RU2511193C9 - Damper cutter with adjusted stiffness - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to machine building and may be used in composite cutting tools. It comprises tool tip and its clamp, and holder with recess. It is equipped with two-step metal mandrel, tool bit clamp being rigidly fixed at first step surface shaped to right rectangular parallelepiped. Mandrel cylindrical second step is arranged in closed resilient shell of cured material shaped to barrel with communicated hollow walls and bottom with cylindrical union arranged at its outer wall. Note here that barrel ID and its height equal holder diameter and cylindrical section length. Barrel with mandrel is fitted with clearance in cylindrical recess directed in normal to holder front end top surface and provided with through bore in its bottom in diameter larger than that of aforesaid union aligned with recess bottom bore. Compressed air is forced via union into bottom and barrel walls to fill aforesaid clearances to overpressure to make integral system mandrel-barrel with air overpressure-holder. Cutter rigidity can be adjusted by additional compressed air feed into said closed shell or its release therefrom.

EFFECT: better cutting properties, higher hardness.

3 dwg

Description

The invention relates to mechanical engineering and can be used in metalworking tools.

Known cutter for finishing, containing the holder, in which the cutting insert and its mount is located, an insert of a highly filled composite material on a polymer basis with an oval protrusion on the side of the mount, located in the sample holder, and a force sensor (AS USSR No. 1620212, class B23B 27/00, 1991, Bull. No. 2).

The disadvantages are the low operational characteristics of the cutter, since the highly filled composite material of the insert is applicable only to certain cutting conditions, and when changing them, one has to select a new polymer base of the insert or introduce various fillers into it, achieving the required rigidity; insufficient resistance of the cutter due to the small damping of vibrations arising during the cutting process, because the cutting insert and its mount are not vibration-proof from the tool holder holder, this leads to a decrease in the stability of the cutting process and tool wear.

Known cutter containing a holder, in which the cutting insert and its mount, and an insert of material with high damping, located in the sample holder, the cutter is equipped with a movable stop placed in the support part made on the holder and having a sample, with a longitudinal axis the stop is parallel to the longitudinal axis of the cutter, and at the place of contact of the supporting part with the supporting plane of the holder, an elastic hinge is made, and a protrusion located in the sample of the supporting part is made on the insert (RF Patent No. 20099768, IPC ⁵ V23B 27/00, 1994) . The specified cutter has the following disadvantages:

1. Low operational characteristics of the cutter, due to the fact that the rigidity of the insert from a material with high damping, placed in the sample holder, is unchanged for any process parameters, and when processing various structural materials, it is impossible to control the rigidity of the cutter, so every time you need to select a material with high damping the required stiffness, placing it in a sample holder and polymerization.

2. Insufficient resistance of the cutter due to the ineffectiveness of damping of the vibrations arising during the cutting process, since the cutting insert and its attachment unit are located directly in the holder rigidly fixed in the tool holder, and the insert made of material with high damping is placed in the sample inside the holder, that is, not there is vibration isolation of the cutting insert and its attachment unit from the holder and tool holder, in addition, the movable stop is also not isolated, therefore, additional shock loads occur during the cutting process ki during vibrations of the contacting metal parts of the abutment with the tool holder and tool holder, leading to tool wear.

The technical task of the invention is to improve the operational characteristics of the cutter and increase its durability.

The technical result to improve the operational characteristics of the cutter and increase its durability is achieved by the fact that in a universal damping cutter with adjustable stiffness, containing a cutting insert and its mount, a holder with a sample in it, it is equipped with a two-stage metal mandrel, the cutting insert is rigidly fixed with its mount on the upper surface of the first stage, made in the form of a rectangular parallelepiped, and the second stage of the mandrel is cylindrical and placed in a closed elastic the shell of vulcanized material made in the form of a glass with a communicating hollow side surface and a bottom, with a cylindrical fitting fixed to its outer wall, while the inner diameter of the glass and its height from the inner wall of the bottom are equal to the diameter and length of the cylindrical step of the mandrel, in addition , the cup with the mandrel is freely installed with gaps in a cylindrical sample oriented normal to the upper plane of the front end of the holder and having a diameter through hole in the bottom large diameter of the nozzle, which is passed coaxially with the hole in the bottom of the sample, moreover, compressed air is pumped into the bottom and the side surface of the cup through the nozzle until they fill the gaps between the sample and create the necessary excess pressure to form a single mechanical system: mandrel - cup with injected compressed air - holder , with the ability to control the rigidity of the cutter due to the additional injection of air into the closed elastic shell of the cup or dropping it from the shell without contacting the first stupa Changing the mandrel and nozzle of the glass with a holder and ensuring processing of the product material with a cutting plate.

