CN114703444A

CN114703444A - Titanium alloy new material is with high-efficient nanometer spraying plating equipment

Info

Publication number: CN114703444A
Application number: CN202210200845.XA
Authority: CN
Inventors: 高恒
Original assignee: Individual
Current assignee: Hunan Chenyue New Material Technology Co ltd
Priority date: 2022-03-03
Filing date: 2022-03-03
Publication date: 2022-07-05
Anticipated expiration: 2042-03-03
Also published as: CN114703444B

Abstract

The invention relates to efficient nano spraying equipment, in particular to efficient nano spraying equipment for a new titanium alloy material. The invention provides efficient nanometer spraying equipment for a new titanium alloy material, which has the advantages of omnibearing uniform spraying, automatic feeding and timely absorbing spraying smell. The utility model provides a titanium alloy new material is with high-efficient nanometer spraying plating equipment, including bottom plate, outrigger, baffle, support frame, spray gun and fan, both sides all are equipped with the outrigger on the bottom plate, are connected with the baffle between two outriggers, and baffle upper portion inner wall both sides all are equipped with the support frame, and the support frame inner is equipped with the spray gun, installs the fan in the middle of the baffle top, still including feeding mechanism and chucking slewing mechanism, is equipped with feeding mechanism on the bottom plate, the last chucking slewing mechanism that is equipped with of feeding mechanism. According to the invention, through the cooperation of the clamping rotating mechanism, the separating feeding mechanism and the bidirectional driving mechanism, the automatic separating feeding of the new material pipe is realized.

Description

Titanium alloy new material is with high-efficient nanometer spraying plating equipment

Technical Field

The invention relates to efficient nano spraying equipment, in particular to efficient nano spraying equipment for a new titanium alloy material.

Background

The new titanium alloy material is a structural metal with high strength, good corrosion resistance and high heat resistance, has excellent performance and special properties. The nano spraying is the leading high-tech spraying technology in the world, and adopts special equipment and advanced materials, and applies chemical principle to make the surface of the object to be coated present various mirror surface highlight effects of cash, silver, chromium, various colors and the like by a direct spraying mode. The spraying equipment for the surface of the titanium alloy material is mainly used for spraying gold, red gold, platinum, silver and other high-brightness mirror surface effects on the surface of the titanium alloy pipe, and the sprayed product has the advantages of good adhesion, high wear resistance, high impact resistance and the like.

However, the existing titanium alloy new material surface spraying equipment in the market has some defects, most of the spraying equipment can not spray the new material pipe in a full-coverage manner in the spraying process, manual feeding is needed, and odor generated in the spraying process inevitably has adverse effects on a human body.

Therefore, the efficient nanometer spraying equipment for the new titanium alloy material is provided, and has the advantages of omnibearing uniform spraying, automatic feeding and timely adsorption of spraying smell.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the efficient nanometer spraying equipment for the new titanium alloy material, which has the advantages of omnibearing and uniform spraying, automatic feeding and timely absorption of spraying smell, and solves the problems that most of spraying equipment can not spray the new material pipe in a full-coverage manner in the spraying process, manual feeding is required, and the smell generated in the spraying process inevitably has adverse effects on a human body.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a titanium alloy new material is with high-efficient nanometer spraying plating equipment, including bottom plate, outrigger, baffle, support frame, spray gun and fan, both sides all are equipped with the outrigger on the bottom plate, are connected with the baffle between two outriggers, and baffle upper portion inner wall both sides all are equipped with the support frame, and the support frame inner is equipped with the spray gun, installs the fan in the middle of the baffle top, still including feeding mechanism and chucking slewing mechanism, is equipped with feeding mechanism on the bottom plate, the last chucking slewing mechanism that is equipped with of feeding mechanism.

Optionally, pivot, cylinder, conveyer belt, backup pad, motor and conveying subassembly constitute feeding mechanism, and the equal rotary type in both sides is connected with the pivot on the bottom plate, is equipped with the cylinder in the pivot, is connected with the conveyer belt between two cylinders, evenly is equipped with the backup pad on the conveyer belt, installs the motor on the bottom plate, is connected with conveying subassembly between the pivot of motor output shaft and one side.

