FR1464541A - Hammer drill - Google Patents

Description

 Hammer drill. The present invention relates to a perforating hammer with a support, the length of which can be modified in both directions by the action of compressed air and which is connected to a hinge, whose coupling elements intended for the control of the hammer as well as of the support are preferably arranged near the hammer head.

Hammers are known in which the hammer itself and the support to which the hammer is articulated are served by control members which are arranged together at the hammer head. In this case, as in most hammer drills, the compressed air supply is via the hammer handle. Since the operating members are arranged on the cylinder or on the cylinder cover of the hammer drill, it is necessary for all the control channels of the hammer and also the support to pass through the hammer roll which, in any case , requires for the only control of the hammer a large number of channels. But in addition, it is necessary that these channels for the control of the hammer and the support pass to and from the joint so that the housing of these channels presents a number of difficulties because of the necessity. to have a number of additional channels in the cylinder of the boat. In addition, due to the presence of compressed air supply fittings, the hammer is excessively loaded to its head.

To avoid these drawbacks, the present invention proposes to provide the axis of the articulation assembling the hammer to the support of an axial bore for bringing compressed air to the hammer and the support. In this axial bore is housed the intake valve nut. On the axis of the articulation are mounted, besides the hinge pin of the hammer and the hinge pin of the support, the maneuvering arm for the control of the support and the articulated arm for the control of the hammer. . The features and advantages of the present invention will become apparent from the following description by way of example, with reference to the accompanying drawings in which Figure 1 shows an overview of the hammer drill with its articulated support; Figure 2 shows a longitudinal section of the joint with the head of the support and the head of the hammer; Figure 3 shows the maneuvering arm of the suport seen in section taken along the line III-III of Figure 2, with the support head having rotated 90; Figure 4 shows a cross section of the hammer and the support joint taken along line IV-IV of Figure 2; Figure 5 shows a cross section of the hammer head executed along line V-V of Figure 2; Figure 6 shows a cross section of the joint executed along the line VI-VI of Figure 3; Figures <I> 7a, 7b </ I> and 7c respectively show cross sections of the rotating handle for adjusting the support taken along the line VII-VII of Figure 3, for different angular positions of the handle rotating, allowing to see the path of the compressed air stream in these three positions, that is to say in position of advancement, in the idle position and in the return position of the support; Figures <I> 8a, 8b </ I> and 8c show cross sections of the rotating handle taken along the line VIII-VIII of Figure 3, showing the respective position of the channels in advance position, in position at empty and back support position.

According to the embodiment chosen and shown, the hammer 1 is connected to the support 2 by an articulation 3. The hinge pin 5 is a tube element closed on the front side in which is fixed the elbow 4 for the connection of 'pressurized air. Following the elbow 4, and separated from it by a coil res is in the axis of articulation 5 the intake valve nut 6 on the frontside of which is mounted a conical wheel 7 The hinge pin 5 is surrounded on the one hand by the bearing 8 of the support 2 and on the other hand on the bearing 9 of the hammer hammer cylinder. Inside the hammer cylinder, the distributor 12 is housed between the casing 10 and the casing cover 11. Above the casing is mounted the helicoidal hammer drill rod 13, and, above the cover of the casing cylinder 14.

On the hinge axis 5 is mounted the operating arm 15 for the compressed air control of the support cylinder. In this operating arm is housed a regulating valve 16 on which is engaged the rotating handle 17 for the control of the channels for moving the sup port. In addition to this operating arm is mounted on the hinge axis 5 an articulated arm 18 at the front end of which is disposed a conical wheel 19 which meshes with the conical wheel 7 provided at the front end of the faucet nut admitted. if we. With the aid of these two control devices, it is possible to carry out all the operations of controlling the movements of the hammer and the support. By rotating the hinge axis, it is possible to modify the angular position of the control devices relative to the hammer. Likewise, the axial length of the two arms 15 and 18 may be chosen optionally. For the control of the working compressed air for the perforating hammer 1, the articulated arm 18 is pivoted about its longitudinal axis and, in doing so, the position of the intake duct 102 in the intake valve nut 6 with respect to the channel 104 in the hammer drill is modified by means of the conical wheels 7 and 19. In the working position, the compressed air passes through the longitudinal channel <B> 101 </ B> of the elbow 4 of the joint 3, arrives in the valve nut 6 and then passing the bore 102 of the nut valve (FIG 2) and the bore 103 of the hinge pin, arrives in the channel 104 of the hammer cylinder; from there, it enters the chamber 105 located between the casing 10 and the distributor 12, so that the hammer drill enters into action in a known manner.

