RU51205U1 - WEIGHT - Google Patents

Abstract

The utility model relates to a weight measuring technique and can be used as a model weight, mainly with a nominal weight of 100-200 kg or more.

The weight contains a rectangular case with a load-gripping element, fitting cavities and complementary fixing elements on the upper and lower sides of the case, in which the case is box-shaped from sheet material or profiled pipe, and the load-lifting element and complementary fixing elements are made in the form of cylindrical bushings placed in the case, adjustable cavities - in the form of cylindrical glasses with a lid and an element for fixing the lid in the glass, the lengths of the bushings and glasses are equal to the height of the weight body, and the axes lie in the weights of the horizontal plane of symmetry are perpendicular to the base of the weight, the sleeve of the load gripping element is made of variable cross-section, the smaller diameter of the sleeve is turned to the upper side of the weight, and threads are made on the opposite side of the sleeve, a floating pin and a pin fixing element are installed in each sleeve of the complementary fixing element, cross-sectional area the sections of the bushings and glasses are in the ratio from 1: 1.9 to 1: 3.2 to the area of the internal space of the kettlebell body, on the upper side of the kettlebell body made filling e and evaporating openings with caps, body weights filled with a heavy metal. The design provides manufacturability and mechanical strength of the device and the optimal use of materials in accordance with their physical properties.

Description

The utility model relates to instrumentation, in particular, to weighing equipment and can be used as a model weight, mainly with a nominal mass of 200 kg or more, for example, in a reference power-reproducing machine of direct loading, where a set of scales with a total weight of up to 20 tons is required.

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 ").

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

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

In this device, the presence of a deaf 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 drawbacks of weights even weighing more than 200 kg impair the manufacturability of the body casting, reduce the service life of weights, create technological difficulties in the mechanization of the processes of laying and transporting weights during their manufacture, calibration,

storage in a warehouse, in mobile weighing laboratories, moving on the surface of the balance due to the difficulty of using loaders and other means of mechanization for laying and transporting loads - hydraulic trolleys, stackers and similar mechanisms.

The closest technical solution to the proposed one is, in the applicant’s opinion, a weight containing a cast rectangular body, cylindrical blind fitting cavities located on both sides of the symmetry axis of the body, a load-bearing bracket embedded in the body and protruding above the upper plane of the body, as well as two located on the upper plane of the housing on both sides of the axis of symmetry of the protrusion and three hollows made in the lower surface of the housing complementary to the protrusions on the upper plane of the housing, which ensures possibility of hitting protrusions one weight into the corresponding depressions second weights when installed over the first second weights (see. eg., publication of an international organization OIML p.40 Legal Metrology, 6, attached to this application).

In this device, the complex shape of the body, dull fitting cavities technologically complicate the casting, the body elements protruding above the upper plane, the load-gripping bracket create the risk of damage from accidental impacts when working with a weight. The noted drawbacks are aggravated when performing a weight of greater weight, since this reduces the manufacturability of the casting of the body, complicates its processing, especially when using different geometric proportions of the weight, which is necessary when using it as part of a reference power-reproducing machine of direct loading, where a set of weights with a total weight of up to 20 tons. This weight design is not suitable when using a denser material than steel, for example, lead, due to its low mechanical strength. The use of steel weights as part of a direct-loading power-reproducing reference machine, where a set of weights with a total weight of up to 20 tons is required

leads to the need to increase its size and excessive metal costs.

The aim of the proposed technical solution is to create a weight design that is technologically advanced to manufacture, reliable and convenient to use and verify, when stored in a warehouse, especially when using direct loading as part of a standard power-reproducing machine.

To this end, we propose a weight containing a rectangular case with a load gripping element, fitting cavities and complementary fixing elements on the upper and lower sides of the case, in which the case is box-shaped from sheet material or a profiled pipe, and the load gripping element and complementary fixing elements are made in the form of the case of cylindrical bushings, fitting cavities - in the form of cylindrical glasses with a cover and an element for fixing the cover in the glass, the lengths of the bushings and glasses are equal to those weights, and the axes lie in the vertical plane of symmetry of the weights and are perpendicular to the base of the weights, the sleeve of the load gripping element is made of variable cross section, the smaller diameter of the sleeve faces the upper side of the weight, and threads are made on the opposite side of the sleeve, a floating element is installed in each sleeve of the complementary fixing element the pin and pin fixing element, the maximum diameters of the bushings and glasses are in the ratio from 1: 3 to 1: 5 to the width of the living space of the kettlebell housing, on the upper side of the kettlebell housing There are filling and evaporating holes with covers, the weight body is filled with heavy metal, the volume of each fitting hole is 0.04-0.06 the volume of the weight.

The box is made of box material from a sheet material or profiled pipe, and the load gripping element and complementary fixing elements are in the form of cylindrical bushings placed in the body, fitting cavities are in the form of cylindrical glasses with a lid and a lid fixing element in the glass and the length of the bushings and glasses is equal to the height

the weights of the weights and weights placed in a vertical plane of symmetry perpendicular to the base of the weights allows us to provide high manufacturability of weights, especially those having a large length (in the form of a beam) and easy processing (polishing) of the weights surface, which is essential when using the device as part of a reference direct-acting power-reproducing machine In addition, it becomes possible to use a corrosion-resistant and durable material, for example, stainless steel, as a housing material, and as a suppl material -svinets or depleted uranium, which increases the strength and durability of the product, as well as measuring accuracy in comparison with the prototype. The size ratios indicated in the claims and the filling and evaporation openings also provide manufacturability and mechanical strength of the device.

