TWM303813U - Builders' tool - Google Patents

Description

M303813 . (1) VIII. New description [New technical field] This work is about a builder's tool, especially about a builder's tool for cutting bricks and tiles into specific angles. [Prior Art] During the construction of a building, builders usually need bricks that have been cut into non-standard sizes and shapes, such as arches on the terrace and architectural features of circular patterns, which require the use of a large number of identical trapezoids. Bricks. The standard method of cutting bricks into non-standard shapes requires the builder to measure the intersection of the edges of the new brick and the existing brick, draw a line corresponding to the new edge with a ruler, and then use the block and hammer to make the new brick. The block is cut into the desired shape and size. This process wastes time and duplication, especially when a large number of non-standard bricks are needed. The applicant's type of panel for cutting bricks and blocks is disclosed in the applicant's earlier patent No. 23 3 4783. However, the creations disclosed in this patent have successfully demonstrated certain limitations and are most noticeable in the tasks that the tool can perform. [New Content] This creative project offers a unique multi-functional builder tool that performs a variety of functions, including enabling bricks and tiles to be efficiently and accurately cut to the desired angle and shape. In one aspect, the creation provides a tool comprising four arms interconnected to define a quadrilateral, two of the four arms -4- M303813. (2). The two connected arms can only be rotated and adjusted. The connection between the two arms of the four arms is such that the two arms can only be adjusted in translation, and the other two connections between the arms enable the rotation of each connected arm. And pan adjustments. Preferably, the tool comprises at least one extension arm coupled to at least one of the four arms of the tool to provide an extension of the arm to which it is attached. Preferably, at least one of the arcuate arms is coupled to Between the two arms of the tool, the curved arm is provided with a scale, and the angle or orientation between the two arms can be calculated by the scale. Preferably, two arcuate arms juxtaposed and juxtaposed are provided. The arms can slide relative to one another to reveal the scale. Preferably, the adjustment can be made by a nut and bolt configuration. Preferably, the bolts are slidable along an elongated slot formed in one or more of the associated arms. [Embodiment] The present creation will now be described by way of example with reference to the accompanying drawings. Referring first to Figures 1, 2, the builder tool of the example comprises five arms 2, 4, 6, 8, 1 . Each arm is formed from a lightweight, flexible, but high strength material such as a nylon filled with glass. Other suitable plastic or metallic materials (such as aluminum or steel) may alternatively be used. The arms 2, 4, 6, 8, 1 are interconnected to define a quadrilateral. By way of example, each arm has a suitable width of 25 mm and a suitable thickness of 8 mm. As shown in Fig. 3, for the aesthetic appeal, it is also -5-M303813. Ο) - The strength is increased, and each arm has a beveled side. Each arm is formed with longitudinal grooves 2a, 4a, 6a, 8a, l〇a. Each arm 2, 4, 6, 8, l is provided with a progressive scale alongside the slots 2a, 4a, 6a, 8a, _, which is calibrated to, for example, a standard unit, or a standard brick size score Or both. The scale is preferably a material that is laser engraved or etched into the arm to resist wear and tear in the field conditions. Because of the tendency to the standards of the construction industry, each arm 2, 4, 6, 8, 10 is preferably yellow' and has a black scale. However, it is clear that other colors can also be used for the arm or scale. Figure 3 illustrates the first arm 2 of the tool. This arm 2 has a circular hole 12 formed near one end 13 thereof. The second arm 4 is coupled to the first arm 2 by the first connecting member 14a, which will be described in detail later. The connecting member 14a extends through the groove 4a of the second arm 4 and the hole 12 of the first arm 2, thereby allowing the first arm 2 and the second arm 4 to be adjusted relative to each other only in a relative rotation. The third arm 6 is connected to the first One arm 2 is on one side of the first connecting member 14a. The arms 2 and 6 are joined together by a second connecting member 14b which extends through the groove 2a of the first arm 2 and the groove 6a of the third arm 6. This connection allows the first arm 2 and the third arm 6 to be relatively rotatable and translationally adjustable relative to each other. The respective ends of the fourth arm 8 are connected to the second arm 4 and the third arm 6, respectively, by the third connecting member 14c and the fourth connecting member 14d. The third connecting member 14c extends through the slot 8a of the fourth arm 8 and the slot 4a of the second arm 4, which allows the first arm 2 and the fourth arm 8 to be relatively rotatable and translationally adjustable relative to each other. The fourth connecting member 14d extends through the slot 8a of the fourth arm 8 and the slot 6a of the third arm 6 M303813. (4) and passes through the first lands 16 between the third arm 6 and the fourth arm 8 (see Figure 4) Connection point. The shape of the disk 16 serves to prevent the third arm 6 and the fourth arm 8 from being rotationally adjusted relative to each other. Thus the integral connection only allows the third arm 6 and the fourth arm 8 to be translated relative to each other, in other words, the third arm 6 and the fourth arm 8 are always maintained at right angles to each other. The fifth arm 10 is connected to the second arm 4 by the fifth connecting member 14e, and the fifth connecting member 14e extends through the slot 10a of the fifth arm 10 and the #groove 4a of the second arm 4, and passes through the second The connection point of the second lands 18 (see Fig. 5) between the arm 4 and the fifth arm 10. The shape of the disk 18 is for preventing the second arm 4 and the fifth arm 1 〇 from being rotationally adjusted relative to each other. Thus the overall connection only allows the second arm 4 and the fifth arm 10 to be translated relative to each other, in other words, the second arm 4 and the fifth arm 1〇 are always on the same axis, so that the fifth arm 10 acts as the second arm 4 Extension when needed. More arms can be attached to either arm of the tool in the same manner to extend the size and potential use of the tool. The first disc 16 is illustrated in Figure 4 and includes a circular flat base 20 having a first projection 22 assembled or formed on a top surface thereof. The projection 22 is rectangular and extends laterally from the center of the base 20 to a point beyond its circumference. The width of the convex portion 22 corresponds to the width of the groove 8c of the fourth arm 8. During construction, the disk 16 is disposed below the arm 8 (between the arm 8 and the third arm 6) whereby the projection extends upwardly into the slot 8c. Therefore, the disk 16 can slide along the length of the groove 8c. The second protrusion is assembled or formed on the opposite side of the base 20, and the protrusion 24 is also rectangular and extends laterally from the center of the base 20 to a point M303813 beyond its circumference. (5) * and perpendicular