SU1197777A1 - Chip ejection drill - Google Patents

Description

The invention relates to the processing of metals by cutting and can be

used in the processing of deep

holes.

The aim of the invention is to reduce the flow of coolant (coolant) due to the use of the treatment along with the coolant gas.

FIG. 1 presents ^ proposed ejector drill, longitudinal section; in fig. 2 is a section A-A in FIG. one . "'*

Ejector drill bit. Consists of tool head 1, with cutting 2 and guide elements 3 fixed in any known way. The tool head is fixed by means of a thread on the inner tube 4, rigidly fixed inside the outer tube 5. The inner surface of the tube 4 forms a chip diverter channel 6.

Channels 7 connect the coolant supply line to the cutting elements of the drill formed by the coolant supply hole 8, the longitudinal grooves 9 and the annular groove 10 with the gas supply line formed by the gas supply hole 11, the annular groove 12 and the longitudinal groove 13 in the inner tube. Sleeve 14, fixed at. assistance thread in the outer pipe 5, forms an annular ejector nozzle 15, installed in the annular groove ·· ke 12.

Ejector drill works as follows.

The workpiece 16 and the ejector drill are informed of the relative rotation and movement of the working feed. The coolant supplied through the grooves 9, is mixed with gas, such as air supplied through a longitudinal groove

5 13 and channels 7, forming a two-phase

flow (mixture of gas and. SOZH), passing through the annular gap between the body of the tool head 1 and the outer tube 5.

10 In external filter devices, the air is cleaned in any known manner. ·

The air supplied through the hole 11, passing through the ring

15, an ejector nozzle 15, creates a vacuum in the inner tube 4, due to which the two-phase flow is entrained inside the tool head, capturing the

20 chips. To prevent leakage through the annular gap between the outer tube 5 and the part 16, the air supply to the ejector nozzle is adjusted by means of a sleeve 14,

25 to the cutting elements 2 of the tool head 1 - with a screw 17. In addition, the adjustment of the air supply can be made from an external source (pneumatic plant

30 by means of an adjusting cock (not shown). Similarly, the adjustment of the coolant through the hole 8 (from the pump unit, not shown) can be made.

35 ¹

· ”Chip removed through the chip-forming channel 6 and the internal channel of the sleeve 14 is carried out to the machine chipbreaker (not shown);

1197777

Claims (1)

EJECTOR DRILL, containing outer tube with coolant supply pipe (coolant), located coaxially the inner tube bearing the tool head and the outer surface of the inner tube are made stepped with longitudinal grooves, and in the outer tube from the end opposite the tool head there is an axial displacement of the sleeve forming the end gap, which is an annular ejector nozzle, different the fact that, in order to reduce the consumption of coolant, the longitudinal grooves of the inner tube, except for one, are connected to each other and the coolant supply pipe with the help of The circumferential groove, and the remaining longitudinal groove is connected to an annular ejector nozzle and a gas inlet pipe and these grooves inserted into the device through channels formed on the outer surface of the inner pipe from the tool 1 / mental head. g " 1 1197777 2