RU54176U1 - WEIGHT - Google Patents

Abstract

The utility model relates to instrumentation, in particular, to weighing equipment and can be used as a general-purpose weight, as well as a model weight, mainly with a nominal weight of more than 20 kg, with platform, truck scales and dispensers. The weight contains a molded body in the form of a body of revolution, on the upper side of which a cylindrical or conical protruding locking element in the form of a body of revolution and a load-gripping element are made, and on the lower side there is a cavity complementary to the protruding fixing element, two protruding cylindrical belts are made on a diametral groove is made on the upper side of the body, the load-gripping element is made in the form of a load-gripping bracket and placed in a diametrical groove, the width of each lug of a falling cylindrical belt is 0.25-0.15 of the body height, the distance between the belts is 0.25-0.35 of the body height, the belts are placed symmetrically with respect to the plane perpendicular to the axis of symmetry of the weight and passing through the center of gravity of the weight, in the cavity that is complementary to the protruding fixing element a cylindrical cavity is made, the cavity volume is 0.04-0.4 of the weight volume, the base area is 0.3-0.6 of the maximum cross-sectional area of the body, the height of the body is 0.8-1.2 of the diameter of the maximum cross-section of the body. The proposed design provides ease of use, optimization of the specific pressure of the weight on the surface and maximum strength and durability of the product.

Description

The utility model relates to instrumentation, in particular, to weighing equipment and can be used as a general-purpose weight, as well as a model weight, mainly with a nominal weight of more than 20 kg, with platform, truck scales and dispensers.

As you know, a weight is a metal load, the weight of a certain weight for weighing (see, for example, Explanatory Dictionary of the Russian language under the editorship of Prof. D. Ushakov, ed. "S.E." M., 1935, p. 563, Kettlebell article ").

In accordance with GOST 7328-65, for weighing automobile and railroad scales, weights sets from 50 to 5000 kg are used (see, for example, BSE, t.6 ed. "SE", M., 1971, p. 522- 553, article "Weights").

According to the requirements of the international organization of legal metrology "OIML" weights from 1 g to 10 kg are made in the form of a cylinder with a compressed head, and from 5 kg. up to 50 kg. - in the form of a rectangular parallelepiped with a recessed handle (see, e.g., S.A.Shabalin Measurements for all Publishing Standards, M., 1991, p. 225, Table 29).

Various design of weights is aimed at improving the usability, manufacturability and durability of this measuring element.

Known weights for taring, containing a cast cylindrical body with a protruding cylindrical girdle and interchangeable inserts, which provides the ability to change the mass of the weight and move it using, for example, forklifts, (see, for example, Autosvid. USSR No. 723389 M. C. G 01 G 21/26 from 04/04/75)

However, this design, according to the applicant, is not technologically advanced to manufacture, insufficiently reliable and convenient to operate and verify, when stored in a warehouse, as it consists of a number of elements connected by screw fasteners and does not allow

rolling on a horizontal or inclined surface and does not provide reliable fixation during storage in several tiers.

A weight is known that contains a cast body with a load gripping element and complementary fixing elements on the upper and lower sides of the body (see, for example, Auth. Certificate of the USSR No. 647523 Mcl G 01 G 1/28 of 07/11/77)

In this device, as in previous analogues, the presence of a blind cavity technologically complicates the casting; the design does not provide for the possibility of lifting weights on the forks of the loader and other means of mechanization. The noted shortcomings worsen the manufacturability of the casting of the case, reduce the service life of weights, create technological difficulties in the mechanization of the processes of laying and transporting weights during their manufacture, verification, storage in mobile weighing laboratories, moving on the surface of the balance due to the inability to use for laying and transportation weights of forklifts and other forklift tools

hydraulic trolleys, stackers and other similar mechanisms

The closest technical solution to the proposed one, according to the applicant, is a cylindrical weight of a standard weight of 500 or 1000 kg, containing a molded body in the form of a body of revolution, on the upper side of which a cylindrical protruding locking element is made in which a blind cavity and a load-gripping element are made, and on the lower a cylindrical hollow complementary to the protruding fixing element is made on the side, two protruding cylindrical belts are made on the side surface of the body (see, for example, OIML publication p.40, Fig. A5, attached to this application).

This device partially eliminated the disadvantages characteristic of previous analogues, in particular, the design allows you to install weights on the working end and place weights in several tiers. However, placing the lid of the fitting cavity on the upper side of the casing and placing on this lid a gripping bracket that protrudes beyond the size of the casing creates the risk of damage to the bracket and lid during accidental impacts. This reduces the durability of the weight and unreasonably increases its dimensions, ceteris paribus. In addition, the location of the protruding cylindrical belts does not provide a stable position of the weight when rolling it over the surface, because the belts are located close to each other and to the center of gravity of the kettlebell. Due to the presence of large cavities, the geometry of the weight does not provide the required compactness.

The aim of the proposed technical solution is to create a weight design that is technologically advanced to manufacture, reliable and convenient to operate and verify, when stored in a warehouse, especially as part of mobile weighing laboratories.

