SU970184A1 - Hydraulic clamp for testing machine - Google Patents

Description

The invention relates to test equipment, in particular to hydraulic clamps.

A hydraulic clamp is known, comprising a housing with a cylinder, power pistons, a multiplier and pipelines 5 [1].

However, the working fluid is supplied to each pair of power hydraulic cylinders by multiplicatopes made of separate blocks, whose chambers ¹⁰ are not connected to each other. This increases the dimensions and metal consumption of the entire device and, in addition, reduces the accuracy of the clamp, since the uniformity of the acting ^{, s} force of the hydraulic cylinders is adjusted due to the geometric dimensions of the multiplier cylinders.

The closest in technical essence to the proposed one is a hydraulic clamp for testing machines, comprising a housing with two coaxial power hydraulic cylinders, clamping jaws, cylinder covers and a multiplier connected to the high-pressure cavity of both hydraulic cylinders £ 2 J. are rigidly attached to their pistons.

The disadvantages of this hydraulic clamp is that the power hydraulic cylinders and control, acting as a multiplier, are placed in the housing, which leads to a significant increase in the dimensions of the housing, in addition, a large number of control equipment are used.

The purpose of the invention is improving the accuracy of the clamp and reducing the metal consumption of the device.

The goal is achieved in that in a hydraulic clamp to testing machines, comprising a housing with two coaxial power hydraulic cylinders, to the pistons of which clamping jaws, covers of hydraulic cylinders and a multiplier connected to the high-pressure cavity of both guides are rigidly attached

970184 4 cylinders, on each cover a rod is made, and the multiplier is made in the form of a fixed piston mounted on the corresponding rod, and a movable cylinder in the form of a glass, $ placed inside the piston of the corresponding power hydraulic cylinder and covering the fixed piston, and with its bottom on the side of the cover is a rod , and forming a return chamber with the surfaces of the fixed piston and the outer diameter of the stem.

In addition, it is equipped with a sealing ring sleeve located between the housing and the cover, covering the corresponding piston of the power hydraulic cylinder and forming, with its ends and the movable cylinder, a low-pressure chamber in communication with the other chamber and the main line for supplying the working fluid 20.

In FIG. 1 shows a device, General view / section; in FIG. 2 - also, side view; in FIG. 3 “section AA in FIG. 2.25

The hydraulic clamp comprises a housing 1 with power hydraulic cylinders in the form of pistons 2, to which clamping jaws 3, covers 4, hydraulic cylinders, cavities 5 of high ₃₀ pressure are rigidly attached, a rod 6 is made on each cover, a multiplier made in the form of a fixed piston 7 mounted on respective rod 6, and the movable cylinder as a sleeve 8 disposed inside the piston 2 and ³⁵ ohva- TYVA movable piston 7 and its bottom 9 - shaft 6, with the surfaces forming the fixed rod 7 and the piston 6 return chamber 10. Between the housing 1 and the cover 4 is located uplot- ⁴⁰ tive sleeve 11 forming with the ends of the piston 2 and the movable cylinder chamber 12 of the low pressure manifold 13 communicated with a similar chamber and a second hydraulic cylinder ⁴⁵ through fitting 14 to the pipeline (not shown) for supplying a working fluid.

In addition, the clamp comprises a chamber 15 the forward stroke, the return ⁵⁰ travel chamber 16, the connecting line 17, 18 and 19 · chamber 10 return through hole 20 in the rod 6 and further through the annular gaps 21 is connected through fitting 22 to the pipeline for supplying a working 55 fluid.

The hydraulic clamp operates as follows.

The device is pre-flushed and all internal cavities are filled with working fluid.

When the working fluid is supplied through the nozzle 14, it enters the low-pressure chambers 12, as well as the forward-flow chamber 15, after which the movement of the pistons 2 and the movable cup 8 begins. 15 forward stroke of the opposite hydraulic cylinder. When the clamping jaws 3 come into contact with the sample, it is fixed, and the pressure of the working fluid in the high-pressure cavity 5 increases to the calculated value. After testing, the working fluid through the fitting 22, channels 19, annular gaps 21 and drilling 20 in the rods 6 enters the return chamber 10 and causes the pistons 2 to move back, after which the sample is released.

Thus, the advantages of the proposed hydraulic clamp compared with the known ones are to reduce the size and metal consumption of the device, sufficient ease of management. Reducing the metal consumption and dimensions of the device consists in making the multiplier in the form of a fixed piston mounted on the corresponding rod and a movable cylinder in the form of a cup placed inside the piston, which eliminates the use of flexible pipelines and creates clamping forces in a wide range of operating loads.

