CN109333062B - Water-cooling fixed ring assembly structure - Google Patents

Abstract

The invention provides a water-cooling fixing ring assembly structure, and relates to the field of machining. The water-cooling fixing ring assembly structure comprises a screw feeding structure, a lock catch feeding structure, a fixing structure and a lock cap feeding structure; the fixing structure is used for fixing the fixing ring; the lock cap feeding structure is used for conveying the lock caps to the fixing ring; the lock catch feeding structure is used for conveying the lock catch to the fixed ring, and enabling the lock catch to move towards the direction close to the fixed ring, so that the lock catch penetrates through the fixed ring to be clamped with the lock cap; the screw feeding structure is used for conveying screws to the fixing structure, and enabling the screws to move towards the direction close to the fixing ring, so that the screws penetrate through the lock catches and the lock caps to form the water-cooling fixing ring. In the invention, the lock cap is transported to the fixing ring, and then the lock catch moves towards the direction close to the lock cap, so that the butt joint precision of the lock cap and the lock catch is improved, and the installation precision of the water-cooling fixing ring is improved.

Description

Water-cooling fixed ring assembly structure

Technical Field

The invention relates to the field of machining, in particular to a water-cooling fixing ring assembly structure.

Background

The common product assembly mode in the market at present is to manually finish direction identification, assembly, compression … and other series of actions of the product accessories, and then assemble the product accessories; the manual single identification is needed, the efficiency is low, errors are easy to occur, and the assembly precision is low.

Disclosure of Invention

The invention aims to provide a water-cooling fixing ring assembly structure, which is used for installing a lock catch, a lock cap and a screw on a fixing ring to form a water-cooling fixing ring. The water-cooling fixing ring assembly structure provided by the invention can improve the assembly precision of the water-cooling fixing ring.

The invention provides a technical scheme that:

the water-cooling fixed ring assembly structure is used for installing a lock catch, a lock cap and a screw on a fixed ring to form a water-cooling fixed ring and comprises a screw feeding structure, a lock catch feeding structure, a fixed structure and a lock cap feeding structure;

the fixing structure is used for fixing the fixing ring;

The lock cap feeding structure is used for conveying the lock caps to the fixing ring;

The lock catch feeding structure is used for conveying the lock catch to the fixing ring, and enabling the lock catch to move towards the direction close to the fixing ring, so that the lock catch passes through the fixing ring to be clamped with the lock cap;

The screw feeding structure is used for conveying the screw to the fixing structure, and enabling the screw to move towards the direction close to the fixing ring, so that the screw penetrates through the lock catch and the locking cap to form the water-cooling fixing ring.

Further, in a preferred embodiment of the present invention, the locking cap feeding structure includes: the locking buckle feeding assembly, the locking buckle distributing assembly and the locking buckle grabbing assembly are connected with the locking buckle feeding assembly, and the locking buckle grabbing assembly and the locking buckle distributing assembly are oppositely arranged; the lock catch material distribution assembly is provided with a plurality of lock catch material distribution parts, and the lock catch material distribution parts are sequentially arranged on the lock catch material distribution assembly;

the lock catch feeding assembly is used for conveying the lock catches to the lock catch distributing assembly;

The lock catch material distributing assembly is used for placing a plurality of lock catches on the lock catch material distributing part in a one-to-one correspondence manner;

the lock catch grabbing component is used for grabbing a plurality of lock catches placed on the lock catch distributing part of the lock catch distributing component and driving the lock catches to move towards the direction close to the fixing ring.

Further, in a preferred embodiment of the present invention, the latch grabbing assembly includes a latch grabbing frame, a latch grabbing driving member and a plurality of latch grabbing members, where the latch grabbing driving member and the plurality of latch grabbing members are connected to the latch grabbing frame, and the latch grabbing driving member may drive the plurality of latch grabbing members to move in a direction close to the latch distributing portion, and the plurality of latch grabbing members and the plurality of latch distributing portions are in one-to-one correspondence.

Further, in a preferred embodiment of the present invention, the latch distributing assembly includes a latch distributing frame, a latch distributing tray, and a latch distributing driving member, where the latch distributing driving member and the latch distributing tray are both disposed on the latch distributing frame, the latch distributing driving member is connected with the latch distributing tray, the latch distributing tray includes a plurality of latch distributing portions, and the latch distributing driving member can drive the latch distributing tray to rotate, so that the latch distributing portions rotate to the latch feeding assembly in sequence, thereby placing the latches on the latch distributing portions.

