US2542674A

US2542674A - Parallel screw clamp

Info

Publication number: US2542674A
Application number: US754834A
Authority: US
Inventors: Malcolm I Hill
Original assignee: GEORGE R BARKSDALE
Current assignee: GEORGE R BARKSDALE
Priority date: 1947-06-16
Filing date: 1947-06-16
Publication date: 1951-02-20
Anticipated expiration: 1968-02-20

Description

M. I. HILL PARALLEL SCREW CLAMP Filed June 16, 1947 Feb. 20, 1951 INVENTOR.

MHLCOLM I. IIILL Patented Feb. 20, 1951 PARALLEL SCREW Malcolm I. Hill, Southern Pines,-'N. 6., assignor of one-half to George R. Barksdale, Troy, N. G.

Application-lune 16, 1947;, Serial No. 754,834

3 Claims. 1 My invention relates to clamps of the type in which two parallel jaws are moved toward and away from each other by two screws one of which is journaled to turn freely inan opening in onejaw and is threaded through an opening in the second jaw and the other screw being threaded through the second jaw and. is positioned to thrust against thefirst jaw. Clamps of this type are used by drawing the jaws together upon the object to be held'by turning the first screw which is positioned ashort distance from the gripping ends of the jaws and then .tightening. the second screw to spread the rear ends of thejaws apart and thus bring the gripping ends into tighter engagement with the object.

It is customary in clamps of this type to position the handles or heads of the screws on opposite sides of the clamp, that is, one jaw of the clamp contains two threaded openings while the other jaw has one bearing opening in. which the front screw is journaled and also a bearing socket for the end of the rear screw.

This type of construction has two objections: first, with the screw heads on opposite sides of the clamp, it is awkward to operate the screws with one hand while holding the work piece and clamp with the other, and, secondly, in-opening up the clamp, the rear screw frequently comes out of the socket on the opposite jaw, thus leaving the two jaws to swing about the front screw, and there is nothing to hold them in parallel relation.

An object of my invention is to provide a clamp which is more convenient to use than the clamps heretofore available, in that I arrange the two screws with the heads on the same side of the clamp.

Another object of my invention is to provide a clamp having a guide member which maintains the two jaws in parallel relation for all adjustments.

Still another object of my invention is to devise a form of clamp in which neither screw extends through one of the jaws.

Two forms of the invention are illustrated in the accompanying drawing in which Figure 1 is a plan view of a clamp in which the front screw has threaded engagement with the left-hand jaw and is journaled in the righthand jaw;

Figure 2 is a plan view on a smaller scale of another form of my clamp in which the front screw has a left-hand thread, is journaled in the left-hand jaw and has threaded engagement with the right-hand jaw; and

Figure .3 is a sectional. view of a portion of the left jaw of Figure 2 showing. the manner in which the front screw .is journaled in that jaw.

In Figure I of the drawing l and 2 are the left and right jaws, respectively; and 3 and 4 are the front and rear clamping screws, respectively, having heads 3a and-ta. Jaw I has a front internally threaded opening 5 for the screw 3:, and jaw 2 has a front smooth opening 6 for the screw 3} The head of screw 3 is grooved at 311 to provide a narrow flange .1 which. cooperates withthe arm 8 on .the jaw Z- to permit screw '3 to rotate with respect .to jaw 2 but holds it in fixed position, longitudinally, with respect to jaw 2. If desired, screw '3- may be provided with the usual handle ilflfor rotating it,

Screw 4 is provided with a smooth, cylindrical axial bore l0 formed substantially throughout the threaded part of the screw. A guide rod l I' is secured to thej'aw -I in an opening I 2 formed coaxially with screw 4 and extends into bore ill of screw t forsubstantially the entire lengthv of the bore. Screw 4' has threaded engagement with internally threaded opening l3 in the jaw 2' and may have a handle M for turning it. The heads of' the two screws are located on the same side of .the clamp.