Figure 1 presents a General view of the cutter during processing of the material; figure 2 is a view of figure 1; figure 3 is a section bB in figure 1.

The cutting insert 1 by its attachment unit 2 is rigidly fixed on the upper surface of a two-stage metal mandrel made in the form of a rectangular parallelepiped of the first stage 3, the second mandrel stage 4 is cylindrical and placed in a closed elastic shell made of vulcanized material made in the form of a cup 5 with communicating hollow side surface and the bottom, with a cylindrical fitting 6 fixed in its outer wall, while the inner diameter of the cup 5 and its height from the inner wall are days are equal respectively to the diameter and length of the cylindrical step 4 of the mandrel.

The cup 5 with the mandrel is freely installed with gaps in a cylindrical sample oriented normal to the upper plane of the front end of the holder 7 and having a through hole 8 with a diameter d ₂ larger than diameter d and a fitting 6 in the bottom, which is passed coaxially with the hole 8 of the sample bottom.

Compressed air is pumped through the nozzle 6 into the bottom and the side surface of the nozzle 5 until they fill the gaps between the sampling and create the necessary excess pressure to form a single mechanical system: mandrel - nozzle 5 with injected compressed air - holder 7, with the possibility of adjusting the rigidity of the cutter due to additional injection air into the closed elastic shell of the cup 5 or dropping it from the shell without contacting the first stage 3 of the mandrel and the nozzle 6 of the cup 5 with the holder 7 and with processing 1 st plate material products.

The closed elastic shell of the cup 5 can be made, for example, of rubber or fabric frame with double-sided rubber plates subjected to vulcanization. Since the inner diameter of the cup 5 and its height from the inner wall of the bottom are equal to the diameter and length of the cylindrical step 4 of the mandrel, and the elastic material of the cup 5 is stretchable, the cup 5 tightly covers the entire cylindrical step 4 of the mandrel.

The cylindrical sample is oriented normal to the upper plane of the front end of the holder 7. The diameter of the sample is chosen so that it freely with small gaps was installed glass 5 with a stepped mandrel, in the upper stage 3 which is rigidly fixed by the mount 2 mounting plate 1. The depth of selection should be such that the upper stage between the mandrel 3 and the tool holder 7 there is a gap in the through hole 8 in the bottom of the sample holder 7 coaxially with the cylindrical socket 6 is passed cup 5, the diameter d ₁ fitting 6 smaller diameter d ₂ up responses ment 8 (d ₁ <d _2).

Compressed air is pumped through the nozzle 6 into the communicating cavity of the bottom and lateral surface of the closed elastic shell of the cup 5 until they fill the gaps between the sample holder 7 and create the necessary overpressure to form a single mechanical system mandrel - cup 5 with the injected compressed air - holder 7. Minimum excess the pressure P _min in the cup 5, which determines the operability of the cutter, is the pressure ensuring the absence of rotation (slipping) along the contact surfaces of the cylindrical tupeni 4 mandrels in the glass 5 and glass 5 in the holder 7 for any parameters of the processing mode of structural materials. The pressure inside the closed elastic shell of the glass 5 is controlled by a pressure gauge. The mounted cutter is installed in the tool holder (pressure gauge and tool holder not shown). Stiffness is calibrated - the pressure of the formed mechanical system.

Universal damping tool with adjustable stiffness works as follows.

According to the calibration performed, the stiffness - pressure, depending on the material being processed and the technological modes of its processing, regulate the stiffness of the cutter by additionally pumping air through the nozzle 6 into the closed elastic shell of the cup 5 or dropping it from the shell. In this case, the first stage 3 of the mandrel does not contact the holder 7, since they were installed with a guaranteed clearance when mounting the cutter, and the nozzle 6 of the glass 5 does not come in contact with the holder 7, since the diameter d _{1 of the} nozzle 6 is less than the diameter d _{2 of the} through hole 8 of the bottom sampling. Therefore, the bottom and side surface of the cup 5 with the air pumped into it produces highly effective damping of longitudinal and transverse vibrations and shock loads that occur during cutting as a result of vibration isolation of the cutting insert 1 with its attachment 2 on the upper surface of the first stage 3 of the mandrel from the holder 7 and tool holder, thereby ensuring the reliability of a stable cutting process and increasing the resistance of the cutter when processing products in any turning and planing technological operations (the cutter is universal).

