RU12522U1 - TIP DENTAL TURBINE FRICTION (OPTIONS) - Google Patents

Abstract

1. The tip of the dental turbine friction, comprising a housing with a connection with a drill hose and a head with a cover, spring liners installed in the head on a roller having a cylindrical internal cavity, a turbine located in the head on the roller and ball bearings with damping rings, characterized in that at least three through grooves are made in the roller, located at an angle to the axis of the roller 10 - 45, connected by oval holes with the inner cavity of the roller, one spring is installed in the grooves of the roller the liner, each of which is cylindrical with an angle of inclination of the ends in the direction to each other 90 - 10, and the liners are installed protruding through oval holes in the inner cavity of the roller by an amount equal to 0.1 - 0.5 of the diameter of the liner, and the turbine is made metal with a density of 1.4 - 1.9 g / cm. 2. Dental turbine friction tip, comprising a housing with a connection unit with a drill hose and a head with a cover, spring liners installed in the head on a roller having a cylindrical internal cavity, a turbine located in the head on the roller and ball bearings with damping rings, characterized in that the roller has made at least three through grooves located at an angle to the axis of the roller 10 - 45, connected by oval holes with the internal cavity of the roller, one spring is installed in the grooves of the roller CB liner, each of which is cylindrical with a taper angle of the end faces towards each other 90 - 10, wherein the inserts are installed protruding through oval holes in the inner cavity of the roller by an amount equal to 0.1 - 0.5 dia

Description

TIP DENTAL TURBINE FRICTIONAL

(OPTIONS)

The proposed technical solution relates to medical. technology, namely, dental instruments and can be used to fix the core tools in the turbine tips.

There is a construction of a Tool Clamp (application of Germany No. 033346248, IPC А61С 1/14, 23 В 31/04, published July 4, Q5 in B. Inventions of the world, issue N 13, N 2, 1986).

The clamp for dental instruments contains a sleeve mounted in the tip connected to a rotary drive. The sleeve is equipped with clamping elements and a spring. Elements act on the tool shank installed in the receiving sleeve inward, in the radial direction. The clamp is provided with a spring, and the clamping elements comprise at least one clamping jaw forming a separate assembly relative to the receiving sleeve. In turbine tips, due to the miniature size of the head, this design finds limited application due to the complexity and volume of the structure.

The closest design to the proposed technical solution is the NTS Turbine Friction Tip - 300 05, mass-produced at the enterprise GUPNPP MIKRON, Kazan, JSC Metalist, Serpukhov.

IPC 6 A 61 s 1/14 V 23 V 31/04

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with a turbine mounted on two ball bearings in the damper bearings, which are rubber rings. One of the bearings on the damper ring is mounted in the housing cover, and the other in the housing bore and spring-loaded through the cage. On the roller, there are two transverse grooves against each other, in which are laid vkladppi, which are spring plates. As the turbine material, aluminum alloys D 16 and B 95 are used; similar aluminum alloys are used for these purposes in foreign designs.

The main disadvantages of the friction tips are the change in the boron retention force during operation. This is due to the fact that the liner by design features can not be more than 2.5 mm in length. The thickness of the insert is of the order of O, 6O, 8 mm, and for effective retention of boron it undergoes a bend of about 0.15 mm. The tip must withstand at least 2000 cycles of operating time for insertion - removal of the cutting tool, not exceeding the limits of the insertion - extraction force from 4 to 2 kg. The tips do not withstand these requirements due to the high coefficient of deformation of the liner.

The technical problem of the proposed technical solution is to increase the reliability of the tip. In addition, the turbine tips must have a mean time to failure of at least; 120. hours,.; - The main reason for the failure of the tip is the breaking of ball bearings. This is due to the fact that the suturbinoi roller rotates in ball bearings with a frequency of over 30,000 rpm, and the ball bearings cannot withstand these loads. The main load on the ball bearing is turbine imbalance. Foreign manufacturers produce static and dynamic balancing of the turbine. Domestic manufacturers do not do balancing due to the high price of equipment for balancing and the complexity of this process.

The technical problem to be solved is in the dental friction friction tip, its first variant, comprising a housing with a connection unit with a drill hose and a head with a cover, spring inserts installed in the head on a roller having a cylindrical internal cavity, a turbine located in the head on the roller and ball bearings with damping rings, is achieved by the fact that at least three through grooves are made in the roller, located at an angle to the axis of the roller in the range from 10 to 45, connected by oval holes to the inside the inner cavity of the roller, in the grooves of the roller there is one spring inlay, each of which is made cylindrical with an angle of inclination of the ends in the direction from each other in the range from 90 to 10, and the liners are installed protruding through oval holes in the inner cavity of the roller by an amount equal to 0 , 1 - О, 5 dishletra of the insert, and the impeller is made of metal with a density in the range from 1.4 to 1.9 g / cm.