To control the output or the return of the support piston 21 and consequently the position of the hammer drill, it is provided <B> the maneuvering arm 15 whose rotating handle 17 is engaged over the tenon 16 of the control valve interconnects the channels in the arm 15 and in the rotating handle according to the position of the latter and thus determines the pressure ratios above and below the piston 21 of the support 2.

For the advancement of the support, the compressed air exits the channel 101 of the elbow 4 and the valve nut 6, passes through the axial bore 110 of the conical wheel 7 disposed at the front end of the faucet nut. admission and arrives in space 111; then, through the channels 112 and 113, it enters the channel 114 of the maneuver arm 15. From there, the compressed air enters the longitudinal channel 115 and then into the transverse channels 116 and 117 of the post 16 of the control valve . Passing through the notch 118 (FIG 7a), the compressed air arrives in the recess 119 of the rotating handle 17 and thence through the notch 120 in the channels 121, 122 and 123 (FIG. ) formed in the post 16; then, passing through the channel 124, the compressed air arrives in the annular chamber 125 which surrounds the rod 30, to arrive, through the channels 16, 127 (FIG 6) and 128 in the space 129, and by the Crane 130 of the hinge axis 5 in the longitudinal bores 131 and 132 (FIG 3). From this cannula, the compressed air enters the channel 133, 134, <B> 135, 136 </ B> and, passing through the channel 137, arrives in the chamber 138 of the support cylinder connected by the nut 23. In order to be able to deploy the support foot 20, the compressed air must be derived from the chamber 140 (FIG 2) below the piston 21. Leaving this chamber, the compressed air passes through the channels 141, 142, 143, 144, 145, 146, 147 (FIG 2) and through the channels 148, 149 (Figures 5 and 6) and then through the notch 150 of the hinge axis and arrives in the channel 151; then, through the channels 152, 153, it is directed on the channel 154 in <B> the operating arm (FIG 2) and on the channel <B> 155, </ B> 156, 157 in the pin 16 of the control valve (Figure 8a). Passing through the notch 158 of the post and the recess 159 in the rotating handle, the exhaust air arrives in the channels 160 and 161 of the pin 16 and from there passes through the channels 162 and 163 (Fig. 3) to escape to the open air, the chamber 140 (Figure 1), remaining in connection with the outside air during the entire operation of the support.

In the empty position of the rotary handle, that is to say in the position in which the two chambers of the support are emptied of compressed air and therefore relaxed, the chamber 139 (fig.1), and the chamber 138 (Fig. 2) of the support are connected to the outside air via channels 137, 136, <B> 135, </ B> 134, 133 (Fig. 3), 131 (Fig. 6), 130, 129, 128, 127 (Fig. 2), 126, 125, 124, 123, 122 (Fig. 7b), 121, 118, 164 and 165 (Fig. 3). The other chamber 1.1.0 of the support, as has already been done for the advancing position, continues to remain connected to the outside air through the recess 159 prepared in the rotating handle and the in the journal 16, even after rotation of the rotary handle (Fig. 8b).