Optionally, the fixing frame, the pushing rotating plate, the rotating sleeve, the electric rotating column, the fixed rotating column and the extension spring form a clamping rotating mechanism, the fixing frame is arranged on the supporting plate, the pushing rotating plate is arranged on one side of the upper portion of the fixing frame in a sliding mode, the rotating sleeve is connected between the upper portion of the pushing rotating plate and the fixing frame in a sliding mode, the electric rotating column is arranged at the end portion of the rotating sleeve, the fixed rotating column is arranged on the other side of the upper portion of the fixing frame, and the extension spring is connected between the fixing frame and the fixing frame.

Optionally, the connecting device further comprises a separating and feeding mechanism, the connecting guide plate, the clamping plate and the first compression spring form the separating and feeding mechanism, the connecting guide plate is connected between two sides of the rear portion of the two outer frames, the clamping plate is arranged on two sides of the upper portion of the connecting guide plate in a sliding mode, and the first compression spring is connected between the clamping plate and the connecting guide plate on two sides of the upper portion.

Optionally, the device also comprises a bidirectional driving mechanism, wherein the bidirectional driving mechanism is composed of a fixed sleeve, a three-way piston cylinder, a first piston push rod, a first fixed plate, a common piston cylinder, a second piston push rod, a rotating plate, a second compression spring, a first liquid guide pipe and a second liquid guide pipe, the fixed sleeves are symmetrically arranged on two sides of the middle part of the connecting guide plate, the three-way piston cylinder is arranged between the two fixed sleeves on the same side, the first piston push rod is arranged on two sides of the three-way piston cylinder in a sliding manner and is connected with the clamping plate on the same side in a sliding manner, the first fixed plate is symmetrically arranged on the lower part of the connecting guide plate, the common piston cylinder is arranged on the lower part of the first fixed plate, the second piston push rod is connected on the common piston cylinder in a sliding manner, the rotating plate is arranged on the inner side of the second piston push rod in a rotating manner and is matched with the fixed frame, and the second compression spring is connected between the second piston push rod and the first fixed plate on the same side, a first liquid guide pipe is connected between the common piston cylinder on one side and the three-way piston cylinder on one side, and a second liquid guide pipe is connected between the common piston cylinder on the other side and the three-way piston cylinder on the other side.

Optionally, the device further comprises a pushing mechanism, the second fixing plate, the rotating plate and the torsion spring form the pushing mechanism, the second fixing plate is symmetrically arranged on the lower portion of the connecting guide plate, the rotating plate is rotatably arranged on the lower portion of the second fixing plate and matched with the pushing rotating plate, the torsion spring is sleeved on the upper portion and the lower portion of the outer side of the rotating plate, and two ends of the torsion spring are connected with the second fixing plate.

Optionally, the device further comprises a trigger mechanism, the sliding sleeve, the extrusion plate and the third compression spring form the trigger mechanism, the sliding sleeve is symmetrically arranged on the inner side of the support frame, the extrusion plate is slidably arranged on the sliding sleeve, the extrusion plate is matched with the fixing frame, and the third compression spring is connected between the extrusion plate and the sliding sleeve.

Optionally, the spray gun is a high pressure nano spray gun.

The invention has the following advantages: according to the invention, the feeding mechanism and the clamping rotating mechanism are arranged, and the clamping rotating mechanism clamps and rotates the new material pipe, so that full-coverage uniform spraying is realized during spraying, the feeding mechanism realizes automatic conveying of the new material pipe, and the operation is simple and rapid; the clamping rotating mechanism, the separating feeding mechanism and the bidirectional driving mechanism are matched to realize automatic separating feeding of the new material pipe; through the cooperation of the clamping rotating mechanism and the trigger mechanism, the effect of controlling the spraying switch in a timing manner can be realized, and the operation is simple and convenient.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 3 is a schematic perspective view of the chucking rotating mechanism of the present invention.

Fig. 4 is a schematic perspective view of the separating and feeding mechanism of the present invention.

Fig. 5 is a schematic perspective view of the bi-directional driving mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the trigger mechanism of the present invention.

