RU167989U1 - Universal pressing device - Google Patents

Abstract

The utility model relates to construction equipment, namely to pressing devices, designed for shockless and noiseless immersion of piles, piles, pipes, tongues of any existing standard sizes and other pile elements into the soil, as well as drilling tools for sampling for engineering and geological surveys search and exploration of mineral deposits throughout the depth of the well in the form of monoliths, without deformation and destruction of samples, including the arrangement of water wells, and can be used in gra Zhdansk, industrial, military, energy and road construction. The utility model is aimed at increasing labor productivity, this is achieved due to the fact that the universal pressing device contains guides 1, rotator 2, which is connected to its drive for the rotational movement of the immersed element and has bearing bearings and a node that secures the immersed element to the rotator, inertial polyharmonic self-balancing vibrator 4, including gear pulleys 17, 18, 19, 20, 21, 22, 23, 24, gear belts 14, 15, tension rollers 16, the number of which must be at least three of which can serve as a support roller, pairwise equivalent unbalanced shafts 25, 26, 27, 28, 29, 30, 31, 32, while the gear pulleys 17, 18, 19, 20, 21, 22, 23, 24, in pairs - equivalent unbalanced shafts 25, 26, 27, 28, 29, 30, 31, 32, the axes of which can be located in the same or in different vertical planes, sequentially in a multiplicative order connected to each other by engagement of the gear pulleys 17, 18, 19, 20, 21, 22, 23, 24, toothed belts 14, 15, the number of which can be different from two, in two equal rows mounted in bearings x supports 6, 7, 8, 9, 10, 11, 12, 13 of bearing walls of the housing 5, and a pair of toothed pulleys initial series of compounds also kinematically connected to each other. Unbalanced shafts of a predominantly final upper pair are kinematically connected to their rotational drive 33, connected to the remote control 34 and made in the form of a block of two equivalent mechanical gears and two equivalent engines 36, the number of which can be different from the two placed on the top cover 37 of the housing 5, on the side 38 or load-bearing walls of the casing operating synchronously with the possibility of smoothly controlling the speed. In the rotary motion drive 33, electric motors or hydraulic motors or pneumatic motors, or servomotors operating synchronously with the possibility of smoothly controlling the speed of rotation and controlled by the remote control 34, which is also connected to the rotational motion drive of the immersed element 39, can be used as equivalent motors. As motors, electric motors, or hydraulic motors, or pneumatic motors, or servomotors, or gear motors can be used. The created total directional inertial forces are selected from the range: 0.1-0.5, 0.5-25, 25-75, 75-110, 110-250, 250-500, 500-800, 800-1200, 1200-1500 , 1500-3000 and 3000-7000 tons. 1 ill.

Description

The utility model relates to construction equipment, namely to pressing devices, designed for shockless and noiseless immersion of piles, piles, pipes, tongues of any existing standard sizes and other pile elements into the soil, as well as drilling tools for sampling for engineering and geological surveys search and exploration of mineral deposits throughout the depth of the well in the form of monoliths, without deformation and destruction of samples, including the arrangement of water wells, and can be used in gra Zhdansk, industrial, military, energy and road construction.

The analogue is known as a universal pressing device in the description of the invention to the patent of the Russian Federation No. 2388868, IPC E02D 7/00 of February 24, 2009, publ. 05/10/2010, which contains a cargo beam, guides, a replaceable pile headgear and a gear inertial self-balancing vibrator, including a housing, bearing bearings, pairwise equivalent rigidly interconnected unbalanced gears and shafts, united in separate groups associated with the drive. The inertial self-balancing toothed vibrator is polyharmonic, pairwise equivalent unbalanced gears and shafts are connected in series in multiplicative order to each other in two equivalent vertical rows. The unbalanced shafts of the final upper pair are kinematically connected with the rotary drive made in the form of a block of two equivalent mechanical gears and two equivalent engines, the static moments of unbalance of each additional pair are selected from the condition of the necessary asymmetry of the directed total directional inertial force from the range of 3 ÷ 7, while the self-weight of the universal pressing device is selected taking into account the magnitude of the above asymmetry of the total inertial force and the smallest value riticheskogo breakdown resistance of the immersion member. Asynchronous motors or servomotors can be used in a rotary motion drive.