To this end, we propose a weight containing a cast body in the form of a body of revolution, on the upper side of which a cylindrical or conical protruding locking element in the form of a body of revolution and a load-gripping element are made, and on the lower side there is a cavity complementary to the protruding locking element, two are made on the side surface protruding cylindrical girdles, a diametral groove is made on the upper side of the housing, the load gripping element is made in the form of a load gripping bracket and placed in a diametrical ohm groove, the width of each protruding cylindrical belt is 0.25-0.15 of the body height, the distance between the belts is 0.25-0.35 of the body height, the belts are placed symmetrically relative to the plane perpendicular to the axis of symmetry of the weight and passing through the center of gravity of the weight, in a cylindrical cavity is made complementary to the protruding fixing fixing element, the cavity volume is 0.04-0.4 of the weight volume, the base area is 0.3-0.6 of the maximum cross-sectional area of the body, the height of the body is 0.8-1.2 of the maximum diameter eniya body.

The implementation of the cylindrical cavity and the execution on the upper surface of the housing of the diametrical groove in which the load-gripping bracket is placed increases the manufacturability

body casting, compactness and mechanical strength of weights, and also provides the ability to use fork mechanization to move and store weights in several tiers. The specified embodiment of the protruding side belts allows, if necessary, to roll the weight on a horizontal or inclined surface, to ensure its stable position, and the specified ratio of the supporting surface to the maximum cross-sectional area and the ratio of the widths of the belts, the distance between them and the dimensions of the body ensures optimization of the specific pressure of the weight on surface and maximum strength and durability of the product. The fixing elements make it possible to center the weights if they are mounted on top of each other.

The patent studies did not reveal identical and similar technical solutions, which allows us to conclude that the claimed technical solution is new. The proposed weight can be manufactured on an industrial scale and is suitable for use as a reference mass in the state calibration chart for mass measuring instruments in various industries and vehicles. The inventive utility model has been successfully tested to approve the type of SI.

The set of essential features of the claimed utility model does not follow explicitly from the studied prior art, has significant differences from the considered analogues. Therefore, the applicant believes that the claimed weight meets the criterion of "novelty" and has an inventive step.

The essence of the technical solution is illustrated by drawings.

Figure 1 shows a front view of the proposed weight, figure 2 is a top view, figure 3 is a cross section of the body of the weight along the line aa, figure 4 is a section along the line bb.

In the drawings indicated:

A molded body 1 in the form of a body of revolution, on the upper side 2 of which is made a cylindrical or conical protruding locking element 3 and a load gripping element 4, and on the lower side there is a cavity 5 complementary to the protruding fixing element 3, in which a blind cavity 6 is made, on the side surface 7 of housing 1, two protruding cylindrical belts 8 of diameter D and width V are made, belts 8 are placed symmetrically with respect to the plane P, perpendicular to the axis of symmetry of the weight and passing through the center of gravity of the weight, on the side 2 of the housing 1 has a diametrical groove 9, in which the load-gripping element 4 is made in the form of a load-gripping bracket, the width V of each belt is 0.25-0.15 height H of the body, and the distance L between the belts is 0.25-0.35 the height H of the body, the cavity 6 is cylindrical, the volume of the cavity 6 is 0.04-0.4 volume of weight, the base area is 0.3-0.6 of the maximum cross-sectional area R of the body, the height H of the body is 0.8-1.2 diameter of the maximum cross section R of the housing.

The structural elements of the weight provide the following functions.

A molded metal housing 1 provides a mass of weight, its

strength and corrosion resistance. The load gripping element 4 is designed to be mounted on the weight of the load gripping bodies of the lifting and transporting mechanisms. The blind cavity 6 is a fitting hole and is designed to accommodate additional material when adjusting the mass of the weight during primary and periodic verification; the blind cavity 6 is cylindrical, which ensures the manufacturability of the casting of the body, the protruding fixing element 3 and the depression 5 complementary to the protruding fixing element 3, made in the dimensional ratios specified in the formula, provide reliable mutual fixation of weights when storing them in several tiers, when placed on mobile shelves weighing laboratories. The placement of the protruding cylindrical belts 8 and their geometry provide, if necessary, to roll the weight on a horizontal or inclined surface, its stable position, because the weight does not lean side to side. The locking elements 3 and 5 make it possible to center the weights if they are mounted on top of each other.

The ratio of the area of the supporting surface to the area of maximum cross-section ensures the optimization of the specific pressure of the weight on the surface and the maximum strength and durability of the product.

Claims (1)

A weight containing a cast body in the form of a body of revolution, on the upper side of which a cylindrical or conical protruding locking element in the form of a body of revolution and a load-gripping element is made, and on the lower side there is a cavity complementary to the protruding fixing element, two protruding cylindrical belts are made on the side surface, characterized in that on the upper side of the housing a diametral groove is made, the load gripping element is made in the form of a load gripping bracket and placed in a diametrical groove memory, the width of each protruding cylindrical belt is 0.25-0.15 of the height of the body, the distance between the belts of 0.25-0.35 of the height of the body, the belts are placed symmetrically relative to the plane perpendicular to the axis of symmetry of the weight and passing through the center of gravity of the weight, in a complementary the protruding locking element of the cylindrical depression is made cylindrical cavity, the volume of the cavity is 0.04-0.4 volume of weight, the base area is 0.3-0.6 of the maximum cross-sectional area of the body, the height of the body is 0.8-1.2 max diameter cial section of the housing.