The technical problem to be solved is in the tip of the dental turbine friction, its second variant, comprising a body with a unit. Connections with a drill hose and a head with a cover, spring inserts 1I installed in the head on a roller having a cylindrical-internal cavity, a turbine located in the head on the roller. and ball bearings with damping rings, is achieved by the fact that at least three through

.3.

grooves located at an angle to the axis of the roller in the range from s to 45, connected by oval holes with the inner cavity of the roller, in the grooves of the roller there is one spring-insert, each of which is cylindrical with an angle of inclination of the ends in the direction to each other ranging from 90 to 10 /, and the liners are installed protruding through the oval holes in the inner cavity of the roller by an amount equal to 0.1, -O, 5 of the diameter of the liner.

The technical problem to be solved is in the dental friction friction tip, its third variant, comprising a housing with a connection unit with a brake hose and a head with a cover, spring inserts installed in the head on a roller having a cylindrical internal cavity, a turbine located in the head on the roller and ball bearings with damping rings, is achieved by the fact that the impeller is made of metal with a density in the range from 1.4 to 1.9 g / cm.

Magnesium alloys can be used as the material of the turbine, for example, an alloy of medium strength 1 and an alloy of low density MA - 18 (AMD 5). The magnesium alloy W 2-1 has a density of 1.78 g / cm, and the magnesium alloy of low density MA - 18 (AMD - 5) has 1.5 g / cm.

The proposed technical solution satisfies. the novelty criterion, since the authors did not find a technical solution from published sources of information that has the same distinguishing features as the proposed technical solution.

In FIG. 1 shows a tip-dental turbine friction common its first, second and third options.

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99 / fr539

- Oh, enlarged. In FIG. 3 shows a transverse: section along the roller with liners, enlarged. In FIG. 4 shows the groove on the roller, enlarged. In FIG. 5 shows liners, magnifications. The dental turbine friction tip, (Figs. 1-5), its first variant, comprises a housing 1 with a connection unit with a drill hose 2 and a head 3 with a cover 4, spring inserts 1 and 5 installed in the head 3 on a roller 6 having a cylindrical inner cavity 7, a turbine 8 located in the head 3 on the roller 6 and ball bearings 9 and 1 O with damping rings 11 -12. At least 6 through grooves 13 are made on the roller 6, located at an angle from the axis of the roller 6 from 10 to 45, connected by oval holes 14 with an internal cavity 7 roller a 6. In the grooves 13 of the roller 6, one spring insert 5 is installed, each of which is cylindrical with an oblique angle of the ends 15 in the direction to each other ranging from 10C (.), and the inserts 5 are mounted protruding through the oval holes 14 into the internal cavity 7 of the roller 6 by an amount equal to 0.1 0.5 of the diameter (d) of the liner 5, and the turbine 8 is made of metal with a density in the range from 1.4 to 1.9 g / cm. On the cover 4 there is a hole 16. The tip of the dental turbine is frictional, (Fig. 1 5)., Its second option contains a housing 1, with a connection unit with a drill hose and a head 3 with a cover 4, spring inserts 5 installed in the head 3 on a roller 6 having a cylindrical internal cavity 7, a turbine 8 located in

the head 3 on the roller 6 and ball bearings 9 and 10 with damping rings And and 12. In the roller 6 is made-not hfieHee three through grooves 13, located at an angle. K. the axis of the roller in the range of 45 connected by oval holes 14 with the internal cavity, 7 of the roller 6, in the grooves 13 of the roller 6, one spring insert 5 is installed, each of which is cylindrical with the bevel angle of the ends 15 in the direction to each other ranging from 90 to 10 (angle s /.), And the liners 5 are installed protruding through the oval holes 14 into the inner cavity 7 of the roller 6 by an amount equal to 0.1 - O, 5 of the diameter of the (d) -insert 5.

The dental turbine friction tip, (Fig. 1-2), its third variant, comprises a housing 1 with a connection unit with a drill hose 2 and a head 3 with a cover 4, spring inserts 5 installed in the head 3 on a roller 6 having a cylindrical internal cavity 7, a turbine 8 located in the head 3 on the roller 6 and ball bearings 9 and 10 with damping rings 11 and 12. The turbine 8 is made of metal with a density in the range from 1.4 to 1.9 g / cm, for example, magnesium alloys medium strength No. 2-1 and low density MA - 18 (AMD - 5).