Disadvantages: insufficiently high labor productivity.

The known prototype universal indentation device in the patent for utility model of the Russian Federation No. 114068, IPC E02D 7/20 from 10.27.2011, publ. 03/10/2012, which contains a cargo beam, guides, a toothed inertial self-balancing vibrator including a housing, bearings, pairwise equivalent, rigidly interconnected unbalanced shafts, united into separate groups associated with a rotary drive. It is made single-pulse or double-pulse and contains a removable gripping device, an inertial polyharmonic self-balancing vibrator, including gear pulleys, belts, tension rollers, pairwise equivalent unbalanced shafts. Toothed pulleys, pairwise equivalent unbalanced shafts, the axes of which are located mainly in different vertical planes, are successively connected in a multiplicative manner to each other by engagement of toothed pulleys, toothed belts, the number of which can be different from two, in two equivalent rows mounted in bearing supports of the bearing walls of the housing. The gear pulleys of the initial pair of row joints are also kinematically connected to each other, while the number of additional pairwise equivalent unbalanced shafts attached to the initial pair is selected from the range 2–9, the order of the rotation frequency of each of them relative to the initial pair is selected integer from the range 1 ÷ 18, unbalanced shafts of a predominantly final upper pair are kinematically connected to a rotary motion drive associated with a remote control and made in the form of a block of two mechanically equivalent gears and two equivalent engines, the number of which can be different from the two placed on the top cover of the case or on the side walls of the case working synchronously with the possibility of smooth adjustment of the speed, the static moments of the unbalanced shafts of each additional pair are selected from the condition of the required asymmetry coefficient of the total directional inertial force from the range of 3 ÷ 10. In a rotary motion drive, equivalent motors may be electric motors, or hydraulic motors or servomotors operating synchronously with the possibility of smoothly controlling the speed and controlled by a remote control. The created total directional inertial forces are selected from the range: 0.1-0.5, 0.5-25, 25-75, 75-110, 110-250, 250-500, 500-800, 800-1200, 1200-1500 , 1500-3000 tons.

Disadvantages: insufficiently high labor productivity,

Effect: increase labor productivity.

The technical result in a universal pressing device made of single-pulse or double-pulse, containing, guides, inertial polyharmonic self-balancing vibrator, including gear pulleys, belts, tension rollers, pairwise-equivalent unbalanced shafts, while gear pulleys, pairwise-equivalent unbalanced shafts, the axes of which are located mainly in different vertical planes, sequentially in a multiplicative order connected to each other by engagement of gear pulleys, gears belts, the number of which can be different from two, in two equivalent rows mounted in the bearing bearings of the bearing walls of the housing, the gear pulleys of the initial pair of row joints are kinematically connected to each other, additional pairwise-equivalent unbalanced shafts connected to the initial pair, the number of which is selected from the range 2 ÷ 9, the order of the frequency of rotation of each of them with respect to the initial pair is selected integer from the range 1 ÷ 18, unbalanced shafts, mainly of the final upper pair kinematically, with connected to the drive of rotational movement associated with the remote control and made in the form of a block of two equivalent mechanical gears and two equivalent engines, the number of which can be different from two located on the top cover of the case or on the side walls of the case working synchronously with the possibility of smooth frequency control rotation, static moments of unbalanced shafts of each additional pair are selected from the condition of the necessary asymmetry coefficient of the total directed inertial force and range 3 ÷ 10, rotational motion drive, where equivalent motors can be used electric motors, or hydraulic motors, or servomotors operating synchronously with the possibility of smooth speed control and controlled by a remote control, with the created total directional inertial forces with ranges: 0.1 -0.5, 0.5-25, 25-75, 75-110, 110-250, 250-500, 500-800, 800-1200, 1200-1500, 1500-3000 tons are achieved due to the fact that the universal the pressing device further comprises a rotator, which is connected to its drive raschatelnogo movement of the immersion member has bearing and support assembly and providing immersion fastening element to the rotator.