Reference numbers in the drawings: 1_ bottom plate, 2_ outer frame, 3_ baffle, 4_ support frame, 5_ spray gun, 6_ fan, 7_ feed mechanism, 71_ rotary shaft, 72_ drum, 73_ conveyor belt, 74_ support plate, 75_ motor, 76_ conveyor assembly, 8_ chucking rotating mechanism, 81_ fixed frame, 82_ pusher plate, 83_ rotating sleeve, 84_ electric rotating column, 85_ fixed rotating column, 86_ extension spring, 9_ separating feed mechanism, 91_ connecting guide plate, 92_ clamping plate, 93_ first compression spring, 10_ bidirectional drive mechanism, 101_ fixed sleeve, 102_ three-way piston cylinder, 103_ first piston push rod, 104_ first fixed plate, 105_ ordinary piston cylinder, 106_ second piston push rod, 107_ rotating plate, 108_ second compression spring, 109_ first liquid guide tube, 1010_ second liquid guide tube, 11_ pushing mechanism, 111_ second fixed plate, 112_ rotating plate, 113_ torsion spring, 12_ trigger mechanism, 121_ sliding sleeve, 122_ compression plate, 123_ third compression spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a high-efficiency nano spraying device for a new titanium alloy material comprises a bottom plate 1, outer frames 2, baffle plates 3, support frames 4, spray guns 5, fans 6, a feeding mechanism 7 and a clamping rotating mechanism 8, wherein the outer frames 2 are arranged on the left side and the right side of the bottom plate 1, the baffle plates 3 are connected between the front parts of the two outer frames 2, the support frames 4 are arranged on the left side and the right side of the inner wall of the upper part of each baffle plate 3, the spray guns 5 are arranged at the inner ends of the support frames 4, the fans 6 are arranged in the middle of the tops of the baffle plates 3, the feeding mechanism 7 is arranged on the bottom plate 1, and the clamping rotating mechanism 8 is arranged on the feeding mechanism 7; the feeding mechanism 7 comprises a rotating shaft 71, rollers 72, conveyor belts 73, supporting plates 74, a motor 75 and a conveying assembly 76, the rotating shaft 71 is rotatably connected to the front side and the rear side of the bottom plate 1, the rollers 72 are arranged on the rotating shaft 71, the conveyor belts 73 are connected between the two rollers 72, the supporting plates 74 are uniformly arranged on the conveyor belts 73, the motor 75 is arranged on the rear portion of the left side of the bottom plate 1, and the conveying assembly 76 is connected between the output shaft of the motor 75 and the left side of the rotating shaft 71 on the rear side; the clamping rotating mechanism 8 comprises a fixed frame 81, a pushing rotating plate 82, a rotating sleeve 83, an electric rotating column 84, a fixed rotating column 85 and an extension spring 86, wherein the fixed frame 81 is arranged on the supporting plate 74, the pushing rotating plate 82 is arranged on one side of the upper part of the fixed frame 81 in a sliding manner, the rotating sleeve 83 is connected between the upper part of the pushing rotating plate 82 and the fixed frame 81 in a sliding manner, the electric rotating column 84 is arranged at the end part of the rotating sleeve 83, the fixed rotating column 85 is arranged on the other side of the upper part of the fixed frame 81, and the extension spring 86 is connected between the fixed frame 81 and the fixed frame; the separating and feeding mechanism 9 comprises connecting guide plates 91, clamping plates 