CN211112161U - Equipment for obtaining titanium alloy crystal structure by displacement deformation method - Google Patents

Abstract

The utility model discloses a device for obtaining titanium alloy crystal structure by displacement deformation method, wherein the closed chamber is composed of a left chamber body and a right chamber body, a trapezoidal positioning part is arranged in the left chamber body, a positioning groove is arranged on the positioning part, a supporting plate with a square hole is inserted into the left chamber body from an opening and positioned on the positioning groove, a graphite seal is arranged between the supporting plate and the positioning groove, the right end of the left chamber body is a cylindrical connecting part with a variable diameter, and the end part of the connecting part is provided with a fixing ring; the periphery of the right chamber body has a round fixed station, solid fixed ring is connected with the fixed station, the left end periphery of the right chamber body is fixed with a bearing, a driven gear with square hole is connected on the bearing, the left end of the right chamber body is fixed with first graphite ring, the step has in the connecting portion, be fixed with the second graphite ring on the step, first graphite ring and second graphite ring butt are on driven gear, the connecting portion outside is equipped with actuating mechanism, actuating mechanism passes connecting portion drive driven gear and rotates.

Description

Equipment for obtaining titanium alloy crystal structure by displacement deformation method

Technical Field

The utility model relates to a device for obtaining titanium alloy crystal structure by displacement deformation method.

Background

The patent with publication number CN 208617961U discloses a device for obtaining a titanium alloy submicron crystalline structure by a displacement deformation method, which can obtain the titanium alloy submicron crystalline structure at a low cost, but the structure of the closed chamber is too simple, and the supporting member and the rotating member forming the closed chamber are prone to distortion and deformation, and meanwhile, when processing blanks with different specifications, the supporting member and the rotating member are not convenient to be replaced correspondingly.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a device for obtaining a titanium alloy crystal structure by a displacement deformation method.

The technical scheme of the utility model is that: an apparatus for obtaining titanium alloy crystal structure by displacement deformation method comprises a sealed shell, a mandril unit, a rotating device, an induction heater, an ejector, a pressure reducer and a sealed chamber, wherein the mandril unit, the rotating device, the induction heater, the ejector, the pressure reducer and the sealed chamber are arranged in the sealed shell, the sealed chamber consists of a left chamber body and a right chamber body,

the section of the left chamber body is in a square frame shape, a long strip-shaped opening is arranged at the top of the left chamber body, a trapezoidal positioning part corresponding to the opening is arranged in the left chamber body, a positioning groove is arranged on the positioning part, a supporting plate with a square hole is inserted into the left chamber body from the opening and is positioned on the positioning groove, a graphite seal is further arranged between the supporting plate and the positioning groove, the right end of the left chamber body is a reducing cylindrical connecting part, and a fixing ring is arranged at the end part of the connecting part;

the section of the right chamber body is annular and is welded with the shell, the periphery of the right chamber body is provided with a circle of fixed table, the fixed ring is connected with the fixed table, a bearing is fixed on the periphery of the left end of the right chamber body, a driven gear is connected on the bearing, the middle part of the driven gear is also provided with a square hole, the left end of the right chamber body is fixed with a first graphite ring, the connecting part is internally provided with a step, a second graphite ring is fixed on the step, the front and back surfaces of the driven gear are respectively provided with a groove, the first graphite ring and the second graphite ring are abutted against the groove, a driving mechanism is arranged on the outer side of the connecting part, the output shaft of the driving mechanism is fixed with a driving gear, the connecting part is provided with a long groove corresponding to the driven gear, and one side of the driving gear penetrates through the long groove to be meshed with the driven gear.

Furthermore, a sealing cover is buckled on the opening, and the bottom of the sealing cover is abutted to the top of the supporting plate.

Furthermore, the periphery of the square hole of the supporting plate is also provided with a reinforcing frame, and the outer side of the reinforcing frame is abutted against the end face of the trapezoidal positioning part.

Further, the bearing is a thrust roller bearing.

Furthermore, a reinforcing frame is also arranged on the periphery of the square hole of the driven gear.

Furthermore, the driving mechanism comprises a driving motor and a speed reducer connected with an output shaft of the driving motor, the driving gear is fixed on the output shaft of the speed reducer, and the driving motor and the speed reducer are both fixed on an equipment platform.

The utility model has the advantages that: the utility model designs a plurality of reinforcing structures for the supporting plate and the driven gear to enhance the strength and prevent the support plate and the driven gear from being distorted and deformed; meanwhile, when blanks with different specifications are processed, the sealing cover can be opened to replace the supporting plate with the corresponding square hole, the driving mechanism is removed, the connection between the fixing ring and the fixing table is disconnected, and the driven gear with the corresponding square hole can be replaced; additionally, the utility model discloses still have the advantage of sealed effect.

