CN215847018U - Auxiliary device is used in processing of turbo charger casing - Google Patents

Abstract

The utility model provides an auxiliary device is used in processing of turbo charger casing, relate to processingequipment technical field, including supporting platform, the rigid coupling has the riser on the supporting platform, the level parallel rigid coupling has the diaphragm about the riser, and form the horizontal centre gripping space of casing between two diaphragms, slidable mounting has two horizontal splint of doing opposite directions and opposite movement in the horizontal centre gripping space of casing, it has the solid fixed cylinder to go back horizontal rigid coupling on the riser, enclose on the outer wall of solid fixed cylinder and be equipped with a plurality of along its radial gliding clamp splice, one side that supporting platform is in the riser is still slidable mounting has two vertical splint of doing opposite directions and opposite movement, and form vertical centre gripping space through the region between two vertical splint. The utility model solves the problems that the device in the traditional technology can not realize the switching clamping of the shell and can not ensure the convenience in auxiliary processing; and the device is limited by the irregular shape of the outer part of the shell, so that the device can not clamp and use the shells of different types from inside and outside.

Description

Auxiliary device is used in processing of turbo charger casing

Technical Field

The utility model relates to the technical field of machining devices, in particular to an auxiliary device for machining a turbocharger shell.

Background

The compressor casing of the turbocharger comprises a compressor casing air inlet pipe, a compressor casing air outlet pipe and a volute, wherein the compressor casing air outlet pipe orifice of the turbocharger is usually arranged in a suspension mode when the compressor casing of the turbocharger is machined, the air outlet pipe orifice is prone to shaking due to poor stability in the cutting machining process, serious vibration knife veins are formed in the position of the air outlet pipe orifice of the compressor casing after machining, and the product percent of pass is low.

The prior art discloses a patent with a publication number of CN208961550U, the mouth of pipe of an air outlet pipe of a compressor shell of a turbocharger of the scheme is easy to shake in the processing process, the mouth of pipe after processing can have a knife-shake vein, the double-clamping device comprises a first double-clamping device and a second double-clamping device for compressing the mouth of pipe of the air outlet pipe, the first double-clamping device comprises a positioning plate hinged with a positioning hinge arm, the positioning plate is driven by a positioning support cylinder to compress a volute, the second double-clamping device comprises a floating support cylinder arranged on a longitudinal support seat and a compressing support cylinder arranged on a transverse support seat, the floating support cylinder is driven by hydraulic pressure to move horizontally to compress one side of the mouth of pipe, the compressing support cylinder is driven by hydraulic pressure to drive a pressing plate to compress the other side of the mouth of pipe, and the middle part of the pressing plate is hinged with the hinge arm. The scheme can greatly improve the stability of the air outlet pipe orifice in the cutting process.

The prior device gradually exposes the defects of the technology along with the use, and is mainly expressed in the following aspects:

first, carry out the course of working to the casing, need process respectively the tip and the inner wall of casing for the device can't realize switching the centre gripping to the casing, can't guarantee the convenience of supplementary man-hour.

Secondly, the device is limited by the irregular external shape of the machine shell, so that the device cannot clamp the machine shells of different models from inside to outside.

From the above, it is obvious that the prior art has inconvenience and disadvantages in practical use, so that improvement is needed.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides an auxiliary device for machining a turbocharger shell, which is used for solving the problems that the device in the traditional technology cannot realize switching and clamping of the shell and cannot ensure the convenience in auxiliary machining; and the device is limited by the irregular shape of the outer part of the shell, so that the device can not clamp and use the shells of different types from inside and outside.

In order to achieve the purpose, the utility model provides the following technical scheme:

the utility model provides an auxiliary device is used in processing of turbocharger casing, includes supporting platform, the rigid coupling has the riser on the supporting platform, the level parallel rigid coupling has the diaphragm about the riser, and through two form the horizontal centre gripping space of casing between the diaphragm, slidable mounting has two horizontal splint of doing opposite directions and opposite movement in the horizontal centre gripping space of casing, it has the solid fixed cylinder to go back horizontal rigid coupling on the riser, it is equipped with a plurality of along its radial gliding clamp splice to enclose on the outer wall of solid fixed cylinder, supporting platform is in one side of riser is still slidable mounting has two vertical splint of doing opposite directions and opposite movement, and through two regional vertical centre gripping space that forms between the vertical splint.

As an optimized scheme, a clamping knob is connected to each transverse plate corresponding to the transverse clamping plate along a vertical thread, and the tail end of each clamping knob is fixedly connected with the back of the corresponding transverse clamping plate through a rotary table.