to the first protrusion twenty two. The width of the projection 24 corresponds to the width of the groove 6c of the third arm 6. During construction, the disk 16 is disposed above the arm 6 (between the arm 6 and the fourth arm 8) whereby the projection 22 extends downwardly into the slot 6c. Therefore, the disk 16 can slide along the length of the groove 6c. The presence of the disk 16 prevents the third arm 6 and the fourth arm 8 from rotating relative to each other' but allows the arms to move relative to each other in either of the two directions. Φ The second disk W is illustrated in Figure 5 and includes a circular flat base 26 having a first projection 28 assembled or formed on a top surface thereof. The projection 28 is rectangular and extends laterally from the center of the base 26 to a point beyond its circumference. The width of the convex portion 28 corresponds to the width of the groove 4c of the second arm 4. During construction, the disc 18 is disposed below the arm 4 (between the arm 4 and the fifth arm 10) whereby the projection 28 extends upwardly into the slot 4c. Therefore, the disk 18 can slide along the length of the groove 4c. The second projection 30 is assembled or formed on the opposite side of the base 26, and the projection 30 is also rectangular in shape and extends laterally from the center of the base to a point beyond its circumference and along the same longitudinal direction as the first projection 28. Axis. The width of the convex portion 30 corresponds to the width of the groove 10c of the fifth arm 10. During construction, the disk 18 is disposed above the arm 10 (between the arm 10 and the second arm 4) whereby the projection extends downwardly into the slot 10c. Therefore, the disk 18 can slide along the length of the groove 10c. The presence of the disk 18 prevents the second arm 4 and the fifth arm 10 from rotating relative to each other' but allows the arms to move relative to each other in either of the two directions. Figures 6 and 7 illustrate connecting members 14a-e, each of which includes a screw -8 - (6) M303813 'cap portion 32 and a bolt portion (not shown). The nut portion 32 includes a gripping surface 34 and a circular recess 36 having internal threads for receiving the bolt portion. A bronze spacer 38 surrounds the entrance of the recess 36. The gripping surface 34 is generally hemispherical and has two recesses 40 to improve the ability of the user to grasp and rotate the nut portion 32. The bronze spacer 38 further improves the connection between the nut portion 32 and the bolt portion during use. By placing the arm (and the lands, if necessary) between the nut portion 32 of the connecting member and the bolt portion, and rotating the nut portion 3 2 until the two arms # are required along their slots The positions are fixed together and the connecting members 14a-e connect the arms together. The nut portion 32 can be loosened from the bolt portion by rotation to allow adjustment of the joint point of each of the binder arms. Adjusted by relative rotational motion, translational motion, or both. Figures 8 and 9 illustrate a level 40 that can be attached to the arm of the tool to allow the user to determine whether the arms are level or upright during use. Level 40 has a housing 42 that includes a downwardly extending projection 44 at each end. The projections 44 are generally rectangular in shape and have a width corresponding to the grooves 2a-l〇a of the arms 2-10. By pushing the projection 44 of the outer casing 42 into the groove 8a of the arm 8, the level 40 can be attached to a substantially horizontal arm of the tool (e.g., the fourth arm 8). Once attached, the level 40 can inform the user of the tool whether the arm 8 is true or not, and whether the third arm 6 is vertical by the connection between the fourth arm 8 and the third arm 6. Each side of the level 42 of the level has an arm 46 extending outwardly therefrom. Each arm 46 is terminated by a downwardly extending projection 46a, 46b, the width of which also corresponds to the width of the slot 2a-10a of the arm 2-10. Thus, by pushing the projection 46 of the outer casing 42 into the groove 4a of the arm 4 by means of (7) M303813 #, the level 40 can also be attached to the substantially vertical arm of the tool (e.g., the second arm 4). Once attached, the level 40 can inform the user of the tool whether the arm 4 is vertical or at a desired angle relative to the vertical. Of course, the tool can also use two level gauges to determine both horizontal and vertical directions. Alternatively, each arm can have its own level attached to it. # Referring now to Figure 10, the first accurately curved arm 48 is coupled to the first arm 2 of the tool by a sixth connecting member 14f. A second similar arcuate arm 50 is located above the first arcuate arm 48 and the second arcuate arm is coupled to the second arm 4 of the tool by a seventh connecting member i4g. Although not shown in Fig. 10, the first curved arm 48 is provided with an angular progressive scale that corresponds to the relative orientation between the first arm 2 and the second arm 4 of the tool. During use, when the second arm 4 pivots away from the first arm 2, the second (upper) curved arm 50 slides along the first (lower) curved arm 48, thereby being revealed by the first curved arm Azimuth on 48. Similarly, when the first arm 2 pivots away from the second arm 4, the first curved arm 48 slides under the second curved arm 50 to reveal the azimuth between the arms. When the arms 2, 4 have been moved relative to each other to a desired angle, the first connecting member 14a is locked to fix the arms 2 and 4 in this position. A method of using the tool of this creation will now be described. The bricks are measured and carefully confirmed, then the tool is placed on the bricks, the connecting members 14a-g are relaxed, and the arms 2-10a are adjacent to the newly cut edges of the bricks. The connecting members 14a-g are then locked to secure the tool to the desired shape. -10- M303813 (8) * Then move the tool away from the first brick and apply it to an uncut brick. The tools are placed on the bricks in the same relative position, using a marking device such as a pencil, markings on the surface of the bricks to be cut, and then cutting the bricks in a normal manner. The ability to ensure that all of the tool's arms are at precise angles and orientations allows the tool to be used as a form in many areas of the building. Accurate measurements and angles are important in these areas. The above-described embodiments are presented by way of example only, and those skilled in the art will naturally understand that many variations can be made to the examples without departing from the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a plan view of a builder tool constructed by the present invention; Figure 2 is a perspective view of the tool of Figure 1 without an extension arm; Figure 3 is an arm of the tool of Figures 1 and 2. Figure 4 is a perspective view of the lands of the tool of Figures 1 and 2; Figure 5 is a perspective view of another lands of the tool of Figures 1 and 2; Figure 6 is from Figures 1 and 2 Figure 7 is a side view of the fastening member of Figure 6; Figure 8 is a perspective view from above the leveling device suitable for use with the tool of Figures 1 and 2; Figure 9 Is a perspective view from below the leveling device of Figure 8; and Figure 10 is a perspective view of the angled display of the tool of Figures 1 and 2. -11 - (9) M303813

