RU2023589C1 - Hollow space creator - Google Patents

Abstract

FIELD: construction. SUBSTANCE: hollow space creator has hollow body with located in it exciter of vertically directed force pulses. Working chamber of hollow space creator shock worker is connected with source of working agent and is made in the form of located along longitudinal axis body and mounted in it transversal partitions of pipe with stoppers at its ends. Pipe has holes on its surface to communicate with cavity of body. Shock worker is mounted in cavity of the body with capability to contact with opposite surfaces of pipe. In the case, body has branch pipe to divert working agent and transversal partitions have holes. EFFECT: hollow space creator is used in construction in reinforced pieces production. 4 cl, 5 dwg

Description

 The invention relates to devices for forming channels in multi-hollow reinforced concrete products.

 Known hollow core, consisting of a housing in which there is a shaft with bearings and an eccentric unbalancer.

 The disadvantage of the hollow core-analogue is that its design is unreliable in operation when working on hard concrete mixes and is complicated due to the presence of a bearing and unbalanced assembly.

 Closest to the invention in technical essence and the achieved result is a hollow core containing a housing in which the walls are placed, a bearing assembly with a vibration device.

 The disadvantage of the prototype hollow core-forming machine is that such a core-forming machine is unreliable due to the presence of a bearing assembly, and also does not provide a uniform distribution of loads along the entire length of the housing due to the transmission of vibrations, usually through end or intermediate bearings or a working medium filling the punch body .

 The purpose of the invention is to increase the reliability of the void by aligning the distributed characteristics of the vibrations along the entire length of the housing.

 This goal is achieved by the fact that a channel passing through the inner walls is made in the core former inside the housing, while the channel contains holes that are directed towards the hammer (s) located in the space formed by the surface of the housing, channel, pipe and inner walls. An inlet pipe is connected to the channel, and an outlet pipe is connected to the space formed by the housing and the channel, while the inner walls contain holes. The drummer is mounted on an axis rigidly connected to the body and is made with a displaced center of mass relative to the axis, which is placed in the opposite direction to the hole in the channel. The impactors are connected by a lightweight part through a link passing through the passage opening of the inner wall.

 Distinctive features of the prototype are the fact that inside the body there is a channel passing through the inner walls, while the channel contains holes that are directed towards the drummer (s), located in the space formed by the surface of the body, channel, pipe and inner walls, to the channel the inlet pipe is connected, and to the space formed by the body and the channel, the outlet pipe is connected, while the inner walls contain holes, the hammer is mounted on an axis rigidly connected to the body, and is made with an offset the center of mass relative to the axis, which is placed in the direction opposite to the direction of the hole in the channel, the impactors are connected by a lightweight part to the connecting link passing through the passage opening of the inner wall.

 In FIG. 1 is a schematic diagram of a core former; in FIG. 2-5 - sections aa, bb, bb and gg in FIG. 1 respectively.

 The drawings show the housing 1, channel 2, hammer 3, inner walls 4, 11, inlet 5, outlet 6, openings 7, 9, link 8, axis 10, weighted part 12, lightweight part 13 and passage opening 14.

The hollow core consists of a housing 1, in which the walls 4, 11 are located. Walls 4.11 contain holes 9. Inside the housing there is a channel 2, which passes through the inner walls and is fixed on them. In the channel 2, openings 7 are made, which are directed towards the lightweight part 13 located in the space formed by the housing 1 by the inner walls 4.11 and the surface of the channel 2. An inlet pipe 5 is connected to the channel 2. To the space formed by the housing 1, the inner wall 4 and channel 2, the output pipe is connected 6. The hammer 3 is mounted on an axis 10, rigidly connected with the housing 1. The hammer 3 is made with an offset center of mass M _Y. The drummer 3 at rest with the lightweight part 13 covers the hole 7, the weighted part 12 is in contact with the housing 1. The hammers 3 with the lightweight part 13 are connected by a link 8, which passes through the passage 14.