The increase in labor productivity is achieved due to the fact that the universal pressing device further comprises a rotator, which is connected to its rotational drive of the immersed element and has bearing bearings and a node that secures the immersed element to the rotator.

Unlike analogs, when an immersed element is pressed in, a rotator with bearing supports connected to its drive of the rotational movement of the immersed element provides a non-stop immersion process in the presence of rock fragments in soils I-IV, while allowing the immersed element to destroy and move rock fragments encountered rocks without stopping the diving process. It does not take time to carry out additional measures to remove the immersed element, its replacement with a rock cutting tool. Less working time is spent for indentation of the immersed element into the soil to the required depth, respectively, a greater number of immersed elements are pressed into the soil per unit time. In engineering and geological surveys, search and exploration of mineral deposits less time is spent working on sampling when working with drilling tools. Therefore, increased labor productivity.

The analysis of the prior art showed that the claimed combination of essential features set forth in the formula of the utility model is unknown. It is established that the claimed technical solution does not follow explicitly from the prior art. This allows us to conclude that it meets the condition of patentability "novelty" and the condition of industrial applicability.

The essence of the utility model is illustrated in the figure, where

the figure shows a diagram of a universal pressing device with an immersed element.

The universal pressing device comprises guides 1, a rotator 2, which is connected to its rotational drive of the immersed element 39 and has bearing bearings 3 and a node 40 that secures the immersed element to the rotator 2, an inertial polyharmonic self-balancing vibrator 4, including gear pulleys 17, 18, 19, 20, 21, 22, 23, 24, toothed belts 14, 15, tension rollers 16, the number of which must be at least three, one of which can serve as a support roller, pairwise equivalent unbalanced shafts 25, 2 6, 27, 28, 29, 30, 31, 32, while the toothed pulleys 17, 18, 19, 20, 21, 22, 23, 24, pairwise equivalent unbalanced shafts 25, 26, 27, 28, 29, 30 , 31, 32, the axes of which can be located in one or in different vertical planes, successively in a multiplicative order, are connected to each other by engagement of the gear pulleys 17, 18, 19, 20, 21, 22, 23, 24, gear belts 14, 15, the number of which can be different from two, in two equivalent rows mounted in bearing bearings 6, 7, 8, 9, 10, 11, 12, 13 of the bearing walls of the housing 5, and the gear pulleys of the initial pair of ordinary joints eny also kinematically connected to each other, the number of additional pairwise equivalent unbalanced shafts attached to the primary pair, selected from the range of 2 ÷ 9, the order of frequency of rotation of each of them relative to the initial pair of selected integer from the range 1 ÷ 18. Unbalanced shafts of a predominantly final upper pair are kinematically connected to their rotational drive 33, connected to the remote control 34 and made in the form of a block of two equivalent mechanical gears and two equivalent engines 36, the number of which can be different from the two placed on the top cover 37 of the housing 5, on the side 38 or load-bearing walls of the casing operating synchronously with the possibility of smoothly controlling the speed. The static moments of the unbalanced shafts of each additional pair are selected from the condition of the required asymmetry coefficient of the total directional inertial force from the range of 3 ÷ 10, while in the rotary motion drive 33, electric motors or hydraulic motors or pneumatic motors, or servomotors operating synchronously with the possibility of stepless speed control and controlled by a remote control 34, which is also connected to the drive of the rotational movement of the immersed electric ment 39. In this drive as a motor can be applied electric or hydraulic motors or Pneumomotors or servo motors or gearmotors. The created total directional inertial forces are selected from the range: 0.1-0.5, 0.5-25, 25-75, 75-110, 110-250, 250-500, 500-800, 800-1200, 1200-1500 , 1500-3000 and 3000-7000 tons.

The device operates as follows.