As an optimized scheme, each clamping block is slidably mounted on the peripheral wall of the fixed cylinder through a sliding rod, the inner end part of each sliding rod extends into the fixed cylinder and is fixedly connected with an ejector block, and a push block which pushes the sliding rod to eject is slidably mounted in the fixed cylinder along the axial direction of the fixed cylinder and abuts against the ejector block.

As an optimized scheme, the pushing block is a conical block, and the end face, facing the conical block, of the ejecting block is an inclined plane matched with the end face.

As an optimized scheme, a mounting plate is fixedly connected in the fixed cylinder, a lead screw is horizontally and rotatably mounted on the mounting plate, and a thread groove in threaded connection with the lead screw is formed in the push block.

As an optimized scheme, a driving machine is further fixedly connected to the mounting plate, and the output end of the driving machine is connected with the lead screw.

As an optimized scheme, the supporting platform is fixedly connected with a supporting seat, the supporting seat is correspondingly provided with each adjusting knob, the vertical clamping plate is horizontally and fixedly connected with a sliding barrel, the end face of the supporting seat is further provided with a sliding hole matched with the sliding sleeve, the adjusting knob penetrates through the sliding barrel, the sliding barrel is further sleeved with a pressure spring, and two ends of the pressure spring respectively abut against the supporting seat and the vertical clamping plate.

As an optimized scheme, a guide groove is formed in the outer wall of the sliding barrel along the axial direction of the sliding barrel, and a guide block constrained in the guide groove is fixedly connected in the sliding hole.

Compared with the prior art, the utility model has the beneficial effects that:

when the shell needs to be transversely processed, the shell is clamped in a transverse clamping space, the shell is clamped and positioned from the inner wall through a clamping block sliding on the fixed cylinder, and the outer wall of the shell is clamped and positioned through a transverse clamping plate on the transverse plate;

when the shell needs to be vertically processed, the shell is placed in a vertical clamping space, and the outer wall of the shell is clamped and positioned through two vertical clamping plates;

the clamping assembly is arranged in a sliding mode, so that the shells of different types and sizes can be fastened, and the application range is wide;

the structure is simple, and the service life is long; the structure is simple, and the work is stable; simple and convenient operation and control, easy large-scale manufacture and installation and wide application range.

Drawings

In order to more clearly illustrate the detailed description of the utility model or the technical solutions in the prior art, the drawings that are needed in the detailed description of the utility model or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of the present invention.

In the figure: 1-a support platform; 2-a vertical plate; 3-a transverse plate; 4-a turntable; 5-transverse splint; 6, fixing the cylinder; 7-a push block; 8-clamping blocks; 9-a slide bar; 10-a top block; 11-a lead screw; 12-a mounting plate; 13-a driver; 14-a support base; 15-vertical splints; 16-an adjusting knob; 17-a clamping knob; 18-a slide hole; 19-a slide cylinder; 20-compression spring.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1, auxiliary device is used in processing of turbocharger casing, including supporting platform 1, the rigid coupling has riser 2 on supporting platform 1, the level parallel rigid coupling has diaphragm 3 about riser 2, and form the horizontal centre gripping space of casing between two diaphragm 3, slidable mounting has two horizontal splint 5 of doing opposite directions and opposite movement in the horizontal centre gripping space of casing, it has solid fixed cylinder 6 to go back horizontal rigid coupling on riser 2, enclose on the outer wall of solid fixed cylinder 6 and be equipped with a plurality of along its radial sliding's clamp splice 8, one side that supporting platform 1 is in riser 2 still slidable mounting has two vertical splint 15 of doing opposite directions and opposite movement, and form vertical centre gripping space through the region between two vertical splint 15.

A clamping knob 17 is connected to each transverse plate 3 along the vertical thread corresponding to the transverse clamping plate 5, and the tail end of the clamping knob 17 is fixedly connected with the back of the transverse clamping plate 5 through the rotary table 4.

Each clamping block 8 is respectively installed on the peripheral wall of the fixed cylinder 6 in a sliding mode through a sliding rod 9, the inner end portion of each sliding rod 9 extends into the fixed cylinder 6 and is fixedly connected with an ejector block 10, and a push block 7 which pushes the sliding rods 9 to eject is installed in the fixed cylinder 6 in a sliding mode along the axial direction of the fixed cylinder and abuts against the ejector block 10.

The sliding rod 9 is further sleeved with a compression spring, and two ends of the compression spring are respectively abutted against the inner wall of the fixed cylinder 6 and the ejector block 10.

The pushing block 7 is a conical block, and the end surface of the top block 10 facing the conical block is an inclined surface matched with the conical block.