Drawings

Fig. 1 is a schematic structural diagram of the sealed chamber of the present invention.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

An apparatus for obtaining titanium alloy crystal structure by displacement deformation method comprises a sealed shell, a mandril unit 20 arranged in the shell, a rotating device, an induction heater, an ejector, a pressure reducer and a sealed chamber,

as shown in fig. 1, the closed chamber is composed of a left chamber body 1 and a right chamber body 2, the cross section of the left chamber body 1 is in a square frame shape, the left end of the left chamber body 1 is welded with the casing into a whole, the top of the left chamber body 1 is provided with a strip-shaped opening, a trapezoidal positioning part 3 corresponding to the opening is arranged in the left chamber body 1, the positioning part 3 is provided with a positioning groove, a support plate 5 with a square hole is inserted into the left chamber body 1 from the opening and positioned on the positioning groove, and the trapezoidal positioning part 3 can support the edge part of the support plate 5, enhance the strength of the support plate 5 and prevent the support plate 5 from deforming; a sealing cover is buckled on the opening, the bottom of the sealing cover is abutted against the top of the supporting plate 5, and a reinforcing frame 6 is arranged on the supporting plate 5 at the periphery of the square hole to reinforce the strength of the supporting plate 5 and prevent the supporting plate from deforming; the outer side of the reinforcing frame 6 is abutted against the end face of the trapezoidal positioning part 3, a graphite seal 7 is further arranged between the supporting plate 5 and the positioning groove, the reinforcing frame 6 and the graphite seal 7 act together to enhance the sealing performance of the joint of the supporting plate 5 and the left chamber body 1, meanwhile, the graphite seal 7 enables the supporting plate 5 to be inserted and pulled out more smoothly, and when blanks 21 with different calibers are processed, the corresponding supporting plate 5 is convenient to replace; the right end of the left chamber body 1 is a reducing cylindrical connecting part 8, and the end part of the connecting part 8 is provided with a fixing ring 9;

the section of the right chamber body 2 is annular and is welded with the shell, a circle of fixed table 10 is arranged on the periphery of the right chamber body 2, the fixed ring 9 is connected with the fixed table 10 through bolts and nuts, a thrust roller bearing 11 is fixed on the periphery of the left end of the right chamber body 2, a driven gear 12 is connected on the thrust roller bearing 11, a square hole is also formed in the middle of the driven gear 12, and a reinforcing frame 6 is further arranged on the driven gear 12 on the periphery of the square hole to reinforce the strength of the driven gear 12 and prevent the driven gear 12 from deforming; a first graphite ring 13 is fixed at the left end of the right chamber body 2, a step is arranged in the connecting part 8, a second graphite ring 14 is fixed on the step, grooves are respectively arranged on the front and back surfaces of the driven gear 12, and the first graphite ring 13 and the second graphite ring 14 are abutted against the grooves to play roles of self-lubricating and supporting the driven gear 12; an equipment table 15 is arranged on the outer side of the connecting portion 8, a driving motor 16 and a speed reducer 17 connected with an output shaft of the driving motor 16 are fixed on the equipment table 15, a driving gear 18 is fixed on the output shaft of the speed reducer 17, a long groove 19 corresponding to the driven gear 12 in position is further arranged on the connecting portion 8, and one side of the driving gear 18 penetrates through the long groove 19 to be meshed with the driven gear 12.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an equipment of titanium alloy crystal structure is obtained with displacement deformation method, includes inclosed casing and sets up in its inside ejector pin unit, rotary device, induction heater, sprayer and pressure reducer and closed chamber, its characterized in that: the closed chamber consists of a left chamber body and a right chamber body,

the section of the left chamber body is in a square frame shape, a long strip-shaped opening is arranged at the top of the left chamber body, a trapezoidal positioning part corresponding to the opening is arranged in the left chamber body, a positioning groove is arranged on the positioning part, a supporting plate with a square hole is inserted into the left chamber body from the opening and is positioned on the positioning groove, a graphite seal is further arranged between the supporting plate and the positioning groove, the right end of the left chamber body is a reducing cylindrical connecting part, and a fixing ring is arranged at the end part of the connecting part;

the section of the right chamber body is annular and is welded with the shell, the periphery of the right chamber body is provided with a circle of fixed table, the fixed ring is connected with the fixed table, a bearing is fixed on the periphery of the left end of the right chamber body, a driven gear is connected on the bearing, the middle part of the driven gear is also provided with a square hole, the left end of the right chamber body is fixed with a first graphite ring, the connecting part is internally provided with a step, a second graphite ring is fixed on the step, the front and back surfaces of the driven gear are respectively provided with a groove, the first graphite ring and the second graphite ring are abutted against the groove, a driving mechanism is arranged on the outer side of the connecting part, the output shaft of the driving mechanism is fixed with a driving gear, the connecting part is provided with a long groove corresponding to the driven gear, and one side of the driving gear penetrates through the long groove to be meshed with the driven gear.

2. The apparatus for obtaining the titanium alloy crystal structure by the displacement deformation method according to claim 1, wherein: and the opening is also buckled with a sealing cover, and the bottom of the sealing cover is abutted against the top of the supporting plate.

3. The apparatus for obtaining the titanium alloy crystal structure by the displacement deformation method according to claim 1, wherein: the periphery of the square hole of the supporting plate is further provided with a reinforcing frame, and the outer side of the reinforcing frame is abutted to the end face of the trapezoidal positioning portion.

4. The apparatus for obtaining the titanium alloy crystal structure by the displacement deformation method according to claim 1, wherein: the bearing is a thrust roller bearing.

5. The apparatus for obtaining the titanium alloy crystal structure by the displacement deformation method according to claim 1, wherein: and a reinforcing frame is also arranged on the periphery of the square hole of the driven gear.

6. The apparatus for obtaining the titanium alloy crystal structure by the displacement deformation method according to claim 1, wherein: the driving mechanism comprises a driving motor and a speed reducer connected with an output shaft of the driving motor, the driving gear is fixed on the output shaft of the speed reducer, and the driving motor and the speed reducer are both fixed on an equipment platform.

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