RU102678U1 - PNEUMATIC BREAKER HAMMER - Google Patents

Abstract

 1. A pneumatic jackhammer comprising a housing on which a handle is movably mounted on one side with the ability to control an inlet valve located inside the housing with the ability to supply a working medium to a gas distribution mechanism that is located in the housing on the other side of the handle from the same a barrel is installed in the housing, inside of which there is a drummer with the possibility of interaction through the energy of the working medium coming from the gas distribution mechanism, with a working tool entent, the gas distribution mechanism is equipped with a ball valve having a body element with a cover made with radial and longitudinal channels and forming a working cavity with a ball located in it with the possibility of locking one of the central holes made in the body element and the cover in communication with the said channels barrel through radial and longitudinal channels, and the working cavity is formed sequentially arranged by the first conical section, a cylindrical section and a second conical they portion, are oriented with their tops in the direction of the central holes and bead material is configured with a hardness greater than the hardness of the material of the body member and the cap. ! 2. The pneumatic jackhammer according to claim 1, characterized in that the conical sections of the working chamber are made with an angle of 45 °.

Description

Technical field

The utility model relates to construction and mining, in particular, to pneumatic hammers for the destruction of hard rocks and materials (for example, asphalt, concrete, etc.).

State of the art

A pneumatic hammer is known from the prior art, for example, RF patent No. 46812, Е21С 37/24, publ. 07/27/2005, including a handle, a barrel, an intermediate link consisting of a shirt and a sleeve, a valve, an annular chamber formed by an internal bore in the intermediate link, with a valve air distributor consisting of a valve box, seat, cover and valve, aperture system, working chambers and idling, air vents, a sleeve, externally clad on the barrel, and a casing with holes.

Also known is a pneumatic hammer according to patent SU 1384370, comprising a jacket casing, a handle connected to it, a barrel with a working chamber freely mounted in the jacket casing, placed therein and dividing it into forward and reverse cameras, a striker, a starting device and an air distribution device connected with forward and reverse cameras by longitudinal and dividing channels.

The disadvantage of these models of pneumatic hammers is the design of the gas distribution mechanism, in which the valve is made in the form of a flat cylinder ("nickle"), which often leads to distortions and jamming of the valve, sticking to it and mating surfaces of the body and the valve cover of the chip and foreign bodies during operation as a result, the reliability and tightness of the mechanism due to the resulting gaps is reduced.

Also known is a pneumatic hammer according to the patent of the Russian Federation 90126 (priority 02.09.2009), containing a jacket-jacket, a handle connected to it, a barrel with a working chamber freely installed in the jacket-jacket, placed in it and dividing it into forward and reverse cameras, a drummer , a starting device and a gas distribution device, consisting of lower and upper seats, and a spherical valve between them and connected to the forward and reverse cameras by longitudinal and dividing channels.

The disadvantages of the known solutions include the complexity of the design and the instability of the gas distribution device due to the dropping of the ball valve, and, as a result, incomplete overlap of the passage opening, in connection with which there is a loss of power.

Given the design features and the complexity of the description of the features of the distinctive part, the utility model formula is compiled without separation into the restrictive and distinctive parts.

Utility Model Disclosure

The task the utility model is aimed at is to increase the reliability of the shock mechanism during operation, increase the product life, ensure the stability of technical indicators, namely, power during the entire warranty period of operation of the product due to the stable operation of the gas distribution mechanism.

The technical result of the proposed device is due to the use in the gas distribution mechanism of the newly developed ball valve of increased reliability due to the effect of "self-hardening" of the inner surface of the working chamber due to performing hardening or hardening, i.e. processing the inner layer of the working chamber with its subsequent hardening by cold plastic deformation.

The task is achieved in that the pneumatic jackhammer comprises a housing on which a handle is movably mounted on one side with the ability to control an inlet valve located inside the housing with the ability to supply a working medium to the gas distribution mechanism, which is located in the housing on the other side of the handle, on the same side, a barrel is installed in the housing, inside of which there is a drummer with the possibility of interaction through the energy of the working medium coming from the gas distribution the mechanism, with a working tool, while the gas distribution mechanism is equipped with a ball valve having a body element with a cover made with radial and longitudinal channels and forming a working cavity with a ball located in it with the possibility of locking one of the central holes made in the body element and the cover communicated with the aforementioned bore channels through radial and longitudinal channels, the working cavity being formed in series with the first conical section, -cylindrical portion and the second conical portion, are oriented with their tops in the direction of the central holes and bead material is configured with a hardness greater than the hardness of the material of the body member and the cap.

It is advisable that the conical sections of the working chamber would be made with an angle of 45 degrees.

These signs are essential and interconnected causally with the formation of a set of essential signs sufficient to achieve the specified technical result, which consists in increasing reliability by ensuring the stability of the valve due to the use of a ball of increased hardness as a locking element relative to the hardness of the working parts the chamber and the tightness of the connection of parts in the manufacture of the barrel assembly.

The indicated advantages, as well as the features of this utility model are explained by the best option for its implementation with reference to the attached drawing.

Brief Description of the Drawings

Figure 1 shows a longitudinal section of a pneumatic jackhammer.

Figure 2 is a longitudinal section of a valve with a ball in the closed position.

Figure 3 is a longitudinal section of a valve with a ball in the open position.

In the presented drawings (figures 1, 2 and 3): handle 1, spring 2, inlet valve 3, housing 4, in the central opening of which a radial hole 5 is made, inside the housing 4 there is a gas distribution mechanism having a housing element 7 and a cover 8 made with central holes 9, radial 10 and longitudinal 11 channels, in some of which are located the mounting pins 12 for connection with the barrel 14.

