RU198687U1 - Folding vise - Google Patents

Abstract

The utility model refers to a clamping device and can be used to fix, support and install the workpiece for its cylindrical surface during various types of operations. The swing vise includes a body with a fixed jaw, a movable jaw and a power screw. The movable clamping jaw is made of two symmetrical parts connected by bolted connections, with a hole in the upper part that follows the profile of the power screw. The lateral surface of the movable clamping jaws is made with depressions that allow vertical movement of the movable jaws along the inner surface of the U-shaped bracket having protrusions along the contour of the inner lateral surface. The bracket is made with holes for bolt connections of a bracket with a fixed clamping jaw and a hook, and a hole for a threaded connection with a power screw. On the surfaces facing each other of the movable and stationary clamping jaws, prismatic grooves with holes for fixing the dies are made. On the side surface of the stationary clamping jaw, a ledge is made, which ensures fixation with a bracket by a hook made of a hook-like shape. The lower part of the stationary clamping jaw is rigidly connected to the base, which secures the vice to the equipment. The dies are made of a prismatic shape with toothed protrusions and are fixed with a screw connection. The technical result consists in increasing the accuracy of locating and self-centering of the clamped cylindrical products, eliminating defects arising after clamping, simplifying the design of the clamping device and expanding the technological capabilities of the device. 5 ill.

Description

The utility model refers to a clamping device and can be used to fix, support and install the workpiece for its cylindrical surface during various types of operations.

Known multifunctional bench vice containing a movable part, a fixed part and a transmission pair of a screw and a nut (patent RU No. 2491160, IPC В25В 1/02, 1/06, 1/24, publ. 27.08.2013). The stationary part is provided with a holding device and a positioning and guiding device adapted to be retracted. The movable part consists of two elements, while one element is a cylindrical guide in the form of a sleeve, combined with the ability to move with the inner hole of the stationary part of the vise, on the outer surface of the cylindrical guide there are at least two blind longitudinal positioning and guide keyways of the correct geometric shape , combined with the positioning and guiding device, and the other element is equipped with at least two working heads, each of which is respectively equipped with a set of retaining elements forming, together with the retaining device installed on the stationary part of the vise, a retaining unit, so that a firm clamping is possible workpiece between the movable part and the stationary part of the vice.

The main disadvantage is the complexity of the design and the presence of defects on the cylindrical surface of the products after clamping.

The closest technical solution is a high-speed vise, which includes a body with a fixed clamping jaw, a movable clamping jaw and a power screw (patent RU 176554, IPC В25В 1/10, 5/10, publ. 23.01.2018). The movable clamping jaw is fixed on a movable base located in the housing cavity, in the housing wall and the movable base there are coaxial through threaded holes in which the power screw is installed, and the diameter of the threaded through hole in the movable base is smaller than in the housing wall, the thread in the through threaded the hole in the movable base is left, and in the through-threaded hole in the wall of the case it is right, on the part of the power screw stem from its end there is a thread corresponding to the through-threaded hole in the movable base, and from the head of the power screw - corresponding to the through-hole in the wall of the case.

The disadvantages of the known vices are that they do not provide centering of the tubular product with the required locating accuracy, which leads to a low quality of operations performed with the products, do not exclude the presence of defects (risks, scuffs, dents) on the cylindrical surface of the product after clamping, are complex in design ...

The technical tasks solved by the proposed folding vise are to improve the accuracy of locating and self-centering of the clamped cylindrical products, to eliminate defects that arise after clamping, to simplify the design of the clamping device and to expand the technological capabilities of the device.

Technical problems are solved by a folding vise, which includes a body with a fixed clamping jaw, a movable clamping jaw and a power screw.

The novelty is that the movable clamping jaw is made of two symmetrical parts connected by bolted joints, with a hole in the upper part that repeats the profile of the power screw, the lateral surface of the movable clamping jaws is made with depressions, which provide the possibility of vertical movement of the movable jaws along the inner surface of the U-shaped staples with protrusions along the contour of the inner side surface, while the bracket is made with holes for bolted connections of a bracket with a fixed clamping jaw and a hook, and a hole for a threaded connection with a power screw, prismatic grooves are made on the facing surfaces of the movable and fixed clamping jaws with holes for fixing dies, on the side surface of the stationary clamping jaw there is a ledge that provides fixation with a hook with a hook-shaped hook, the lower part of the stationary clamping jaw is rigidly connected to the base, which secures the vice to the equipment yu, and the dies are made of a prismatic shape with toothed protrusions and are fixed with a screw connection.

FIG. 1 shows the device in an inoperative state.

FIG. 2 shows the device in working order.

FIG. 3 shows a view a-a of FIG. 2.

FIG. 4 is a left side view of FIG. 2.

FIG. 5 is a top view of FIG. 2.