The fixed cylinder 6 is internally and fixedly connected with an installation plate 12, the installation plate 12 is horizontally and rotatably provided with a lead screw 11, and the push block 7 is provided with a thread groove in threaded connection with the lead screw 11.

A driving machine 13 is further fixedly connected to the mounting plate 12, and an output end of the driving machine 13 is connected with the lead screw 11.

The supporting platform 1 is fixedly connected with a supporting seat 14, an adjusting knob 16 is connected to the supporting seat 14 corresponding to each vertical clamping plate 15 in a horizontal threaded manner, a sliding barrel 19 is fixedly connected to the vertical clamping plates 15 in a horizontal manner, a sliding hole 18 matched with the sliding sleeve is further formed in the end face of the supporting seat 14, the adjusting knob 16 penetrates through the sliding barrel 19, a through hole is formed in each vertical clamping plate 15, the column end of the adjusting knob 16 penetrates through the through hole and the sliding hole 18, a pressure spring 20 is further sleeved on the sliding barrel 19, and two ends of the pressure spring 20 are respectively abutted to the supporting seat 14 and the vertical clamping plates 15.

The outer wall of the sliding barrel 19 is provided with a guide groove along the axial direction, and a guide block constrained in the guide groove is fixedly connected in the sliding hole 18.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (8)

1. The utility model provides an auxiliary device is used in processing of turbo charger casing which characterized in that: including supporting platform (1), the rigid coupling has riser (2) on supporting platform (1), the level parallel rigid coupling has diaphragm (3) about riser (2), and through two form the horizontal centre gripping space of casing between diaphragm (3), slidable mounting has two horizontal splint (5) of doing opposite and opposite movement in the horizontal centre gripping space of casing, it has solid fixed cylinder (6) to go back horizontal rigid coupling on riser (2), enclose on the outer wall of solid fixed cylinder (6) and be equipped with a plurality of along its radially sliding clamp splice (8), supporting platform (1) is in one side of riser (2) is still slidable mounting has two vertical splint (15) of being opposite and opposite movement, and through two regional vertical centre gripping space of formation between vertical splint (15).

2. The auxiliary device for machining the casing of the turbocharger as claimed in claim 1, wherein: each transverse plate (3) is connected with a clamping knob (17) corresponding to the transverse clamping plate (5) along vertical threads, and the tail end of the clamping knob (17) is fixedly connected with the back of the transverse clamping plate (5) through a rotary table (4).

3. The auxiliary device for machining the casing of the turbocharger as claimed in claim 1, wherein: each clamping block (8) is slidably mounted on the peripheral wall of the fixed cylinder (6) through a sliding rod (9), the inner end part of each sliding rod (9) extends into the fixed cylinder (6) and is fixedly connected with a top block (10), and a push block (7) which is abutted against the top block (10) and pushes the sliding rods (9) to eject is further slidably mounted in the fixed cylinder (6) along the axial direction of the fixed cylinder.

4. The auxiliary device for machining the casing of the turbocharger as claimed in claim 3, wherein: the pushing block (7) is a conical block, and the end face, facing the conical block, of the ejecting block (10) is an inclined plane matched with the conical block.

5. The auxiliary device for machining the casing of the turbocharger as claimed in claim 4, wherein: the fixed cylinder (6) is fixedly connected with a mounting plate (12), the mounting plate (12) is horizontally and rotatably provided with a lead screw (11), and a thread groove in threaded connection with the lead screw (11) is formed in the push block (7).

6. The auxiliary device for machining the casing of the turbocharger as claimed in claim 5, wherein: a driving machine (13) is further fixedly connected to the mounting plate (12), and the output end of the driving machine (13) is connected with the screw rod (11).

7. The auxiliary device for machining the casing of the turbocharger as claimed in claim 1, wherein: supporting platform (1) is gone up the rigid coupling and is had supporting seat (14), correspond every on supporting seat (14) vertical splint (15) horizontal thread connects with adjust knob (16), vertical splint (15) are improved level the rigid coupling and are had slide cartridge (19), still seted up on the terminal surface of supporting seat (14) with sliding sleeve assorted slide opening (18), adjust knob (16) run through slide cartridge (19), still the cover is equipped with pressure spring (20) on slide cartridge (19), the both ends of pressure spring (20) respectively with supporting seat (14) and vertical splint (15) offset.

8. The auxiliary device for machining the casing of the turbocharger according to claim 7, wherein: the outer wall of the sliding barrel (19) is provided with a guide groove along the axial direction, and a guide block constrained in the guide groove is fixedly connected in the sliding hole (18).

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