on Dec. 14, 2020, which claims priority to and the benefit of Netherland Patent Application No. 2024695, titled “Force Sensor”, filed on Jan. 17, 2020, and the specification and claims thereof are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/NL2020/050784 | Dec 2020 | US |
Child | 17866982 | US |