The proposed tip, according to the first embodiment, works as follows. A cylindrical shank of a cutting (boron) or grinding (diamond head) core tool is inserted into the internal cavity 7. It moves to the place where the liner 5 exits through the oval holes 14, spreads them, and enters the roller 6 along the entire length of the internal cavity 7. At the same time, the spring liners 5 are elastically deformed, holding the cylindrical shank of the core tool. Extraction force

the tool is 24 kgf, while the diameter of the elastic

5 inserts is from O, 5 to O, 9 mm depending on its

LENGTHS and the angle of inclination of the ends (angle „“ /.). If it is necessary to remove the core tool, a pusher shaft is inserted into the hole 16 on the cover 4 and axial force is applied, the pusher shaft passes into the inner cavity 7 of the roller 6 and pushes the shank of the core tool. The liner 5 is in its original position. The most rational is the number of inserts equal to three, since in this case the core tool is centered on three points. The width of the groove And should be 0.050.1 mm greater than the diameter d of the liner 5. The angle of inclination of the ends .. in the range from 10 ° is due to the fact that the beveled ends 15 are adjacent to the inner diameter of the ball bearing 9 and turbine 8 and, as it were, increase the length of the liner 5, decreasing the relative value of the bend of the liner 5. However, the location of the ends 15 under

angle 90 relative to the axis of the insert 5. Angular arrangement (,

at an angle, X.) of the inserts 5 increases their length, while the relative deformation (bending) coefficient of the inserts 5 decreases and they do not have permanent deformation, which reduces the retention force of the shank of the core tool. Number . insertion - extraction of the core tool increases sharply and does not, it decreases during operation (about 2000 cycles).

When air is supplied to., Turbine 8 in a short period of time, it develops a rotation frequency of more than 300,000 rpm. At such high speeds, intense wear occurs.

ball bearings 9 and 10, which largely depends on the imbalance of the turbine 8. To reduce the imbalance of the turbine 8 is a static and dynamic balancing. However, if a turbine 8 is made from a material of reduced density with the same geometric dimensions and with the same accuracy, then the imbalance decreases in proportion to the decrease in the density of the material. For example, if we use MA18 (VMD5), a low-density magnesium alloy with a density of 1.5 g / cm, to manufacture a turbine 8, then the imbalance will decrease in comparison with a D 16T aluminum alloy impeller with a density of 2.8 g / cm 1, 9 times. This eliminates the balancing of the turbine 8 and increases the life of the bearings 9 and 10. Of course, it would be possible to use materials with a lower density, for example, carbon fiber UPA66-40, with a density of .1.14 g / cm, but there are problems of ensuring strength turbine blades at linear speeds of more than 150 m / s.

The increase in the number of insertion and extraction cycles of the core tool, the stability of this parameter throughout the entire period of operation, the increase in the service life of ball bearings allows to increase the reliability of the tip of the dental turbine friction.

The tip according to the second embodiment has a structure similar to that of the first embodiment, but the manufacture of a turbine from metal with a density in the range from 1.4 to 1.9 g / cm, for example, from magnesium alloys, is excluded. In this case, the reliability of the tip increases only due to a better and more reliable execution of the frictional clamp assembly of the cutting tool (boron) in comparison with existing structures. Description ра39 / 5ЗЛ

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the bots of the proposed design of the tip according to the second embodiment are similar to the description of the operation of the tip according to its first embodiment. The tip according to the third embodiment has a turbine made of metal with a density in the range from 1.4 to 1.9 g / cm, in particular of a magnesium alloy MA 18- (VID 5) having a density of 1.5 g / cm. In this case, any kind of friction or even push-button boron clamp can be applied. Reliability of the tip increases due to the fact that the imbalance and consequently alternating load on the ball bearings 9 and 10 is reduced. When decreasing the alternating load on the ball bearings 9 and 10, their service life increases, and accordingly, the reliability of the tip as a whole.

Claims (3)

1. The tip of the dental turbine friction, comprising a housing with a connection with a drill hose and a head with a cover, spring liners installed in the head on a roller having a cylindrical internal cavity, a turbine located in the head on the roller and ball bearings with damping rings, characterized in in that the roll formed through at least three grooves, arranged at an angle to the axis of roller 10 - 45 ^o, oval holes connected with the interior of the roller, the roller grooves in one set pru innomu liner, each of which is cylindrical with a taper angle of the end faces towards each other 90 - 10 ^o, wherein the inserts are installed protruding through oval holes in the inner cavity of the roller by an amount equal to 0.1 - 0.5 diameter of the liner and impeller formed from metal with a density of 1.4 - 1.9 g / cm. 2. Dental turbine friction tip, comprising a housing with a connection unit with a drill hose and a head with a cover, spring inserts installed in the head on a roller having a cylindrical internal cavity, a turbine located in the head on the roller and ball bearings with damping rings, characterized in in that the roll formed through at least three grooves, arranged at an angle to the axis of roller 10 - 45 ^o, oval holes connected with the interior of the roller, the roller grooves in one set pru innomu liner, each of which is cylindrical with a taper angle of the end faces towards each other 90 - 10 ^o, wherein the inserts are installed protruding through oval holes in the inner cavity of the roller by an amount equal to 0.1 - 0.5 of the liner diameter. 3. The dental turbine friction tip, comprising a housing with a connection unit with a drill hose and a head with a cover, spring inserts installed in the head on a roller having a cylindrical internal cavity, a turbine located in the head on the roller and ball bearings with damping rings, characterized in that the impeller is made of metal with a density of 1.4 - 1.9 g / cm.