Further, in a preferred embodiment of the present invention, the locking cap feeding structure includes a locking cap fixing component, a locking cap feeding component and a locking cap distributing component, wherein the locking cap feeding component is connected with one end of the locking cap distributing component, and one end of the locking cap distributing component far away from the locking cap feeding component is connected with the locking cap fixing component;

The lock cap fixing assembly is used for installing the fixing ring;

The lock cap feeding assembly is used for adjusting the position of the lock cap and transporting the lock cap to the lock cap distributing assembly;

the lock cap material distribution assembly is used for driving the lock caps to move in the direction close to the fixed ring and transporting the lock caps to the fixed ring.

Further, in a preferred embodiment of the present invention, the lock cap feeding assembly includes a lock cap feeding tray, a lock cap adjusting assembly and a lock cap transmission assembly, wherein the lock cap adjusting assembly is disposed between the lock cap transmission assembly and the lock cap feeding tray and is respectively connected with the lock cap transmission assembly and the lock cap feeding tray, and one end of the lock cap transmission assembly far away from the lock cap adjusting assembly is connected with the lock cap distributing assembly;

the locking cap feeding disc is used for conveying the locking caps to the locking cap adjusting assembly;

The lock cap adjusting assembly is used for adjusting the position of the lock cap so that the lock cap enters the lock cap transmission assembly at a preset angle;

the lock cap transmission assembly is used for transmitting the lock caps to the lock cap material distribution assembly.

Further, in a preferred embodiment of the present invention, the lock cap material distributing component includes a lock cap transmission member, a lock cap material distributing member and a lock cap mounting member, wherein one end of the lock cap transmission member is connected with the lock cap material feeding component, the other end is connected with the lock cap material distributing member, and the lock cap mounting member is arranged opposite to the lock cap material distributing member;

the lock cap transmission piece is used for transmitting the lock caps to the lock cap material dividing piece;

The lock cap material distributing piece is used for placing a plurality of lock caps on the lock cap material distributing pieces in sequence;

the lock cap mounting piece is used for moving the lock caps on the lock cap material distributing piece to the fixing ring.

Further, in a preferred embodiment of the present invention, the method comprises: the screw feeding assembly, the screw separating assembly and the screw grabbing assembly are connected, and the screw grabbing assembly and the screw separating assembly are oppositely arranged; the screw material distribution assembly is provided with a plurality of screw material distribution parts, and the screw material distribution parts are sequentially arranged on the screw material distribution assembly;

the screw feeding assembly is used for conveying the screws to the screw distributing assembly;

The screw material distributing assembly is used for placing a plurality of screws on the screw material distributing part in a one-to-one correspondence manner;

The screw grabbing component is used for grabbing a plurality of screws placed on the screw distributing part of the screw distributing component.

Further, in a preferred embodiment of the present invention, the screw distributing assembly includes a screw distributing frame, a screw distributing tray and a screw distributing driving member, the screw distributing driving member and the screw distributing tray are both disposed on the screw distributing frame, the screw distributing driving member is connected with the screw distributing tray, the screw distributing tray includes a plurality of screw distributing portions, and the screw distributing driving member can drive the screw distributing tray to rotate, so that the screw distributing portions rotate to the screw feeding assembly in sequence, thereby placing the screws on the screw distributing portions.

Further, in a preferred embodiment of the present invention, the screw feeding assembly includes a screw feeding frame, a screw conveying portion, and a screw feeding driving portion, wherein the screw conveying portion and the screw feeding driving portion are both connected to the screw feeding frame, the screw is placed in the screw conveying portion, and the screw feeding driving portion is connected to the screw conveying portion and drives the screw in the screw conveying portion to move in a direction approaching to the screw distributing assembly.

The water-cooling fixing ring assembly structure provided by the invention has the beneficial effects that: the water-cooling fixing ring assembly structure comprises a screw feeding structure, a lock catch feeding structure, a fixing structure and a lock cap feeding structure; the fixing structure is used for fixing the fixing ring; the lock cap feeding structure is used for conveying the lock caps to the fixing ring; the lock catch feeding structure is used for conveying the lock catch to the fixed ring, and enabling the lock catch to move towards the direction close to the fixed ring, so that the lock catch penetrates through the fixed ring to be clamped with the lock cap; the screw feeding structure is used for conveying screws to the fixing structure, and enabling the screws to move towards the direction close to the fixing ring, so that the screws penetrate through the lock catches and the lock caps to form the water-cooling fixing ring.