The inventive device installed in the guides of the mast of the base machine by means of the guides 1, down to the immersion point. A submersible element 35 is supplied, which can be a pile, pile-sheath, pipe, tongue, drilling tool and fasten it with the help of the assembly 40 to the rotator 2. Using the remote control 34, the rotary movement drive of the immersed element 39 of the rotator 2 is turned to its side the connection with the immersion element 35. By means of the remote control 34 include a rotary drive 33, the torque of the shafts of the engines 36 located on the top cover 37 or side walls 38 of the housing 5, is transmitted through gears to gears kiwa 24 (torque from the engine can be applied to any of the unbalanced links of any of the equivalent series. The multiplicative order of the mechanism construction, in turn, allows you to choose the most appropriate link for connecting the drive from the point of view of energy and energy saving and the external working layout of the product) connected by a fixed connection to unbalanced shafts 32 and located in their bearing bearings 13, then the torque is transmitted to the gear pulleys 23, 22, 21, 20, 19, 18, 17 through gear belts 14 and 15, 16 pulled by means of their tension rollers, connected by a fixed connection with their unbalanced shafts 31, 30, 29, 28, 27, 26, 25 located in their bearing bearings 12, 11, 10, 9, 8, 7, 6 located in the bearing walls housings 5. In pairs synchronously and in-phase in opposite directions, unbalanced shafts 25, 26, 27, 28, 29, 30, 31, 32 create the total directional inertial force of the inertial polyharmonic self-balancing vibrator 4. This force through the bearings 3, rotator 2 and node 40, immersible mount of element 35 to the rotator 2 is transmitted to the submersible element 35, depending on operating conditions of rotary drive of the immersion cell 39 can be both so on and off, thus there is a depression of the ground member 35 is submerged to a depth equal to the working stroke of the device. Then, by means of the remote control 34, the rotational motion drive of the unbalanced shafts 33 and the rotational motion drive of the immersed element 39 are turned off, if it was turned on.

Using the remote control 34 turn on the drive of the rotational movement of the immersed element 39 in the direction of separation of the node 40 with the immersed element 35 and raise the device installed in the guide masts of the base machine to its original position. Then, if necessary, the next immersion element 35 for extension is supplied to the assembly 40, which secures the immersion element 35 to be attached to the rotator 2 and the cycle is repeated as many times as necessary. Removing the immersed element is performed in the reverse order. When performing work related to soil sampling, the submerged element is removed.

The technical and economic effect of the use of the proposed technical solution is expressed in increasing labor productivity by 1.5-2 times.

Claims (2)

A universal push-in device made of single-pulse or double-pulse, containing guides, inertial polyharmonic self-balancing vibrator, including gear pulleys, belts, tension rollers, pairwise equivalent unbalanced shafts, while gear pulleys, pairwise equivalent unbalanced shafts, the axes of which are located mainly in different vertical planes, successively in a multiplicative order, are connected to each other by engagement of gear pulleys, gear belts, the number of which It can be different from two, in two equivalent rows mounted in the bearing bearings of the bearing walls of the housing, the gear pulleys of the initial pair of row joints are kinematically connected to each other, additional pairwise-equivalent unbalanced shafts connected to the initial pair, the number of which is selected from range 2 ÷ 9, the order of the rotation speed of each of them with respect to the initial pair is selected integer from the range 1 ÷ 18, unbalanced shafts, mainly of the final upper pair, kinematically connected to the VR drive careful movement associated with the remote control and made in the form of a block of two equivalent mechanical gears and two equivalent engines, the number of which can be different from the two located on the top cover of the case or on the side walls of the case, working simultaneously with the possibility of smooth regulation of the speed the static moments of the unbalanced shafts of each additional pair are selected from the condition of the required asymmetry coefficient of the total directional inertial force from the range of 3 ÷ 10, drive VR propulsion movement, where equivalent motors can be used electric motors, or hydraulic motors, or servomotors operating synchronously with the possibility of smooth speed control and controlled by an external remote control, with the created total directional inertial forces with ranges: 0.1-0.5, 0 5-25, 25-75, 75-110, 110-250, 250-500, 500-800, 800-1200, 1200-1500, 1500-3000 tons, characterized in that the universal pressing device further comprises a rotator, which is connected to its rotational drive of the immersed element and has bearing bearings and a node that secures the immersed element to the rotator.

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