1. Field of the Invention
The present invention relates to chemical reactor clamps that are used in bench-type research and development, chemistry, physics, earth sciences, engineering and process industries, pharmaceutical, biochemical and biological and other scientific endeavors. The present invention clamps are diverse and secure and provide for insertion, locking, unlocking and removal of clamp rods that act as clamp supports, as well as stabilizers for reactors in the clamps. The rod also becomes the pivot point for rotation of the clamp (and the reactor it is holding), due to the relationship between the clamp and the clamp rod. Further, the a rod and clamp may be connected to rod support unit to create a present invention system, and the system may be enhanced to provide multiple degrees of freedom of movement of the reactor clamp and any reactor that it may hold.
2. Information Disclosure Statement
The following patents show some typical and unusual state of the art clamps for glassware:
U.S. Pat. No. 3,222,020 issued to Herman K. Rea describes an apparatus for holding a nursing bottle comprising a knock down supporting frame including (a) a pair of detachable L-shaped base members, each having a socket at the end of one of the legs, (b) a pair of L-shaped bridge members, the ends of said bridge members being tapered, one end of each bridge member being received within a cooperating socket of a base member, (c) a bridge bushing having cavities for receiving the other ends of said bridge members, said bushing being rotatable with respect to said bridge members, (d) an adjustable supporting arm slidably and rotatably mounted in said busing and mounted transversely of said bridge members, and (e) a flexible bottle supporting clamp mounted adjacent one end of said supporting arm.
U.S. Pat. No. 3,905,570 issued to Aril J. Nienwveld describes a resilient fastening device mountable simply by being thrust into a hole of appropriate size, and preferably made as a unitary molding of a synthetic resin such as a polyamide resin, comprises a head and a plurality of substantially parallel resilient legs spaced apart on and projecting for the head. Each leg has outward protrusions preferably formed by leg segments of approximately semi-frusto-conical shape, the outer edges of which normally extend beyond the hole diameter but can be fitted into the hole when the legs are pressed together as by being forced into the hole, whereupon the protrusions press outwardly against the wall of the hole even if it is irregular in diameter. The head of the device may comprise an article-retaining portion such as a resilient clip for a tool or like article, or a split circular clamp for a wire, cable, pipe, or like object. A dual purpose form of the device has a backward section of each leg composed of several protrusion forming segments connected through a narrower intermediate segment with a forward section composed of a first protrusion forming segment connected with the head through a neck segment. Upon removal of the backward leg sections by severance of the intermediate segments, the remnant device is readily mountable in a shallow hole by forcing the first set of protrusions through the hole.
U.S. Pat. No. 4,787,591 issued to Gilberto M. Villacorta describes a simple inexpensive clamp comprised of a flexible “C”-shaped, fixed-diameter clamping means, a rigid support member, and a “C”-shaped anchoring means whose overall design and construction allows the user to fasten, secure, and release objects quickly and easily with a minimum level of dexterity.
U.S. Pat. No. 5,624,638 issued to David F. Negrotti describes a personal, miniaturized, multipurpose test kit for performing a plurality of chemical tests and procedures, which include interchangeable multifunctional elements connecting adapted for arrangement of multiple test configurations including a parable container, at least one component body element adapted for providing a reactor reservoir, at least one access cap, a coupling device for coupling multiple components, fasteners typically pop in-pop out fastening devices all constructed of impact proof, damage resistant material, adapted to perform experiments using small amounts of solvents and samples while preserving the accuracy precision and manual control, wherein a plurality of test modules may be rapidly selectively set up to conduct a plurality of procedures and tests including pressure-volume, titration, precipitation, density, electro-chemistry, (galvanic or voltaic), chromatography, viscosity, diffusion wherein liquid or gas, molecular weights, melting points, boiling points, thermodynamics, solid gas and/or liquid reactions in static or flowing streams. Further including the method for connecting the elements of the test kit to provide for arrangement of multiple test configurations. Included in the test kit is a solvent dispenser, a minitrator dispensing element with a pop-in pop-out fastening technology, and array of components employing a unique o-ring seat and seal apparatus, employed in cooperation with reactor caps and tube joints.
U.S. Pat. No. 6,585,207 issued to Scott Alan Ibbitson et al. describes an adjustable clamp holder having multiple securing mechanisms for each attachment structure of the clamp body is disclosed. The clamp has utility in fastening together support rods and supporting an apparatus or laboratory equipment. The clamp holder obviates the limited securing capabilities and safety concerns associated with previously known clamp devices.
Notwithstanding the prior art, the present invention is neither taught nor rendered obvious thereby.