In the invention, the fixing structure firstly fixes the fixing ring, and the lock cap feeding structure firstly transports the lock cap to the fixing ring so that the lock cap is positioned at one side of the fixing ring. The lock catch feeding structure is used for conveying the lock catch to the other side of the fixed ring, and enabling the lock catch to move towards the direction close to the fixed ring, so that the lock catch penetrates through the fixed ring to be clamped with the lock cap. The screw feeding structure conveys screws to the fixing structure and moves towards the direction close to the fixing ring, so that the screws penetrate through the lock catches and the lock caps to form the water-cooling fixing ring. In the invention, the lock cap is transported to the fixing ring, and then the lock catch moves towards the direction close to the lock cap, so that the butt joint precision of the lock cap and the lock catch is improved, and the installation precision of the water-cooling fixing ring is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an assembly structure of a water-cooled fixing ring according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a locking cap feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a feeding assembly of a locking cap feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of an adjusting assembly of a feeding assembly of a locking cap feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a distributing member of a distributing assembly of a locking cap feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a mounting part of a distributing assembly of a locking cap feeding structure of a water-cooling fixing ring assembly structure according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a latch feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a latch distributing assembly of a latch feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a latch feeding assembly of a latch feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a latch adjusting assembly of a latch feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a latch grabbing assembly of a latch feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 12 is a schematic structural diagram of a screw feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 13 is a schematic structural diagram of a material distributing assembly of a screw feeding structure of a water-cooling fixing ring assembly structure according to an embodiment of the present invention.

Fig. 14 is a schematic structural diagram of a feeding assembly of a screw feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Fig. 15 is a schematic structural diagram of a grabbing component of a screw feeding structure of a water-cooled fixing ring assembly structure according to an embodiment of the present invention.

Icon: 10-a water-cooling fixing ring assembly structure; 100-a locking cap feeding structure; 110-a locking cap feeding assembly; 112-locking cap feed tray; 114-a locking cap adjustment assembly; 1141-a locking cap adjustment bracket; 1142-a lock cap detection unit; 1143-a locking cap adjuster; 1144-a locking cap rotary cylinder; 1145-a lock cap driving cylinder; 1146-a locking cap rotation; 1147-a locking cap connection; 1148-a first grip portion of the locking cap; 1149-a second grip portion of the locking cap; 1140-locking cap gripping cavities; 116-a locking cap transfer assembly; 120-a locking cap material distribution assembly; 122-a locking cap transfer; 124-locking cap material distributing piece; 1242-a locking cap material distributing disc; 1244-a locking cap sheave member; 1246-a locking cap drive; 126-a locking cap mount; 1262-a locking cap mount; 1264-the locking cap mounting drive; 1266-a locking cap mount; 1267-a locking cap mounting drive; 1268-a locking cap securing portion; 130-a locking cap securing assembly; 200-a lock catch feeding structure; 210-a lock catch feeding component; 212-a latch feed tray; 214-a latch adjustment assembly; 2141-a latch adjustment rack; 2142-a latch detection unit; 2143-a latch adjuster; 2144—a shackle rotation cylinder; 2145—a latch actuation cylinder; 2146-a latch rotation; 2147-a latch connection; 2148-a latch first grip; 2149-a latch second grip; 2140—a latch holding cavity; 216-a latch transmission assembly; 220-a lock catch material distributing component; 222-locking the material separating frame; 224-lock catch separating tray; 226-a lock catch material distributing driving piece; 2262-catch feed drive part; 2264-shackle sheave members; 2268-catch feed section; 230-a latch grasping assembly; 232-locking the grabbing frame; 234-catch grip drive; 236-latch grasping member; 2362-latch grip drive; 2364-latch grips; 2366-a latch grasping unit; 2367-third stage; 2368-fourth stage; 300-screw feeding structure; 310-screw feeding components; 312-screw feeding frame; 314-a screw delivery section; 316-screw feeding driving part; 320-screw material distributing assembly; 322-screw material separating frame; 324-screw material distributing disc; 3242-screw feed part; 326-screw dispensing drive; 3262-screw feed drive part; 3264-screw sheave member; 330-a screw grasping assembly; 332-a screw grabbing frame; 334-screw grip drive; 336-screw grabber; 3362—screw grip drive; 3364-screw grip; 3366—screw grasping unit; 3367-first section of screw; 3368-second section of screw; 400-fixed structure.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be understood that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like indicate orientations or positional relationships based on those shown in the drawings, or those conventionally put in place when the inventive product is used, or those conventionally understood by those skilled in the art, merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Examples