92 and first compression springs 93, the connecting guide plates 91 are connected between the left side and the right side of the rear parts of the two outer frames 2, the clamping plates 92 are arranged on the left side and the right side of the upper parts of the connecting guide plates 91 in a sliding mode, and the first compression springs 93 are connected between the clamping plates 92 and the connecting guide plates 91 on the front side and the rear side of the upper parts of the connecting guide plates 91; the bidirectional driving mechanism 10 comprises a fixed sleeve 101, a three-way piston cylinder 102, a first piston push rod 103, a first fixed plate 104, a common piston cylinder 105, a second piston push rod 106, a rotating plate 107, a second compression spring 108, a first liquid guide pipe 109 and a second liquid guide pipe 1010, the fixed sleeves 101 are symmetrically arranged on the front side and the rear side of the middle part of the connecting guide plate 91, the three-way piston cylinder 102 is arranged between the two fixed sleeves 101 on the same side, the first piston push rod 103 is arranged on the left side and the right side of the three-way piston cylinder 102 in a sliding mode, the first piston push rod 103 is connected with the clamping plate 92 on the same side in a sliding mode, the first fixed plate 104 is symmetrically arranged on the lower part of the front side of the connecting guide plate 91, the common piston cylinder 105 is arranged on the lower part of the first fixed plate 104, the second piston push rod 106 is connected on the common piston cylinder 105 in a sliding mode, the rotating plate 107 is rotatably arranged on the inner side of the second piston push rod 106, and the rotating plate 107 is matched with the fixed frame 81, a second compression spring 108 is connected between the second piston push rod 106 and the first fixing plate 104 on the same side, a first liquid guide pipe 109 is connected between the front side of the common piston cylinder 105 on the right side and the three-way piston cylinder 102 on the front side, and a second liquid guide pipe 1010 is connected between the common piston cylinder 105 on the left side and the three-way piston cylinder 102 on the rear side; the pushing mechanism 11 is further included, the pushing mechanism 11 includes a second fixing plate 111, a rotating plate 112 and a torsion spring 113, the second fixing plate 111 is symmetrically arranged at the lower part of the rear side of the connecting guide plate 91, the rotating plate 112 is rotatably arranged at the lower part of the second fixing plate 111, the rotating plate 112 is matched with the pushing rotating plate 82, the torsion spring 113 is sleeved at the upper part and the lower part of the outer side of the rotating plate 112, and two ends of the torsion spring 113 are connected with the second fixing plate 111; the device is characterized by further comprising a trigger mechanism 12, wherein the trigger mechanism 12 comprises a sliding sleeve 121, an extrusion plate 122 and a third compression spring 123, the sliding sleeve 121 is symmetrically arranged on the inner side of the support frame 4, the extrusion plate 122 is slidably arranged on the sliding sleeve 121, the extrusion plate 122 is matched with the fixing frame 81, and the third compression spring 123 is connected between the extrusion plate 122 and the sliding sleeve 121.

