RU7431U1 - SHOCK DEVICE - Google Patents

Abstract

1. The impact device, including a housing, a drummer located therein, a sleeve connected by thread to the rear of the housing, a distribution tube connected to the sleeve, characterized in that it is provided with an elastic ring mounted in a radial clearance between the rear of the housing and bushing. 2. The device according to claim 1, characterized in that at least one of the details of the surface facing the elastic ring is made conical. The device according to claim 1, characterized in that the elastic ring is made of rubber.

Description

Percussion device The proposed utility model relates to the field of construction equipment and relates to devices for well formation and trenchless laying and replacement of pipelines.

A device for digging the soil is described in the book by A. D. Kostylev, K. S. Gurkov and B. N. Smolyanitsky. Hammers and machines for driving lightweight building elements into the soil. Nauka Publishing House, Siberian Branch, Novosibirsk, 1980. p. 18, containing an element to prevent self-loosening of the rear hub. This element is made in the form of a steel ring mounted between the flat rear end face of the housing and the flat surface of the end face of the sleeve. It is assumed that at least partial damping occurs during operation of the vibration mechanism at the joints of the surfaces of the ends of the ring with the ends of the housing and the sleeve and a reduction in the magnitude of the forces, while briefly unscrewing the rear sleeve. However, the steel ring does not provide sufficient friction between unscrewed parts due to the small coefficient of friction in the pair of steel over steel, and its rather rigid properties, configuration and installation location lead to the fact that with the slightest axial movement, the density of its contact with the surfaces of the parts decreases sharply and it is no longer an obstacle to their unscrewing. Therefore, this element does not have sufficient reliability with significant shock loads perceived by the device body.

OSHA patent N 4785898 (analogue to A.S.SSSR 1340259, E02F, 5/18 with a chipboard neck) describes a percussion device for drilling holes in the ground, in which grooves are made obliquely to prevent the rear threaded sleeve from being unscrewed to the axis of the device, while the direction of inclination of the grooves is chosen to be the same with the direction of the thread of the threaded sleeve.When the device is mixed in the soil, the soil acts on the back wall of the grooves and creates a circumferential force applied to the threaded conductor | ШШ Ш1 |; the threaded bushing is designed to be continuously screwed into the body, but for this to happen, it is necessary that this circumferential force be greater than the unscrewing forces.With intensive shock loading, W1; may not overcome them, all the more so since the circumferential force depends on the density of other properties of the soil.The design disadvantage is that the circumferential force arising tends to rotate the entire device, which would lead to twisting of the rootstock pressure hose, to avoid what it is necessary to introduce stabilizers, complicating the design of the device. In addition, this principle of preventing self-unscrewing can be implemented only with tight contact of the grooves with the ground and cannot be applied in a number of other cases, for example, for mechanisms operating outside the well or in the well without tight contact of their side walls with the ground (if used extender on the head of the device), which limits the scope of its application.

The technical problem solved by the utility model is to increase the reliability of the device and expand the scope of its application.

The problem is solved in that the percussion device, comprising a housing, a drummer located in the housing, a sleeve connected by thread to the rear of the housing, a distribution tube connected to the sleeve is provided with an elastic ring mounted in a radial clearance between the rear of the housing and sleeve.

It is advisable for at least one of the parts, the surface facing the elastic ring, to make a conical. This will protect the ring from spontaneous movement, a larger compression of the ring and a large contact area.

It is advisable to perform an elastic ring with rubber. This will increase the reliability and maintainability of the structure.

The utility model is illustrated in the drawing.

The percussion device comprises a housing 1, a striker 2, a sleeve 3, connected by a thread 4 to the rear of the housing 1, a distribution tube 5 connected to the sleeve 3 and entering the cavity of the striker 2, is placed with the possibility of reciprocating movement. Between the rear of the housing 1 and sleeve 3, a radial clearance 6 is formed, the cavity of which is bounded by the surface of the groove 7 on the sleeve 3 and a conical surface 8 formed in the rear of the housing 1. An elastic ring 9 is installed in the radial clearance 6. The volume of the elastic ring of face 9 is equal to or slightly less than the volume of the cavity of the gap b, and the shape determines its deformation during assembly, after which the elastic ring is compressed and the ends of the parts are closed.

The device works as follows 1M way.

An energy carrier, for example, compressed air, enters a distribution pipe 5 through a supply hose, from which it is distributed over the working chambers of the device, driving a drummer 2, which strikes the anvil of the housing 1. Vibration appears from the shock load occurring, tensile waves propagate along the walls of the housing and compression transmitted through the end and thread 4 to the sleeve 3, there are stresses in the parts and some of their movement relative to each other. In such a situation, the sleeve 3 tends to get out of the housing 1, but this is prevented by an elastic ring 9, sandwiched in the gap b between the conical surface 8 and the surface of the groove 7. Due to its elastic properties, the ring 9 deforms and fits tightly on these surfaces, and due to its elasticity creates significant pressure on these surfaces and provides a significant amount of friction, preventing the unscrewing of the sleeve 3.

The implementation of one of the conical surfaces in contact with the elastic ring provides a greater compression of the ring during assembly and a larger contact area with the ring.

When performing a rubber ring, the coefficient of friction increases and, therefore, the friction force.

The properties of the ring 9 and the configuration of its compressing surfaces provide a constant acting friction force when a certain amount of parts is vibrated due to vibration relative to each other.

Claims (3)

1. The impact device, including a housing, a drummer located therein, a sleeve connected by thread to the rear of the housing, a distribution tube connected to the sleeve, characterized in that it is provided with an elastic ring mounted in a radial clearance between the rear of the housing and sleeve.  2. The device according to claim 1, characterized in that at least one of the details of the surface facing the elastic ring is made conical. 3. The device according to claim 1, characterized in that the elastic ring is made of rubber.