Referring to fig. 1, the present embodiment provides a water-cooled fixing ring assembly structure 10, and the water-cooled fixing ring assembly structure 10 provided in the present embodiment is used for installing a lock catch, a lock cap and a screw on a fixing ring to form a water-cooled fixing ring. The water-cooling fixing ring assembly structure 10 provided in this embodiment can improve the assembly accuracy of the water-cooling fixing ring.

In this embodiment, the water-cooled fixing ring assembly structure 10 includes a screw feeding structure 300, a lock catch feeding structure 200, a fixing structure 400 and a lock cap feeding structure 100;

the fixing structure 400 is used for fixing the fixing ring;

the lock cap feeding structure 100 is used for conveying the lock caps to the fixing ring;

The lock catch feeding structure 200 is used for conveying the lock catch to the fixed ring, and enabling the lock catch to move towards the direction close to the fixed ring, so that the lock catch penetrates through the fixed ring to be clamped with the lock cap;

The screw feeding structure 300 is used for transporting screws to the fixing structure 400, and moving the screws in a direction close to the fixing ring, so that the screws pass through the lock catches and the lock caps to form a water-cooled fixing ring.

In this embodiment, the fixing structure 400 fixes the fixing ring first, and the locking cap feeding structure 100 transports the locking cap to the fixing ring first, so that the locking cap is located at one side of the fixing ring. The lock catch feeding structure 200 is used for transporting the lock catch to the other side of the fixed ring, and enabling the lock catch to move towards the direction close to the fixed ring, so that the lock catch penetrates through the fixed ring to be clamped with the lock cap. The screw feeding structure 300 transports the screw to the fixing structure 400 and moves in a direction approaching to the fixing ring, so that the screw passes through the lock catch and the locking cap to form a water-cooled fixing ring. In the embodiment, the lock cap is transported to the fixing ring, and then the lock catch moves towards the direction close to the lock cap, so that the butt joint precision of the lock cap and the lock catch is improved, and the installation precision of the water-cooling fixing ring is improved.

Referring to fig. 2, in this embodiment, a locking cap feeding structure 100 includes: the lock cap feeding assembly 110 is connected with one end of the lock cap distributing assembly 120, and one end of the lock cap distributing assembly 120 away from the lock cap feeding assembly 110 is connected with the lock cap fixing assembly 130;

the locking cap fixing assembly 130 is used for installing a fixing ring;

the lock cap feeding assembly 110 is used for adjusting the position of the lock cap and transporting the lock cap to the lock cap distributing assembly 120;

the lock cap material distributing assembly 120 is used for driving the lock caps to move in a direction approaching to the fixing ring, and transporting the lock caps to the fixing ring.

In this embodiment, the locking cap fixing assembly 130 is fixed to the fixing ring, the locking cap feeding assembly 110 adjusts the position of the locking cap, and transports the locking cap to the locking cap distributing assembly 120, so that a plurality of locking caps enter the locking cap distributing assembly 120 at the same angle, and the locking cap distributing assembly 120 drives the locking cap to move in the direction close to the fixing ring, and transports the locking cap to the fixing ring, so that the lock catch can be clamped with the locking cap through the fixing ring. In this embodiment, the lock cap feeding assembly 110 firstly adjusts the position of the lock cap, and then transports the lock cap to the lock cap distributing assembly 120, so that a plurality of lock caps can enter the lock cap distributing assembly 120 at the same angle, thereby improving the accuracy of lock cap installation.

Referring to fig. 3, in the present embodiment, the lock cap feeding assembly 110 includes a lock cap feeding tray 112, a lock cap adjusting assembly 114 and a lock cap transferring assembly 116, wherein the lock cap adjusting assembly 114 is disposed between the lock cap transferring assembly 116 and the lock cap feeding tray 112 and is respectively connected to the lock cap transferring assembly 116 and the lock cap feeding tray 112, and one end of the lock cap transferring assembly 116 far away from the lock cap adjusting assembly 114 is connected to the lock cap distributing assembly 120;

the lock cap feed tray 112 is used to transport the lock caps to the lock cap adjustment assembly 114;

The lock cap adjusting assembly 114 is used for adjusting the position of the lock cap so that the lock cap enters the lock cap transmission assembly 116 at a preset angle;

The lock cap transfer assembly 116 is used to transfer the lock caps to the lock cap dispensing assembly 120.

