CN208040458U - Pressure booster with variable cross section nozzle ring - Google Patents

Abstract

The utility model discloses a kind of pressure booster with variable cross section nozzle rings, it includes a mounting disc, backing plate, shifting disc and shift fork, blade is between mounting disc and backing plate and arranges in a ring, shifting disc is rotated by shift fork band movable vane piece, one end of multiple shift forks connects one to one and rotates synchronously with blade, and the other end is bent downwardly and is inserted into shifting disc, and mounting disc is laterally provided with annular groove, it is inserted into annular groove on the inside of shifting disc, annular groove bottom surface is curved surface.The utility model can adjust flow area, and shifting disc is closer to mounting disc by the rotation angle of regulation blade so that nozzle ring integral thickness becomes smaller, more compact structure, the reliability of shifting disc and flexibility also higher.

Description

Pressure booster with variable cross section nozzle ring

Technical field

The utility model is related to turbo-charger technical field, a kind of specifically pressure booster with variable cross section nozzle ring.

Background technology

Turbocharging is one of the developing direction of world's internal-combustion engine technology, is the main approach that current internal combustion engine is strengthened, Turbocharging technology can increase substantially engine output, energy saving, reduce engine exhaust pollution.And variable cross section Booster nozzle ring is the critical component in current advanced variable geometry turbocharger, is used for engine supercharger before and sprays The blade angle of mouth ring is fixed, blade is non-adjustable, and booster can only make engine in some power interval efficient operation, I am public Department takes the lead in booster nozzle ring structure being improved to adjustable blade burner at home, and blade drives with shift fork soldering member by drive disk Rotation to change blade angle, adjust flow area, make engine under the support of booster each power section can be compared with Efficiently work.

The Chinese patent of Patent No. 201120544236.3 discloses a kind of pressure booster with variable cross section nozzle ring, in its skill In art scheme, pin be fixed on shifting disc, shift fork is sleeved on pin, and the tail portion of blade is connected with shift fork, in this way, work as shifting disc by When external force rotates, pin will drive shift fork to rotate, and then band movable vane piece rotates shift fork, be cut with changing blade angle, adjusting air-flow Face will produce opposite sliding when pin drives shift fork rotation between pin and shift fork, and sell and contacted for line between shift fork, contact Area is smaller, in this way, in opposite sliding, pin and shift fork are easier to be worn, after pin and shift fork abrasion are larger, it will so that The contact position of pin and shift fork deforms, it will so that pin and shift fork can not be normally driven between the two, makes the nozzle ring capable of changing cross sections Can not normal use, bring security risk；In addition, in its technical solution, shifting disc is placed on mounting disc and spacer pin is constituted Restriction space in, and spacer pin needs to be pushed down with the spiral case of turbocharger to be positioned, and between spiral case and spacer pin There are certain gaps to be easy to cause the axial float of spacer pin when turbocharger high temperature and high speed works, it will so that dialling Moving plate shifts, it will so that shift fork is detached from shifting disc, the booster nozzle ring can thus be made to can not work normally.

Invention content

Technical problem to be solved in the utility model is：Pressure booster with variable cross section nozzle ring is provided.

Technical solution adopted in the utility model is：It includes a mounting disc, backing plate, shifting disc and shift fork, blade position It arranges between mounting disc and backing plate and in a ring, shifting disc is rotated by shift fork band movable vane piece, one end of multiple shift forks and leaf Piece connects one to one and rotates synchronously, and the other end is bent downwardly and is inserted into shifting disc, and mounting disc is laterally provided with annular groove, It is inserted into annular groove on the inside of shifting disc, annular groove bottom surface is curved surface.

Preferably, shifting disc is equipped with driving pin.

Preferably, deep gouge has been evenly distributed on shifting disc, deep gouge is circumferentially circular layout along shifting disc, and shift fork is bent downwardly One end be inserted into deep gouge in.

Preferably, shift fork tail portion is equipped with convex block, and convex block resists deep gouge internal perisporium.

Preferably, shift fork is connected with blade by a rotation axis, and rotation axis is fixedly connected with blade, and rotation shaft end is opened There is centre bore.

Preferably, shift fork is equipped with a through-hole, and rotation axis is installed in through-hole, and through-hole top is provided with plum blossom chamfering.

Preferably, blade shape can be arbitrary type, preferably streamlined.

Preferably, spacer sleeve is equipped between mounting disc and backing plate.

Preferably, the madial wall of mounting disc is equipped with multiple the first circumferentially distributed arc grooves, correspondingly, on shifting disc Equipped with the second arc groove, spacer pin is equipped between the first arc groove and the second arc groove.