The clamp of Figure l .is operated as follows: The article to be clamped may be held in one hand, e. g., the left hand, and the clamp held and operated by the other hand. The clampis first set to the approximate size of the article to be clamped by turning the

screws

3 and 4. Jaws I and 2 remain practically parallel; The guide'rod ll slides in or out of the bore Ill as the screw 4 is moved endwise with respect to jaws I and 2. The article to be clamped is then inserted between the upper ends of the jaws and the jaws tightened on the article by turning the screw 3. Finally, screw 4 is turned so that its left-hand end pushes against jaw l. Due to the fact that the rod ll fits more or less loosely in the bore I0 and the fact that the rod l l is slightly flexible, pressure of the screw 4 against the jaw l spreads the lower ends of the jaws slightly and correspondingly tightens the upper ends of the jaws on the article.

It will be noted that in Figure 1 the front screw 3 has threaded engagement with the left jaw and extends through that jaw to a varying extent depending on the size of the article being clamped. In Figure 2 I have illustrated a form of clamp in which the front screw does not extend through the left jaw but the end of the screw is journaled for free turning in the left jaw and is held against axial movement, while the screw has threaded engagement with the right jaw. In order that the front screw shall be turned in the same direction for closing the clamp, it is provided with left-hand threads instead of righthand threads as in the case of Figure 1. Except for these differences, the clamp shown in Figure 2 is the same as described above for Figure 1.

The manner in which the end of the front screw 3 is journaled in the left jaw l is clearly illustrated in Figure 3 which is a sectional view of that part of jaw l in which the screw is journaled. As will be seen, the screw 3-is provided with an enlarged head 31: at its end positioned in a counterbore formed in the outside face of the jaw l. The head 32) is provided with a circular groove 31) extending entirely around its periphery, and this groove receives a locking pin l5 which passes through the jaw I from side to side and engages the groove 3b by a close fit permitting rotation of the screw without undue friction, but restraining the screw against axial movement thereof. The arrangement of the back screw 4 and the guide rod II in Figure 2 is the same as that already described above for Figure 1.

The operation of Figure 2 is as follows: The clamp and work-piece are handled in the same manner as described above for Figure 1. Turning screw 3 in a clockwise direction causes the jaw 2 to travel along the screw until the front end of the jaw comes into engagement with the work-piece. As the jaw 2 moves forward, it may be necessary to back off the screw 4 to allow the jaw 2 to approach the jaw I. As soon as the jaws have come in contact with the work-piece, the screw 4 is rotated in a clockwise direction to apply clamping pressure to the work-piece as previously described.

The advantage of the form of clamp shown in Figure 2 is that screw 3 does not extend through the jaw I and interfere with the left hand while holding the clamp and adjusting the Work-piece therein.

It will be appreciated that guide rod H is operative throughout the entire span of the clamp, that it does not add to the obstruction of the clamping surfaces of the jaws, and that it does not protrude through the jaw 2 when the clamp is closed or partly closed. Being enclosed within the bore ID in the screw 4, the guide rod does not detract in any way from the convenience and utility of the clamp.

I claim:

1. A screw clamp comprising a pair of parallel jaws, a front adjusting screw for exerting a clamping action on said jaws, a rear adjusting screw having threaded engagement with the rear end portion of one of said jaws and having the threaded end thereof arranged to exert a thrust on the rear end portion of the other jaw, said rear adjusting screw having a central bore formed therein substantially throughout the threaded portion thereof, a guide rod positioned within said bore and having one end thereof rigidly secured to the rear end portion of said other jaw, said guide rod having a length substantially equal to the length of the threaded portion of said rear screw and being freely slidable in said bore to maintain said jaws in substantially parallel relation for different spacing adjustments of said jaws.

2 A screwclamp according to claim 1 in which said front adjusting screw has screw threaded engagement with said other jaw, and is journaled in said one jaw for free turning movement, and including means for holding said front screw against axial movement with respect to said one aw.

3. A screw clamp according to claim 1 in which said front adjusting screw has screw threaded engagement with said one jaw, and is journaled in said other jaw for free turning movement, and including means for holding said front screw against axial movement with respect to said other aw.

MALCOLM I. HILL.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 178,022 Neuman May 30, 1876 1,039,831 Sisson Oct. 1, 1912 1,084,130 Cargin Jan. 13, 1914 1,381,351 Shaw et al. June 14, 1921 1,428,608 Parker Sept. 12, 1922 1,561,359 Schleicher Nov. 10, 1925 2,320,606 Jesionowski June 1, 1943 2,349,087 Fraser May 16, 1944