The present invention is a chemical reactor clamp for supporting a glassware or equivalent chemical reactor having a neck. The present invention clamp includes: (a) a central housing; (b) a spring-biased yoke connected to the central housing and extending outwardly therefrom for a attachment to the reactor neck; (c) a female socket on the central housing and adapted to receive a clamp rod; and, (d) a clamp rod locking mechanism on the central housing at the female socket.
In some embodiments, the clamp rod locking mechanism includes a wide socket slot located in the female socket to receive a rod with a wide end (being wider than the typical thickness of the rod), and further includes a sliding cover to lock a rod into the slot. In some preferred embodiments, the sliding cover has an unlock position and a lock position, and the sliding cover is biased to its lock position by a biasing means connected to the cover and to the central housing. The biasing means may be any means that will push the cover to its locked position, such as a leaf spring, a coil, a living plastic separate or molded in place spring.
In some preferred embodiments of the present invention chemical reactor clamp, the spring biased yoke is made of a resilient material and acts as its own spring. Preferably, the spring biased yoke is a resilient metal strip having an open end and opposing arc sections for clamping to opposing sections of a chemical reactor neck.
The present invention is also directed to a combination of chemical reactor clamp and rod for supporting a glassware reactor or equivalent chemical reactor having a neck. This combination includes the clamp described above, and a rod for connection to the clamp, the rod being elongated with a central portion, a first end and an opposing second end, wherein the first end is wider than the central portion and is adapted to fit into the female socket. In some embodiments, the rod has a central portion with a predetermined thickness and the first end has a thickness greater than the central portion predetermined thickness. The rod could have any cross-sectional shape, but is preferably cylindrical and the central portion has a predetermined diameter and the first end has a diameter greater than the central portion diameter.
In another embodiment, the present invention is a chemical reactor clamp system for supporting a glassware reactor or equivalent chemical reactor having a neck. It includes the clamp described above, the rod described above, and a rod support unit, including a support housing and a rod keyhole adapted to receive the second end of the rod. The system may be further enhanced with additional components to provide multiple degrees of freedom of movement of the clamp and any reactor that it may hold, by proving a vertical secondary support rod and a secondary support base. This will enable a user to move a present invention clamp with a reactor up and down, and in and out, as well as to swing them along a horizontal arc and to rotate them about the horizontal rod to achieve any desired position and angle from the vertical axis.
The present invention should be more fully understood when the specification herein is taken in conjunction with the drawings appended hereto wherein:
Referring to
Clamp 321 has a central housing 323 with a circular arc sidewall 325 and a spring biased yoke 327 for attachment to a reactor. The clamp central housing 323 includes a rod rotation lock-unlock means 329 to permit and prevent rotation of clamp 321 relative to horizontal rod 303. Rod support unit 307 has a slide means for horizontal slide movement of rod 303. This slide means is a pass-through keyhole 309 to permit rod 303 (and clamp 321 attached to it at its opposite end) to move in and out of rod support unit 307. Unit 307 has a rod horizontal slide movement lock-unlock means, namely lock screw 311 to permit and prevent horizontal slide movement of rod 303 along the length of its flat 305.
Rod support unit 307 further includes a vertical support rod attachment means, (recess fittage on underside) for connection to vertical support rod 301. The attachment means on the underside is located about 90 degrees from keyhole 309.
The system 300's vertical support rod 301 is connected to rod support unit 307 at its top and to vertical support rod base 319 at its bottom. The vertical support rod 301 is rotatably connected to one of rod support unit 307 and vertical support rod base 319, preferably with lock-unlock means connected thereto to permit rotation and prevent rotation by locking and unlocking. In this case, most preferred is vertical support rod 301 being rotatably connected to vertical support rod base 319 in the vertical orifice 315 of chuck 313, with lock-unlock means 317 connected thereto to permit rotation and prevent rotation by locking and unlocking. The vertical support rod is also vertically slideably connected to vertical support rod base 319 because orifice 315 is through the chuck and base, with lock-unlock means 317 also being a slide lock-unlock means connected thereto to permit vertical sliding and prevent vertical sliding of vertical support rod 301 relative to base 319 by locking and unlocking. The system thereby provides the four degrees of freedom of movement of clamp 321 for horizontal axis rotation, horizontal axis slide, vertical axis rotation and vertical axis slide. As can now be seen, any number of degrees of freedom of movement may be created by a user to establish alternative present invention systems using various other arrangements with the foregoing components or multiples of the foregoing components.
Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. For example, although the rod support unit and vertical rod shown in