SU683858A1 - Portable drilling machine - Google Patents

Description

If the drill is during a constant stroke, then in all other modes the drill power is not fully used. In addition, when changing the material, the diameter of the drill, etc., the throttle valve needs to be adjusted to the new drilling mode. All this reduces the productivity of drilling.

The purpose of the present invention is to increase the drilling performance by automatically continuously varying the feed rate depending on the speed of the pneumatic motor.

This goal is achieved by the fact that the drilling machine is equipped with an additional pneumatic cylinder, the inlet of which is connected to the feed chamber of the pneumatic engine, which is simultaneously the forward stroke chamber of the pneumatic feed cylinder, and the stem of the additional cylinder is connected to the throttle.

Thus, an additional pneumatic cylinder is an element that reacts to a change in the pressure of compressed air in the feed chamber of a pneumatic engine, depending on its speed during the drilling process, and controls the throttle, which regulates the flow rate of fluid in the hydraulic cylinder, and therefore, the tool feed rate.

FIG. 1 shows a diagram of a portable pneumatic drilling machine; in fig. 2 shows graphs of the pressure of compressed air in the feed chamber of an air motor p f (n), 11 of the feed speed of the drill v f (n) versus the speed of the air motor during the drilling process at constant pressure of the compressed air in the network.

The portable drilling machine has a pneumatic-hydraulic feed mechanism consisting of a pneumatic feed cylinder / and a hydraulic cylinder 2, in which there is a drive pneumatic piston 3 and a retarding hydraulic piston 4, connected to each other by a rod 5. The pneumatic piston 3 has an air motor 6 for rotating the spindle . The feeding chamber 7 of the pneumatic motor 6, into which the compressed air from the network is supplied, is at the same time the forward stroke chamber of the pneumatic cylinder.

An additional pneumatic cylinder 8 with a rod 9 is connected to the feed chamber 7. The rod 9, spring-loaded spring 10, is connected to an adjustable throttle //, needle needle. In addition, there is a check valve 12 for quickly returning the pistons 5 and 4 and the compensation cylinder 13.

The portable pneumatic drilling machine is attached to the body (pneumatic cylinder /) and to the guide beams mounted on the product, and works after; yushi way.

When the compressed air is supplied from the network to the feed chamber 7, the air motor 6 begins to rotate at idle with the revolutions of P. Since the air flow in

In this case, the maximum, then the pressure in chamber 7 is minimal and equal to pi. At this pressure, the brush 9 is pressed by the spring JO, and the choke // is fully open. There is a quick approach of the drill to the workpiece at a speed V. After the drill touches the part, the drilling process begins. The tool is affected by cutting forces that decrease the speed of the air motor 6. The air flow through the air motor 6 decreases, the pressure in the feed chamber 7 increases, the force acting on the rod 9 increases and moves it, reducing the throttle flow area //.

The tool feed rate slows down (curve v f (n), and at a certain speed value of the air motor P2, the tool feed stops

(2 0), since the throttle // is completely closed at a pressure of P2 (the number of revolutions P2 is regulated by a spring-other 0 and is chosen so as to prevent the air motor 6 from stopping when the drill is jammed). So

As the cutting force drops to zero, the revs of the air motor 6 increase again, the pressure in the feed chamber 7 decreases, the rod 9 under the action of the spring 10 opens the throttle 11 and the tool feed begins.

Thus, in accordance with the drilling conditions, at each certain moment the drilling machine has a rotational speed Lz and a feed rate of the drill bit Oz, moreover P2 C "3 - n, o Vg - Vi.

Claims (1)

Invention Formula A portable drilling machine containing a pneumatic motor for tool rotation, a pneumatic feed cylinder divided into forward and reverse chambers by a piston connected through a rod with a piston of a hydraulic cylinder, divided into two chambers, communicating with each other through a throttle, limiting the flow rate of the fluid, characterized in that increase drilling productivity by automatically infinitely varying the feed rate as a function of the air motor revolutions; it is equipped with an additional pneumatic cylinder, the inlet of which is connected to the feed chamber of the pneumatic engine, which is also the forward stroke chamber of the pneumatic feed cylinder, and the additional cylinder rod connected to choke. The source of information taken into account during the examination: 1. US Patent No. 3627436, cl. 408-13, published. 1971. , (Rag