When people need to carry out nano-spraying on a new titanium alloy material, the spraying equipment can be used, firstly, titanium alloy pipes are sequentially arranged on the clamping and rotating mechanism 8 one by one at the rear side of the feeding mechanism 7, then, the clamping and rotating mechanism 8 is started, the clamping and rotating mechanism 8 drives the titanium alloy pipes to rotate, then, the feeding mechanism 7 is started, the feeding mechanism 7 forwards conveys the titanium alloy pipes to the lower part of the spray gun 5, at the moment, the feeding mechanism 7 is closed, the switch of the spray gun 5 is opened, the spray gun 5 carries out nano-spraying on the pipes, when the pipes are sprayed, the fan 6 upwards absorbs the smell of the sprayed materials, the spray gun 5 is closed after the spraying is finished, and the pipes after the spraying is finished are taken down; people clamp the pipe on the clamping rotating mechanism 8 at the rear side and start the clamping rotating mechanism 8, then start the motor 75, the output shaft of the motor 75 drives the rotating shaft 71 and the roller 72 at the rear side to rotate through the conveying assembly 76, so as to drive the conveying belt 73 to transmit forwards, further drive the rotating shaft 71 and the roller 72 at the front side to rotate continuously, the conveying belt 73 drives the supporting plate 74 to transmit forwards, then drive the titanium alloy pipe on the clamping rotating mechanism 8 and the clamping rotating mechanism 8 to be conveyed forwards to the lower part of the spray gun 5, and the conveying can be stopped by turning off the motor 75; people pull the pushing rotating plate 82 outwards, the pushing rotating plate 82 drives the electric rotating column 84 to move outwards through the rotating sleeve 83, the extension spring 86 is extended, then new materials to be sprayed are placed on the fixing frame 81 between the electric rotating column 84 and the fixed rotating column 85, then the pushing rotating plate 82 is loosened, the extension spring 86 is reset, the pushing rotating plate 82 drives the electric rotating column 84 to move inwards through the rotating sleeve 83, the electric rotating column 84 clamps the titanium alloy pipe, then the electric rotating column 84 is started, the electric rotating column 84 drives the titanium alloy pipe to rotate continuously, the titanium alloy pipe can be sprayed in a multidirectional and uniform mode when spraying is finished, the electric rotating column 84 is closed after spraying is finished, the pipe stops rotating, and the pipe can be taken out after the pushing rotating plate 82 is pulled outwards again; people pull the clamping plates 92 outwards, the clamping plates 92 slide outwards along the first compression springs 93, the first compression springs 93 are compressed, then people stack a plurality of titanium alloy pipes to be sprayed between the two clamping plates 92 in sequence, so that the bottommost pipe falls on the fixing frame 81 below the clamping plates 92, then the clamping plates 92 are loosened, the clamping plates 92 clamp the pipes, when blanking is needed, hands are loosened immediately after the clamping plates 92 are pulled outwards manually, and one titanium alloy pipe falls on the fixing frame 81 below the clamping plates 92, so that the effect of intermittent feeding of the titanium alloy pipe can be achieved; when the fixed frame 81 moves to be matched with the rotating plate 107, the fixed frame 81 drives the rotating plate 107 to swing forwards, so that the second piston push rod 106 is driven to slide forwards, the second compression spring 108 is compressed, the second piston push rod 106 presses gas in the common piston cylinder 105 into the three-way piston cylinder 102 through the first liquid guide pipe 109 and the second liquid guide pipe 1010, so that the first piston push rod 103 is driven to move outwards, the clamping plate 92 is driven to slide outwards, the effect of automatically feeding the titanium alloy pipe onto the fixed frame 81 is realized, when the fixed frame 81 moves to be not in contact with the rotating plate 107, the second compression spring 108 resets to drive the second piston push rod 106 to slide backwards, and the clamping plate 92 slides inwards under the reset action of the first compression spring 93; when the pushing rotating plate 82 moves to be in contact with the rotating plate 112, the pushing rotating plate 82 stops moving forwards temporarily, at the moment, the fixing frame 81 continues moving forwards, so that the extension spring 86 is extended, when the fixing frame 81 moves forwards, so that the electric rotating column 84 is in contact with the fixing frame 81, a titanium alloy pipe to be sprayed is loaded onto the fixing frame 81 between the electric rotating column 84 and the fixing rotating column 85 and is clamped tightly, the pushing rotating plate 82 does not need to be pulled outwards manually, the operation is simple and convenient, then the pushing rotating plate 82 starts moving forwards, so that the rotating plate 112 rotates, the torsion spring 113 is twisted and deformed, when the pushing rotating plate 82 moves forwards to be not in contact with the rotating plate 112, the torsion spring 113 resets to drive the rotating plate 112 to rotate reversely and reset; when mount 81 moved forward to contact with stripper plate 122, mount 81 drove stripper plate 122 and slided to the outside, and third compression spring 123 is compressed, when stripper plate 122 touched the switch on spray gun 5, spray gun 5 was started to begin to carry out nanometer spraying, when mount 81 kept away from stripper plate 122, third compression spring 123 reset and drove stripper plate 122 and slided to the inside, and spray gun 5 is closed, and spraying stops, so controllable spraying's switch, easy operation is convenient.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a titanium alloy new material is with high-efficient nanometer spraying plating equipment, including bottom plate (1), outrigger (2), baffle (3), support frame (4), spray gun (5) and fan (6), both sides all are equipped with outrigger (2) on bottom plate (1), are connected with baffle (3) between two outriggers (2), baffle (3) upper portion inner wall both sides all are equipped with support frame (4), support frame (4) inner is equipped with spray gun (5), install fan (6) in the middle of baffle (3) top, characterized by: the device is characterized by further comprising a feeding mechanism (7) and a clamping rotating mechanism (8), wherein the feeding mechanism (7) is arranged on the bottom plate (1), and the clamping rotating mechanism (8) is arranged on the feeding mechanism (7).