Between the housing element 7 and the lid 8, a working cavity is formed with a ball 13 located in it with the possibility of locking one of the central holes 9, communicated with the mentioned channels of the barrel 14 through radial 10 and longitudinal 11 channels and with the travel chamber 15.

A protective casing 16 is placed over the barrel 14 with grooves for exhausting the spent working medium into the atmosphere, which is fixed to the free end of the handle 1 by a fixing element made in the form of a ring 17, in addition to this, the barrel 14 has a retaining ring 18, an impactor 19, an end spring 20 and a rubber a sleeve 21, which are intended to be fixed relative to the barrel 14 of the working tool (not shown in the drawings). To supply the working medium to the hammer, a foot 22 is screwed into the housing 4 with a fixed nipple 23 connected to the pressure hose of the working medium.

The barrel 14 is made with holes 24, 25 and 31, and the working chamber 15 is formed by the end face of the hammer 19, the valve cover 8 and the inner surface of the barrel 14, the idle chamber is formed by the holes 31 and 26.

Inside the housing 4 between the outer contour of the gas distribution mechanism and the inner bore of the housing 4 is located an annular chamber 27.

The working cavity of the gas distribution mechanism is located between the central openings 9 of the housing element 7 and the cover 8 and is formed by a conically arranged conical section 28, a cylindrical section 29 and a conical 30, the width of the cylindrical section 29 being selected from the condition that the parameters of the working medium correspond to the technical characteristics of the pneumatic hammer. The conical sections of the working cavity are oriented with their vertices toward the central holes 9 and are made with an angle of inclination of the sides of 45 degrees, which is the most optimal since the effectiveness of locking holes 9. In order to obtain a working cavity of increased strength, the hardness of the material of the ball 13 is higher than the hardness of the material of the housing element 7 and the cover 8. In one embodiment, steel grade 3 can be used as the material for the cover 8 and the housing element 7, and as the ball 13 of the valve used ball ball bearing.

The utility model is illustrated by a specific implementation example, which, however, is not the only possible, but clearly demonstrates the possibility of achieving this set of essential features of a given technical result.

According to a utility model (FIGS. 1, 2, 3), the pneumatic jackhammer comprises a housing 4, on which, on one side, a handle 1 is movably mounted to control an inlet valve 3 located inside the housing 4 with the possibility of supplying a working medium through the radial hole 5 to the gas distribution a mechanism that is located in the housing 4 on the other with respect to the handle 1 of the side.

From the side of the handle 1, a barrel 14 is installed in the housing 4, inside of which there is a drummer 19 with the possibility of interaction through the energy of the working medium coming from the gas distribution mechanism, with a working tool (not shown in the drawings).

Pneumatic jackhammer (figure 1, 2, 3) works as follows.

When the handle 1 is pressed in the axial direction, the handle moves the inlet valve 3, opening up the access of the working medium in the form of compressed air from the line through the nipple 23 and the foot 22 to the internal cavity of the housing 4, from it to the radial hole 5, then through to the annular chamber 27, from which compressed air enters the gas distribution mechanism through the working cavity into the central hole 9 (figure 3), from it into the radial hole 10 and through the combined holes 11 in the cover 8 and the housing 7 (figure 2) in the barrel 14 (figure 1) ) enters the chamber 15 cut the hole 24 and further into the idle chamber 26 through the holes 31 depending on the position of the striker 19 and the ball 13 (FIGS. 2 and 3).

In this case, the striker 19 makes reciprocating movements in the chamber of the working stroke 15 (Fig. 1), striking in the lowest position on the working tool, and in the highest position, the striker 15 creates a zone of increased pressure above, and the ball 13 (Fig. 2 and 3), moving in the working cavity, is pressed against the housing element 7 and closes the central hole 9. Excess air from the working chamber 15 is discharged through the opening 31 into the idling chamber 26, the pressure drops, and the hammer 19 moves downward, and the ball 13 (figure 2 and 3) clamp already goes to cover 8, after which the cycle repeats. The exhaust air from the idle chamber 26 through the hole 25 enters the expansion chamber 28 between the barrel 14 and the casing 16, in which the air pressure drops, after which the air is discharged through the grooves 32 in the casing 16 into the atmosphere.

In the process of work, especially during the “break-in” period, the ball 13 is minted (riveted or fastened) on the conical surfaces of the working cavity of the body element 7 and the cover 8, as it were, “seats” - holes corresponding to the surface (5, Fig. 3), forming the surface of the saddle for the ball 13, but already of increased strength and density. As a result, the product exhibits the effect of “rubbing” the ball onto the seating surface for itself, thereby ensuring an increase in tightness and, as a result, the stable operation of the valve with increased reliability and increased durability in the product.

Industrial applicability

The most successfully declared pneumatic hammer is industrially applicable in construction and during mining operations.

Claims (2)

1. A pneumatic jackhammer comprising a housing on which a handle is movably mounted on one side with the ability to control an inlet valve located inside the housing with the ability to supply a working medium to a gas distribution mechanism that is located in the housing on the other side of the handle from the same a barrel is installed in the housing, inside of which there is a drummer with the possibility of interaction through the energy of the working medium coming from the gas distribution mechanism, with a working tool entent, the gas distribution mechanism is equipped with a ball valve having a body element with a cover made with radial and longitudinal channels and forming a working cavity with a ball located in it with the possibility of locking one of the central holes made in the body element and the cover in communication with the said channels barrel through radial and longitudinal channels, and the working cavity is formed sequentially arranged by the first conical section, a cylindrical section and a second conical they portion, are oriented with their tops in the direction of the central holes and bead material is configured with a hardness greater than the hardness of the material of the body member and the cap. 2. The pneumatic jackhammer according to claim 1, characterized in that the conical sections of the working chamber are made with an angle of 45 °.