[Main component symbol description] 2 First arm 2a Slot 4 Second arm 4 a Slot 6 Second arm 6 a Slot 8 Fourth arm 8 a Slot 10 Fifth arm 10a Slot 12 Hole 13 End 14a First connecting member 14b Second connecting member 14c second connecting member 14d fourth connecting member 1 4 e fifth connecting member 14f first connecting member 14g seventh connecting member 16 first lands 18 second lands 20 base -12 M303813 (10)

22 first convex portion 24 second convex portion 26 base 28 first convex portion 30 second convex portion 32 nut portion 34 gripping surface 36 concave portion 38 spacer 40 recess 40 level gauge 42 outer casing 44 convex portion 46 arm 46a convex portion 46b Convex 48 first curved arm 50 second curved arm

Claims (1)

M303813 I W'fAi 1% Patent Application No. 942 1 9686 Replacement of Chinese Patent Application Range Amendment of September 15, 1995 1 . An builder tool comprising four arms connected to each other to define a quadrilateral, the connection between the two arms of the four arms, such that the two connected arms can only be rotated and adjusted, the four The connection between the two arms of the arm is such that the two arms can only be translated in translation, and the other two connections between the arms enable the respective connected arms to be rotationally adjusted and translated. 2. The builder tool of claim 1, wherein the builder tool comprises at least one extension arm coupled to at least one of the four arms of the tool to provide the connection thereto The extension of the arm. (1) IX. Scope of Application Patent Attachment 2A: 3. The builder tool of claim 1 or 2, wherein at least one curved arm is connected between the arms of the tool, the curved arm is provided There is a scale, and the angle or orientation between the two arms can be calculated from the scale. Preferably, two upwardly juxtaposed arcuate arms are provided, which can slide relative to each other to reveal the scale. 4. The builder's tool of claim 1 or 2, wherein the adjustment is made by a nut and bolt configuration. 5. The builder tool of claim 4, wherein the bolts are slidable along an elongated slot formed in one or more of the associated arms