Claims (2)

The invention relates to test equipment, in particular to hydraulic clamps. Known hydraulic clamp, comprising a housing with a cylinder, power pistons, a multiplier and pipelines 1. However, the working fluid of each pair of power cylinders is powered by multipliers made of separate blocks, the chambers of which are not connected to each other. This increases the size and intensity of the entire device and, in addition, reduces the accuracy of the clamping, since the uniformity of the acting force of the hydraulic cylinders is controlled by the geometrical dimensions of the cylinder multiplier. The closest in technical essence to the present invention is a hydraulic clamp to the testing machines, comprising a housing with two coaxial hydraulic cylinders, to the pistons of which clamping jaws, hydraulic cylinder caps and multiplier are connected, connected with the high pressure cavity of both hydraulic cylinders 2. The disadvantages of this hydraulic clamping is that in the case both power hydraulic cylinders and control cylinders are placed, which act as multipliers, which leads to a significant increase in size In addition, a large number of regulating devices are used in the hull. The purpose of the invention is to improve the accuracy of clamping and reduce the metal intensity of the device. The goal is achieved by the fact that in a hydraulic clamp, testing machines comprising a housing with two coaxial hydraulic cylinders, to the pistons of which clamping jaws, hydraulic cylinder caps and multiplier connected to the high pressure cavity of both hydraulic 3 g cylinders, are rigidly attached to each cap , and the multiplier is made in the form of a fixed piston mounted on the corresponding rod, and a movable cylinder in the form of a glass placed inside the piston of the corresponding power hydraulic cylinder and embracing the fixed piston, and its bottom from the side of the cover, the rod, and the return chamber formed with the surfaces of the fixed piston and the outer diameter of the rod. In addition, it is equipped with a sealing ring bushing located between the housing and the lid, covering the corresponding piston of the power hydraulic cylinder and forming a low pressure chamber with its ends and movable cylinder, communicated with another chamber and main fluid supply line. FIG. 1 shows the device, general view / section; in fig. 2 - the same side view; in fig. 3, section A-A in FIG. 2. The hydraulic clamp includes a housing 1 with power cylinders in the form of pistons 2, to which clamping jaws 3, covers C, hydraulic cylinders, high pressure cavities 5 are rigidly attached, each piston has a rod 6, a multiplier made in the form of a fixed piston 7 and a movable cylinder in the form of a cup 8 located inside the piston 2 and enclosing the movable piston 7, and with its bottom 9 - a rod 6, forming a return chamber 10 with the surfaces of the fixed piston 7 and rod 6. Between the housing 1 and the cover C there is a sealing sleeve 11 forming a low pressure chamber 12 with the ends of the piston 2 and the movable cylinder, which is connected by line 13 to the analogous chamber of the second hydraulic cylinder and through connection N to the line (not shown) for supplying the working fluid. In addition, the clamp contains a forward stroke chamber 15, a reverse stroke chamber 16, connecting lines 17, 18, and 19. The return chamber 10 through holes 20 in the rod 6 and further through the annular gaps 21 is connected through the nozzle 22 to the working fluid supply line . Hydraulic clamp works as follows. The device is pre-rinsed and all internal cavities are filled with a working fluid. When the working fluid is supplied through the fitting H, it enters the low-pressure chamber 12, as well as into the forward stroke chamber 15, after which the movement of the pistons 2 and the movable cup 8 begins. Simultaneously, the working fluid is squeezed out of the reverse stroke chamber 16 and through line 18 chamber 15 of the direct stroke of the opposite hydraulic cylinder. When the clamping jaws 3 come into contact with the JS image, it is fixed, and the pressure of the working fluid in the high pressure cavity 5 rises to the calculated value. After testing, the working fluid through fitting 22, channels 19, annular gaps 21 and drilling 20 in the rods 6 enters the return chambers 10 and causes the pistons 2 to move backwards, after which the sample is released. Thus, the advantages of the proposed hydraulic clamping in comparison with the known ones consist in the reduction of the overall dimensions and metal consumption of the device, and the sufficient ease of operation. The reduction of metal consumption and dimensions of the device consists in the implementation of a multiplier in the form of a fixed piston mounted on a corresponding rod, and a movable cylinder in the form of a glass placed inside the piston, which eliminates the use of flexible pipelines and create clamping forces in a wide range of operating loads. Claim 1. Hydraulic clamp to testing machines, comprising a housing with two coaxial Power cylinders, to which piston jaws, hydraulic cylinder caps and multiplier connected to the high pressure cavity of both hydraulic cylinders are rigidly attached, characterized in that, in order to improve accuracy clamping and reduction of metal consumption; a stem is made on each lid, and the multiplier is made. in the form of a fixed piston mounted on the corresponding rod, and a movable cylinder in the form of a glass inside the piston of a corresponding power cylinder and encircling the stationary piston, and its bottom from the side of the cover is the rod, and a return chamber forming the fixed piston and the outer diameter of the rod. 2. Hydraulic clamp according to claim 1, characterized in that It is equipped with a sealing ring bushing located between the housing and the cover, which covers the corresponding piston of the power cylinder and C. forming a low pressure chamber with its ends and a movable cylinder that communicates with another chamber and the main line for supplying the working fluid. Sources of information taken into account in the examination 1. US patent number 3 498121, cl. G 01 N C / O, 1970. 2. USSR author's certificate number 323 339 / 25-28, cl. G 01 N C / O, 18. About.81 (prototype). i ... And j. - .Y-YY