2. The high-efficiency nano-sputtering apparatus for a new material of titanium alloy as set forth in claim 1, wherein: pivot (71), cylinder (72), conveyer belt (73), backup pad (74), motor (75) and transfer assembly (76) constitute feeding mechanism (7), the equal rotary type in both sides is connected with pivot (71) on bottom plate (1), be equipped with cylinder (72) on pivot (71), be connected with conveyer belt (73) between two cylinder (72), evenly be equipped with backup pad (74) on conveyer belt (73), install motor (75) on bottom plate (1), be connected with transfer assembly (76) between motor (75) output shaft and pivot (71) of one side.

3. The high-efficiency nano-sputtering apparatus for a new material of titanium alloy as set forth in claim 2, wherein: mount (81), promote and change board (82), change cover (83), electronic rotary column (84), fixed rotary column (85) and extension spring (86) constitute chucking slewing mechanism (8), be equipped with mount (81) on backup pad (74), mount (81) upper portion one side slidingtype is equipped with promotes and changes board (82), it has commentaries on classics cover (83) to promote to change between board (82) upper portion and mount (81) slidingtype connection, it is equipped with electronic rotary column (84) to change cover (83) tip, mount (81) upper portion opposite side is equipped with fixed rotary column (85), mount (81) and between be connected with extension spring (86).

4. A high-efficiency nanoplating apparatus for a new material titanium alloy, according to claim 3, wherein: still including separation feed mechanism (9), connect baffle (91), clamp plate (92) and first compression spring (93) and constitute separation feed mechanism (9), be connected with between two outrigger (2) rear portion both sides and connect baffle (91), connect baffle (91) upper portion both sides all slidingtype and be equipped with clamp plate (92), clamp plate (92) and connect between baffle (91) upper portion both sides all to be connected with first compression spring (93).

5. The high-efficiency nano-sputtering apparatus for a new material of titanium alloy as set forth in claim 4, wherein: the two-way driving mechanism (10) is further comprised, a fixing sleeve (101), a three-way piston cylinder (102), a first piston push rod (103), a first fixing plate (104), a common piston cylinder (105), a second piston push rod (106), a rotating plate (107), a second compression spring (108), a first liquid guide pipe (109) and a second liquid guide pipe (1010) form the two-way driving mechanism (10), the fixing sleeves (101) are symmetrically arranged on two sides of the middle of a connecting guide plate (91), the three-way piston cylinder (102) is installed between the two fixing sleeves (101) on the same side, the first piston push rod (103) is slidably arranged on two sides of the three-way piston cylinder (102), the first piston push rod (103) is slidably connected with a clamping plate (92) on the same side, the first fixing plate (104) is symmetrically arranged on the lower portion of the connecting guide plate (91), the common piston cylinder (105) is installed on the lower portion of the first fixing plate (104), a second piston push rod (106) is connected to the common piston cylinder (105) in a sliding mode, a rotating plate (107) is arranged on the inner side of the second piston push rod (106) in a rotating mode, the rotating plate (107) is matched with the fixing frame (81), a second compression spring (108) is connected between the second piston push rod (106) and the first fixing plate (104) on the same side, a first liquid guide pipe (109) is connected between the common piston cylinder (105) on one side and the three-way piston cylinder (102) on one side, and a second liquid guide pipe (1010) is connected between the common piston cylinder (105) on the other side and the three-way piston cylinder (102) on the other side.

6. An efficient nanoplating apparatus for a new material titanium alloy as claimed in claim 5, wherein: the novel rotary plate pushing mechanism is characterized by further comprising a pushing mechanism (11), the second fixing plate (111), the rotary plate (112) and the torsion spring (113) form the pushing mechanism (11), the second fixing plate (111) is symmetrically arranged on the lower portion of the connecting guide plate (91), the rotary plate (112) is rotatably arranged on the lower portion of the second fixing plate (111), the rotary plate (112) is matched with the pushing rotary plate (82), the torsion spring (113) is sleeved on the upper portion and the lower portion of the outer side of the rotary plate (112), and two ends of the torsion spring (113) are connected with the second fixing plate (111).

7. The high-efficiency nano-sputtering apparatus for a new material of titanium alloy as set forth in claim 6, wherein: the novel plastic support frame is characterized by further comprising a trigger mechanism (12), wherein the trigger mechanism (12) is composed of a sliding sleeve (121), an extrusion plate (122) and a third compression spring (123), the sliding sleeve (121) is symmetrically arranged on the inner side of the support frame (4), the extrusion plate (122) is slidably arranged on the sliding sleeve (121), the extrusion plate (122) is matched with the fixing frame (81), and the third compression spring (123) is connected between the extrusion plate (122) and the sliding sleeve (121).

8. A high-efficiency nanopray plating apparatus for a new material of titanium alloy according to claim 1, wherein the spray gun (5) is a high-pressure nanopray gun.