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.

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 proposed technical solution is illustrated by drawings.

Figure 1 shows a General view of the weight from below, figure 2, 3, 4 - section of the body of the weight along the axes of the load gripping element, the locking element and the cylindrical glass

respectively, in Fig.5 - suspension for carrying, checking and balancing weights.

The weight contains a box-shaped rectangular case 1 of sheet material with a load gripping element 2, fitting cavities 3 and complementary fixing elements 4 on the upper and lower sides of the case, the load gripping element 2 and complementary fixing elements 4 are made in the form of cylindrical bushings placed in the case, fitting cavities 3 are formed cylindrical cups 5 with lids 6 and an element 7 for fixing and sealing the lid 6 in the cup 5, the lengths of the bushings and glasses are equal to the height of the body 1 of the weight, and the axes lie in horizontal the weights 8 of symmetry of the body 1 of the weight are perpendicular to the base 9 of the weight, the sleeve of the load gripping element 2 is made of variable cross section, the smaller diameter 10 of the sleeve is turned to the base 9, and on the opposite side of this sleeve there is a thread 11, a floating pin is installed in each sleeve of the complementary fixing element 4 12 and the pin fixing element 13, the cross-sectional area of the bushings and glasses are in the ratio from 1: 1.9 to 1: 3.2 to the internal space of the weight housing 1, the filling 14 is made on the base of the weight housing 1 and The double hole 15 with covers 16 and 17, respectively, the weight case 1 is filled with heavy metal 18. The suspension bracket for carrying, checking and balancing the weight contains an eye bolt 19 and a nut 20 with a spherical surface 21. This suspension is not an element of the device proposed, but only shown as a tool used in the manufacture, calibration and transportation of weights. The drawing shows the fitting material 21 in the fitting cavity 3.

The structural elements of the weight provide the following functions:

The case is made of box material from sheet material, and the load gripping element and complementary fixing elements are in the form of cylindrical bushings housed in the body, fitting cavities are in the form of cylindrical glasses with

the lid and the element of fixing and sealing the lid in the glass and the length of the bushings and glasses equal to the height of the weight body and placed in the vertical plane of symmetry of the weight perpendicular to the base of the weight allows for the production of weight elements on metalworking machines of any machine-building enterprise and high product accuracy, which is essential when using the device as a part of the direct direct-loading power-reproducing machine, in addition, as the material of the casing and bushings, as well as the fitting It becomes possible to use a corrosion-resistant and durable material, for example, stainless steel, and lead as a filling material, which increases the strength and durability of the product, as well as the measurement accuracy compared to the prototype. The aspect ratios indicated in the claims and the filling and evaporation openings also ensure the manufacturability and mechanical strength of the device and the optimal use of materials in accordance with their physical properties, i.e. it provides mass of weights, its strength and corrosion resistance, provides reliable mutual fixation of weights when storing them in several tiers, when placing a standard direct-acting power reproducing machine on cargo platforms. The weight design allows you to choose the ratio of the supporting surface area to the maximum cross-sectional area to optimize the specific weight of the weight on the surface and the maximum strength and durability of the product.

When using the suspension (Fig. 5), the eye bolt 19 is passed from top to bottom through the sleeve of the load gripping element 2 and the nut 20 is screwed onto the thread of the eye bolt 19. The outer diameter of the nut 20 is larger than the smaller diameter 10 of the sleeve of the load gripping element 2, which makes it possible to raise the weight and tilt it a housing for pouring heavy metal 18 into it through the casting hole 14 and to provide weight adjustment and balancing weights using fitting material 21.

The thread 11, made in the sleeve of the load gripping element 2, allows you to screw in an eye bolt (not shown in the drawings) used when storing weights in several tiers, including when placing a standard direct-acting power reproducing machine on cargo platforms.

When laying weights on the loading platforms of the direct direct-acting power reproducing machine, especially when stacking in several rows, balancing the platform with the weights laid down is carried out as follows: by rotating the locking element 13, the floating pins 12 are released. Then they are laid in pairs symmetrically with respect to the rated line of action of the weights so that the protruding end of the floating pin 12 of each weight fell into the corresponding hole on the platform. Then, by shifting the position of the weights on the platform, the equilibrium position of the platform is achieved, after which the position of the weights is fixed by rotation of the locking elements 13 until they stop.

Claims (3)

1. A weight containing a rectangular body with a load gripping element, fitting cavities and complementary fixing elements on the upper and lower sides of the body, characterized in that the case is box-shaped, and the load gripping element and complementary fixing elements are made in the form of cylindrical bushings housed in the case, fitting cavities - in the form of cylindrical glasses with a lid and an element for fixing the lid in the glass, the lengths of the bushings and glasses are equal to the height of the weight body, and the axes lie in the horizontal plane of symmetry the weights are perpendicular to the base of the weight, the sleeve of the load gripping element is made of variable cross-section, the smaller diameter of the sleeve is turned to the upper side of the weight, and threads are made on the opposite side of the sleeve, a floating pin and a pin fixing element, cross-sectional area of the bushings are installed in each sleeve of the complementary fixing element and glasses are in the ratio from 1: 1.9 to 1: 3.2 to the area of the internal space of the body, on the upper side of the body of the weight there are filling and evaporation openings with covers, cor mustache filled with heavy metal weights. 2. The weight according to claim 1, characterized in that the housing is made of sheet material. 3. The weight according to claim 1, characterized in that the housing is made of profiled pipe.