The pressure booster with variable cross section nozzle ring advantage of the utility model：

1, be inserted into the annular groove of mounting disc on the inside of shifting disc so that mounting disc to shifting disc carried out it is axial and Radial positioning, and annular groove bottom surface is curved surface so that shifting disc positioning is more firm, and in the fixed shifting disc of installation, saves Positioning element, not only prevents shifting disc from walking, deform and falling off when load is larger at high temperature, but also simple in structure, Easy to assembly, shifting disc is closer to mounting disc so that nozzle ring integral thickness becomes smaller, more compact structure.

2, the second arc groove of the first arc groove and shifting disc of mounting disc so that lighter overall weight contracts simultaneously Small mounting disc and shifting disc contact surface reduce friction, improve going slick property；

3, the other end of shift fork is bent downwardly and is inserted into the deep gouge of shifting disc, and shifting disc is inserted into the part of deep gouge by shift fork And shift fork is driven, it is all moved in deep gouge when shift fork being made to be in any aperture, is lost without departing from shifting disc and stir function, from And improve shifting disc operating reliability.

4, shift fork is equipped with a through-hole, and rotation axis is installed in through-hole, and rotation axis is fixedly connected with blade, and through-hole top is opened There are plum blossom chamfering, blade rotation shaft end to be provided with centre bore, blade rotation axis is riveted with shift fork plum blossom chamfering, to reach The structure of required riveting intensity, through-hole enhances the ductility of rotation axis, and ensures that rotation axis is filled under small riveting pressure Expansion is divided to be bonded completely with shift fork plum blossom chamfering, and rotation axis will not deform.

Description of the drawings

Fig. 1 is the structural side view of the utility model pressure booster with variable cross section nozzle ring.

Fig. 2 is the structure top view of the utility model pressure booster with variable cross section nozzle ring.

Fig. 3 is the figure that is circular layout of the blade of the utility model pressure booster with variable cross section nozzle ring.

Fig. 4 is the mounting disc structural schematic diagram of the blade of the utility model pressure booster with variable cross section nozzle ring.

Fig. 5 is the blade and rotation shaft structure schematic diagram of the utility model pressure booster with variable cross section nozzle ring.

Wherein, 1, mounting disc, 2, backing plate, 3, shifting disc, 4, shift fork, 5, blade, 6, annular groove, 7, driving pin, 8, heavy Slot, 9, rotation axis, 10, through-hole, 11, plum blossom chamfering, 12, spacer sleeve, the 13, first arc groove, the 14, second arc groove, 15, Spacer pin, 16, centre bore, 17, convex block.

Specific implementation mode

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

As shown in Figure 1, 2, the utility model provide pressure booster with variable cross section nozzle ring, it include a mounting disc 1, backing plate 2, Shifting disc 3 and shift fork 4, mounting disc 1, backing plate 2 and shifting disc 3 are cyclic structure, and the madial wall of mounting disc 1 is equipped with multiple weeks To the first arc groove 13 of distribution, correspondingly, shifting disc 3 is equipped with the second arc groove 14, the first arc groove 13 and the Spacer pin 15 is equipped between two arc grooves 14, shifting disc 3 is equipped with driving pin 7, and spacer pin 15 prevents shifting disc 3 to revolve The amount of turning over rotates stuck situation.

As shown in figure 4, mounting disc 1 is laterally provided with annular groove 6,3 inside of shifting disc is inserted into annular groove 6, annular 6 bottom surface of groove is curved surface, and 6 three faces of annular groove offset with shifting disc 3 respectively so that mounting disc 1 has carried out axis to shifting disc 3 To and radial positioning, eliminate positioning element.