 The hollow core works as follows.

 Before starting work, a working medium (liquid) is located in the housing 1 of the core generator and in the channel 2.

 The void generator operates in a discontinuous flow of the working medium from the inlet pipe 5 to the outlet pipe 6 created by an external device, as well as by its own vibrations of unbalanced fluid flow. The excited motions of the working medium are transmitted through the channel 2, the hole 7, and the inner space of the punch to the housing 1 and equalize the characteristics of the vibration generated from the impacts of unbalancing on the housing and the inner wall.

 When the working fluid is supplied under pressure through the inlet pipe 5 to the channel 2, the working fluid flows out through the openings 7. At the moment of the overpressure pulse, the jet of the working medium repels the lightweight part 13 of the unbalance and accelerates the hammer 3. The hammer 3 with the lightweight part 13 acts on the housing 1, and weighted part 12 on the pipe channel 2, causing them to vibrate. At the same time, torsional vibrations of the housing 1 are created due to the transfer of the jet component of the jet through the channel 2 tube having an offset center of mass to the internal walls connected to the housing 1. The changing center of mass of the hammer 3 leads to a parametric change in the center of mass of the housing 1, which intensifies the vibration mode the work of the hollow core.

 Moving the hammer 3, crossing the flow of the working medium flowing through the housing in the direction of the outlet pipe 6, further enhances the vibrational movements of the inner walls transmitted to the housing 1 through the supports of the axis of the hammer located in the inner walls.

 The reverse movement of the striker 3 to its original position occurs when the supply of the working medium through the inlet pipe 5 to the channel 2 is stopped. Under the influence of gravity (due to the displaced center of mass), as well as stopping or reversing the flow of the working medium, the striker returns to its original position.

 Upon returning to its original position, the hammer 3 acts on the body 1 by the weighted part 12, which causes vibrational movements of the body, and also acts on the channel 2 pipe, the vibration of which is transmitted directly to the body, and also through the working medium. To synchronize the work of the strikers 3, a link 8 is used, which moves in the through hole 14.

 The number of impactors that are placed in the housing depends on and is determined by the length of the hollow core, as well as the link set for synchronization. This allows you to achieve a uniform distribution of vibrational characteristics excited on the punch body, for any number of impactors, which gives an advantage relative to the prototype, in which the oscillatory movement to the body is transmitted through two bearing assemblies with an eccentricity, and to equalize the characteristics, an infinite number of them will be required, which is technically not is realizable, and therefore it is impossible to create distributed loads along the entire length of the housing using the prototype.

 The uniform distribution of loads creates a reliable mode of operation of the core because of a more uniform wear of the body of the core on a rigid concrete mixture that runs along the entire length.

 To increase the reliability of the void formers helps to reduce vibration loads on the axis.

 In the prototype core former, the bearing assembly fails (according to the results of the work) after 28-33 days. The proposed hollow core will be in operation until the failure of the housing, the resource of which (according to the results of the work) is more than 1500 days. Thus, the proposed hollow core can improve the reliability of more than 35 times.

 The proposed void forming agent is expedient and economically viable.

Claims (4)

 1. A VOID FORMER containing a hollow body with a vertically directed impulse exciter located in it, the working chamber of the hammer of which is connected to the source of the working agent, characterized in that the working chamber is made in the form of a pipe placed along the longitudinal axis of the body and mounted in it through the transverse partitions plugs at the ends and with holes on its surface for communication with the cavity of the body, and the hammer is installed in the latter with the possibility of contact with opposite surfaces Pipes.  2. The void blower according to claim 1, characterized in that the casing is equipped with a pipe for discharging the working agent, and the transverse partitions are made with holes.  3. The pore former according to claim 1, characterized in that the hammer is installed in the cavity of the body by means of an axis fixed to it, and its center of mass is offset from the center of mass of the body.  4. The hollow core according to claim 1, characterized in that it is equipped with an additional drummer connected to the main one.

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