Stepless remote control of the stiffness of the cutter due to changes in the pressure of compressed air in the closed elastic shell of the cup 5 can be carried out directly in the process of machining materials, this creates the possibility of shifting the natural frequencies of the oscillations of the tool and the driving force of the cutting in wide ranges, avoids the undesirable phenomenon of resonance and leads to increase the resistance of the cutter and improve its operational characteristics.

Regulation of the supply of compressed air to the closed elastic shell of the cup 5 to create the necessary pressure is carried out through the nozzle 6, for example, using a three-position valve installed on the duct from the compressed air supply, such as a compressor. The first position of the valve connects the compressed air supply means with a closed elastic shell of the glass 5. The second position of the valve blocks the air supply to the hollow side surface and the bottom of the glass 5. The third position connects the glass 5 with the atmosphere (compressor and three-position valve are not shown). It is possible to regulate the supply of compressed air also using a valve system, spool or other devices.

It is possible to replace the cutting insert 1 without dropping the air pressure in the hollow side surface and the bottom of the cup 5.

If it is necessary to dismantle the cutter, the holder 7 is released from the tool holder, the pressure in the closed elastic shell of the glass 5 is released to atmospheric pressure, after which the existing mechanical system has a two-stage mandrel - glass 5 - the holder 7 breaks up into separate components.

The originality of the proposed universal damping cutter with adjustable stiffness is that it is equipped with a two-stage metal mandrel, the cutting insert 1 by its attachment unit 2 is rigidly fixed on the upper surface of the first stage 3, made in the form of a rectangular parallelepiped, and the second stage 4 of the mandrel is made cylindrical and placed in closed elastic shell made of vulcanized material made in the form of a glass 5 with communicating hollow side surface and bottom, with fixed cylindrical fitting 6 in its outer wall, while the inner diameter of the cup 5 and its height from the inner wall of the bottom are equal to the diameter and length of the cylindrical step 3 of the mandrel. In addition, the cup 5 with the mandrel is freely installed with gaps in a cylindrical sample oriented normal to the upper plane of the front end of the holder 7 and having a through hole 8 with a diameter of d ₂ in the bottom, larger than the diameter d _{1 of the} nozzle 6, which is passed coaxially with the bottom hole 8 sampling, and through the nozzle 6, compressed air is pumped into the bottom and the side surface of the nozzle 5 until they fill the gaps between the sampling and create the necessary excess pressure to form a single mechanical system, the mandrel - nozzle 5 with the injected m with air - holder 7, with the ability to control the rigidity of the cutter by additionally pumping air into the closed elastic shell of the cup 5 or dropping it from the shell without contacting the first stage 3 of the mandrel and the nozzle 6 of the cup 5 with the holder 7 and ensuring processing of the cutting plate 1 of the product material . This allows:

1. To improve the operational characteristics of the cutter due to the stepless remote control of its rigidity by changing the pressure in the closed elastic shell of the glass.

2. To increase the resistance of the cutter, since the bottom and side surface of the glass with the air pumped into it produces highly effective damping of longitudinal and transverse vibrations and shock loads as a result of vibration isolation of the cutting insert with its mount on the upper surface of the first stage of the mandrel from the holder and tool holder.

Thus, the proposed universal damping cutter with adjustable stiffness allows to achieve a technical result to improve the operational characteristics of the cutter and increase its durability.

Claims (1)

A damping cutter with adjustable stiffness, comprising a cutting plate, its attachment unit and a holder with a sample in it, characterized in that it is equipped with a two-stage metal mandrel, the cutting insert with its attachment unit is rigidly fixed on the upper surface of the first stage, made in the form of a rectangular parallelepiped, and the second stage of the mandrel is made cylindrical and placed in a closed elastic shell of vulcanized material made in the form of a glass with interconnected hollow lateral surface idle and bottom, with a cylindrical fitting fixed in its outer wall, while the inner diameter of the glass and its height from the inner wall of the bottom are equal to the diameter and length of the cylindrical step of the mandrel, while the glass with the mandrel is freely set with gaps in a cylindrical sample oriented along the normal to the upper plane of the front end of the holder and having a through hole in the bottom with a diameter larger than the diameter of the fitting, which is passed coaxially with the opening of the bottom of the sample, and through the fitting in the bottom and side the surface of the cup is pumped with compressed air until it fills the gaps between the sample with the creation of the necessary excess pressure for the formation of a single mechanical system: mandrel - cup with pumped compressed air - holder, which makes it possible to control the stiffness of the cutter due to additional pumping of air into the closed elastic shell of the cup or air discharge from shell without contacting the first stage of the mandrel and the nozzle of the glass with a holder when processing a cutting plate of the product material.

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