As shown in figure 3, blade 5 is between mounting disc 1 and backing plate 2 and arranges in a ring, i.e., blade 5 is along mounting disc 1 Lower face is circumferentially angularly spacedly distributed, and one end of multiple shift forks 4 corresponds with blade 5 and is connected by a rotation axis 9 It connects, rotation axis 9 is fixedly connected with blade 5, and shifting disc 3 is rotated by shift fork 4 with movable vane piece 5, and realization shift fork 4 is same with blade 5 Step rotation, 5 shape of blade can be arbitrary shape, such as streamlined, air-driven type, aerofoil profile and symmetric form, and the rotation of blade 5 can change The angle of blade changes flow area, to adjust air inflow；4 other end of shift fork is bent downwardly and is inserted into the heavy of shifting disc 3 In slot 8, shifting disc 3 drives shift fork 4 to rotate by 4 tail portion after bending of shift fork, and tail portion is equipped with convex block 17, which resists The internal perisporium of the internal perisporium of deep gouge 8, deep gouge 8 is arc-shaped surface, and convex block 17 is to match with the internal perisporium of deep gouge 8 to face Arc-shaped surface, but convex block 17 match with 8 internal perisporium of deep gouge after also there are gaps, it is therefore intended that when shifting disc 3 rotate drive When shift fork 4, prevent convex block 17 clamping stagnation in tail portion in deep gouge 8, in addition, two are mutually coincide but there are the arc-shaped surface in gap, made Obtaining convex block 17 can smoothly slide very much in deep gouge 8.Therefore, the rotation of shifting disc 3 drives the rotation of 4 tail portion of shift fork so that shifting disc 3 It being in same level with 4 tail portion of shift fork, the utility model shifting disc 3 is located at 4 reclinate tail position of shift fork, to The greatly spacing of reduction mounting disc 1 and shifting disc 3 so that the utility model thickness reduces, and structure is more compact.

In addition, as shown in figure 5,5 rotation axis of each blade, 9 end is provided with centre bore 16, each shift fork 4 is equipped with a through-hole 10, rotation axis 9 is installed in through-hole 10, and 10 top of through-hole is provided with plum blossom chamfering 11, and rotation axis 9 and shift fork 4 pass through riveting method It is fixed, improve riveting reliability.

Spacer sleeve 12 is equipped between mounting disc 1 and backing plate 2, spacer sleeve 12 is fixed on 1 lower face of mounting disc, and quantity is at least Three, and be circumferentially spaced apart on 1 lower face of mounting disc.

The utility model preferred embodiment is described above, but is not to be construed as limiting the scope of the invention. The utility model is not only limited to above example, and concrete structure is allowed to vary, all in the utility model demand for independence Various change is within the protection scope of the present utility model made by protection domain.

Claims (10)

1. pressure booster with variable cross section nozzle ring, it includes a mounting disc (1), backing plate (2), shifting disc (3) and shift fork (4), blade (5) it arranges between mounting disc (1) and backing plate (2) and in a ring, shifting disc (3) passes through shift fork (4) band movable vane piece (5) and revolves Turn, it is characterised in that：One end of multiple shift forks (4) connects one to one and rotates synchronously with blade (5), and the other end is turned under Song is simultaneously inserted into shifting disc (3), and mounting disc (1) is laterally provided with annular groove (6), and annular groove (6) is inserted on the inside of shifting disc (3) It is interior.

2. pressure booster with variable cross section nozzle ring according to claim 1, it is characterised in that：Shifting disc (3) is equipped with actively It sells (7).

3. pressure booster with variable cross section nozzle ring according to claim 2, it is characterised in that：Shifting disc equably divides on (3) It is furnished with deep gouge (8), deep gouge (8) is circumferentially circular layout along shifting disc (3), and deep gouge (8) is inserted into the reclinate one end of shift fork (4) It is interior.

4. pressure booster with variable cross section nozzle ring according to claim 3, it is characterised in that：Shift fork (4) tail portion is equipped with convex block (17), convex block (17) resists deep gouge (8) internal perisporium.

5. pressure booster with variable cross section nozzle ring according to claim 3, it is characterised in that：Shift fork (4) passes through with blade (5) One rotation axis (9) is connected, and rotation axis (9) top is fixedly connected with blade (5), and rotation axis (9) end is provided with centre bore (16).

6. pressure booster with variable cross section nozzle ring according to claim 5, it is characterised in that：Shift fork (4) is equipped with a through-hole (10), rotation axis (9) is installed in through-hole (10), and through-hole (10) top is provided with plum blossom chamfering (11).

7. pressure booster with variable cross section nozzle ring according to claim 1, it is characterised in that：Blade (5) shape can be arbitrary Shape.

8. pressure booster with variable cross section nozzle ring according to claim 1, it is characterised in that：Mounting disc (1) and backing plate (2) it Between be additionally provided with spacer sleeve (12).

9. pressure booster with variable cross section nozzle ring according to claim 8, it is characterised in that：On the madial wall of mounting disc (1) Equipped with multiple circumferentially distributed the first arc grooves (13), correspondingly, shifting disc (3) is equipped with the second arc groove (14), the Spacer pin (15) is equipped between one arc groove (13) and the second arc groove (14).

10. pressure booster with variable cross section nozzle ring according to claim 1, it is characterised in that：Annular groove (6) bottom surface is song Face.