The folding vise includes a body with a fixed 1 (Fig. 1-2, 4) clamping jaw, a movable 2 (Fig. 1-2) clamping jaw and a power screw 3 (Fig. 1-2, 4-5). The movable clamping jaw 2 is made of two symmetrical parts 4 (Fig. 3). Symmetrical parts 4 are connected by two M10 bolts 5 (Fig. 1-3), forming a hole 6 (Fig. 1-2) in the upper part of the movable 2 clamping jaw (Fig. 1-2), repeating the profile of the lower part of the power screw 3, for connecting the lower part of the power screw 3 and 2 movable clamping jaws, allowing vertical movement of 2 movable clamping jaws. The lateral surface of the movable 2 clamping jaws forms depressions 7 (Fig. 3) in the form of longitudinal grooves, allowing vertical movement of the movable clamping jaws 2 along the inner surface of the U-shaped bracket 8 (Fig. 1-5), having protrusions 9 (Fig. 1 -3) along the contour of the inner side surface, corresponding in shape to the depressions 7 in the form of longitudinal grooves. Bracket 8 is made with holes 10 (Fig. 1-4) for bolting M20 brackets with fixed 1 clamping jaw and hook 11 (Fig. 1-5), and hole 12 (Fig. 1-2) for threaded M36 connection with power screw 3. On the surfaces facing each other of the movable 2 and fixed 1 clamping jaws, prismatic grooves 13 (Fig. 1-2) with holes 14 (Fig. 1-2) for fastening four dies 15 (Fig. 1-2) are made, intended for clamping the product by its cylindrical surface with a diameter of 60 to 200 mm. The dies 15 are placed in the diametrically opposite direction relative to the product to be installed with an angle of 60 °. On the side surface of the stationary 1 clamping jaw there is a ledge 16 (Figs. 1-2, 4), which ensures fixation with the bracket 8 by the hook 11 made of a hook-like shape. The lower part of the stationary 1 clamping jaw is rigidly connected, for example, by welding, to the base 17 (Figs. 1-2, 4-5), which provides fastening by means of a bolt 18 (Fig. 4-5) connection M12 of the vice, with the surface of the equipment, for example, to a metalworking machine, on which the necessary operations will be performed, for example, drilling holes. The dies are made of a prismatic shape with toothed projections and are fixed with a screw M6 connection 19. The toothed projections are made at an angle of 90 ° with a radius at the end of R = 1mm. A collapsible handle 20 is installed in the power screw 3 (Figs. 1-2, 5), into which balls 21 are twisted (Figs. 1-2, 4-5).

The folding vise is assembled in the following sequence.

The lower part of the power screw 3 (Fig. 1) is made in the form of a disk with the possibility of supporting on the inner surface of the hole 6, repeating the profile of the lower part of the power screw 3 formed by connecting the symmetrical parts of the movable 2 clamping jaw with two M20 bolts. The upper part of the power screw is screwed through the hole 12 of the bracket 8 by means of an M36 threaded connection. A collapsible handle 20 with balls 21 is installed on the power screw 3. The protrusions 9 located along the contour of the inner side surface of the U-shaped bracket 8 are aligned with the depressions 7 in the form of longitudinal grooves on the side surface of the movable 2 clamping jaws. Fasten with M6 screws four dies on the prismatic grooves 13. Connect the bracket 8 with the fixed 1 clamping jaw and the hook 11. The folding vise is ready for use with two M20 bolts.

Folding vise works as follows.

A folding vise with the base 17 is fastened with M12 bolts to a metal-working machine, on which holes will be drilled. On the dies of 15 prismatic grooves 13 of a fixed 1 clamping jaw, a product clamped for a cylindrical surface is installed and the bracket 8 with a fixed 1 clamping jaw is fixed with an M20 bolt and a hook 11 with a shoulder 16. Rotating the collapsible handle 20 clockwise, the power screw 3 is moved along M36 thread of staples 8. Rotation of the power screw 3 sets in motion the movable 2 clamping jaws due to the hole 6 in the upper part of the movable 2 clamping jaw, repeating the profile of the end of the power screw 3. Rotate the power screw clockwise 5-6 turns until the prismatic dies are pressed 15 movable 2 clamping jaws to the product. Then the necessary operation is performed - drilling holes. After the completion of the necessary operations, the collapsible handle 20 is rotated counterclockwise by 5-6 turns, the power screw 3 is set in motion, so that the movable 2 clamping jaws begin to move in the opposite direction and release the processed product from clamping. The hook 11 is unhooked from the ledge 16, the M20 bolt connecting the bracket 8 with the fixed 1 clamping jaw is unscrewed, and the bracket 8 is thrown away from the fixed 1 clamping jaw. The finished product is removed and the folding vise is ready for use again.

The design of the folding vise improves the accuracy of locating and self-centering of the processed cylindrical product, eliminating defects on the cylindrical surface of the processed product, ease of assembly, simplifying the design of the clamping device and expanding the technological capabilities of the device. It is possible to reinstall the folding vise on different equipment to perform any operations with cylindrical products.

Claims (1)

A folding vise, including a body with a fixed clamping jaw, a movable clamping jaw and a power screw, characterized in that they are equipped with a U-shaped bracket, dies and a hook, while the movable clamping jaw is made of two symmetrical parts connected by bolted connections to form a hole in the upper part of the movable jaw repeating the profile of the power screw, the lateral surface of the movable clamping jaws is made with depressions that allow vertical movement of the movable jaws along the inner surface of the U-shaped bracket having protrusions along the contour of the inner side surface, while the bracket is made with holes for bolt connections of the bracket with a stationary clamping jaw and a hook-shaped hook and with a hole for a threaded connection with a power screw, on the facing surfaces of the movable and stationary clamping jaws there are prismatic grooves with holes in which the dies are screwed, on b The side surface of the stationary clamping jaw has a ledge that provides fixation with a bracket by a hook, the lower part of the fixed clamping jaw is rigidly connected to the base, which secures the vice to the equipment, and the dies are made of a prismatic shape with toothed protrusions.

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