For the return movement of the support, the rotating handle must take the position of FIGS. 7c and 8c. In this position, the chamber 139 located above the piston 2 of the support receives the compressed air that comes from the inlet channel 101 and passes through the axial channel 110 of the conical wheel 7 and successively through the channels 111, 112, 113, until arriving at the canai 115 in the manpower arm; from there, the compressed air arrives in the channel 116, 118 (Figure 7c) and in the recess 157 (Figure 8c) of the rotating handle, then in the notch 158, the channels 157 and 156 (Fig. 2), then into the channels 155, 154 of the support arm, to penetrate from there into the channels 153, 152 and 151 (Fig. 6). Starting from the notch 150 and the channels 149, 148 (FIG 3) and 147 (FIG 2), 146, 145, 144, 143, 142, 141 and 140, the compressed air arrives under the support 140 and slidably returns the foot 20. At the same time, the air located above the piston 21 and coming from the space 139, 138, 137 is directed by the succession of channels whose reference numerals go downhill up to channel 121 in post 16; from <B> there, </ B> passing through the notch 120 (Fig. 7c) and the recess 119 of the revolving handle 164, 165, it reaches the open air (Fig. 3).

In order to be able to directly relax the support chamber 139 during the advancement operation, as this may sometimes become necessary during the drilling operation in case of irregularity in the rock, it is provided on the operating arm. 15, next to the rotating handle for the control of the support an exhaust valve 29 with an air venting plunger 30. When this push button is pressed, the pistons 31 and 32 move; the channel 124 is blocked by the piston 31 and, consequently, the arrival of compressed air to the support is cut off, whereas, due to the simultaneous displacement of the piston 32, the channel 127 located in the maneuvering arm 15 at above the annular chamber 125 is connected through the bead of the piston with the chamber 170 which opens into the open air through the bore 171. Through this communication communication channel 127 with the outside air, the The chamber 139 (Fig. 1) is emptied of air compressed by the channels 126 to 138 so that the support leg can move axially without anything preventing it. For the cleaning of the borehole with the aid of a cleaning means coming from the curved fluid coupling 38, the articulated lever 33 and consequently the articulated arm 18 are pivoted until it takes a position such that the compressed air coming from the chamber 101 of the intake valve nut 6 arrives in the channel 175 of the hinge axis 5 and, through the channel 176 of the hammer cylinder 9 reaches the channel 177 of the cover of the timing case and, <B> there, </ B> the annular channel 178. The annular channel 178 is in connection with the annular channel 179 (FIG 5) and the compressed air which is coming pushes the piston 35 and therefore the rod 36 against the valve ball 37, against the tension of the spring 38. In this way, the rinsing fluid arriving from the elbow fitting 38 can pass through the channel 180, cross the valve ball 37 and get into the canai 181, then through the annular channel 182, in the canai 183, which allows him to pen trate in the axial flushing fluid canai the hammer drill until borehole bottom.

 The particular advantage presented by the device according to the invention is that the control of the hammer 1 and the support 2 as well as the operation of the compressed air purge valve can be performed with the aid of a single hand, so that the other hand can guide the foil shaft while drilling. While, with one hand, the worker surrounds the rotating handle, he can with the help of a finger of the same hand bring to the desired position the pivoting lever controlling the intake valve for the air inlet hammer tablet. If necessary, it can also, with a finger of the same hand, operate the compressed air bleed valve. Thanks to this arrangement of the control organs the other hand remains easily available for any other work.

Claims (1)

 RESTJML 1 Hammer drill with support connected with a hinge and whose length can be varied in both directions by compressed air, in which the coupling elements intended for the control of the hammer and the support are preferably arranged in the vicinity of the hammer head, characterized in that the hinge pin which connects the hammer to the support has an axial bore for bringing the compressed air to the hammer and the support. 2 Such a perforating hammer remarkable, in addition, by the following points, taken singly or in combinations a. On the axis of articulation are mounted arms serving as supports for the control devices; b. On the hinge axis are mounted a pivoting arm for the compressed air supply control and an operating arm for controlling the movements of the support; c. The hinge axis comprises a net intake nut; d. The operating arm is provided with channels which lead to a rotating handle by means of which the compressed air supply control is adjusted to the support; e. On the intake valve nut is provided a conical wheel which meshes with another bevel gear provided on the pivoting arm; f. The conical wheel of the intake valve bush has an axial bore bringing the compressed air to the duct located in the operating arm g. The pivoting lever of the swivel arm as well as the rotating handle of the maneuver arm are within easy reach in all working positions; h. The pure air valve is located on the control arm. -