In this embodiment, after the lock cap feeding tray 112 transports the lock caps to the lock cap adjusting assembly 114, the lock cap adjusting assembly 114 adjusts the positions of the lock caps so that the lock caps can enter the lock cap transporting assembly 116 at a predetermined angle, and the lock cap transporting assembly 116 transports the lock caps to the lock cap distributing assembly 120.

In this embodiment, after the lock cap is transported to the fixing ring by the lock cap material separating assembly 120, the lock catch passes through the fixing ring and is clamped with the lock cap, so that the lock cap enters the lock cap transmission assembly 116 at a preset angle, and the clamping precision of the lock cap and the lock catch can be improved.

Referring to fig. 4, in the present embodiment, the lock cap adjusting assembly 114 includes a lock cap adjusting frame 1141, a lock cap detecting unit 1142 and a lock cap adjusting member 1143, the lock cap adjusting frame 1141 has a lock cap detecting portion and a lock cap adjusting portion, the lock cap detecting portion is connected to the lock cap feeding tray 112, the lock cap adjusting portion is connected to the lock cap transmitting assembly 116, and the lock cap detecting unit 1142 is disposed at the lock cap detecting portion;

the lock cap detection unit 1142 is configured to detect a position of a lock cap, and control the lock cap adjusting member 1143 to adjust the lock cap to a preset angle;

the lock cap adjuster 1143 is used to transport the lock cap from the lock cap detection portion to the lock cap adjustment portion and adjust the lock cap to a preset angle for entry into the lock cap transport assembly 116.

In this embodiment, when the locking cap is located at the locking cap adjusting part, the locking cap detecting unit 1142 detects the position of the locking cap, and when the locking cap enters the locking cap adjusting part at a preset angle, the locking cap adjusting member 1143 only needs to transport the locking cap from the locking cap detecting part to the locking cap adjusting part, so that the locking cap enters the locking cap dispensing assembly 120 at the preset angle. When the cap is not entered into the cap detecting part at the preset angle, the cap adjusting member 1143 transports the cap from the cap detecting part into the cap adjusting part and rotates the cap to rotate the cap to the preset angle, thereby allowing the cap to enter into the cap dispensing assembly 120 at the preset angle.

In this embodiment, the lock cap includes a lock cap body, a first side wall and a second side wall, the first side wall and the second side wall are respectively disposed at two sides of the lock cap body, two ends of the first side wall and the second side wall respectively form a first notch and a second notch, and an opening of the first notch is larger than an opening of the second notch.

When the first notch faces the lock cap dispensing assembly 120, it indicates that the lock cap enters the lock cap dispensing assembly 120 at a predetermined angle.

In this embodiment, the lock cap detecting unit 1142 is an optical fiber sensor.

In this embodiment, the lock cap adjusting member 1143 includes a lock cap rotating portion 1146, a lock cap rotating cylinder 1144, and a lock cap driving cylinder 1145, the lock cap driving cylinder 1145 being connected to the lock cap rotating portion 1146 through the lock cap rotating cylinder 1144;

the cap driving cylinder 1145 is used for driving the cap rotating part 1146 to move from the cap detecting part to the cap adjusting part;

the cap rotating cylinder 1144 is used to drive the cap rotating part 1146 to rotate.

In this embodiment, the cap driving cylinder 1145 drives the cap rotating portion 1146 to move into the cap detecting portion, the cap rotating portion 1146 is fixed to the cap and the cap driving cylinder 1145 drives the cap rotating portion 1146 to move to the cap adjusting portion, and when the first notch of the cap is not facing the cap dispensing assembly 120, the cap rotating cylinder 1144 rotates the cap rotating portion 1146 to align the first notch with the cap dispensing assembly 120.

The first notch indicates that the first notch is aligned with the cap dispensing assembly 120 when the cap dispensing assembly 120 extends in a direction and the first notch is closer to the cap dispensing assembly 120 than the second notch.

In this embodiment, the lock cap rotating portion 1146 includes a lock cap connecting portion 1147, a lock cap first clamping portion 1148 and a lock cap second clamping portion 1149, the lock cap first clamping portion 1148 and the lock cap second clamping portion 1149 are respectively connected to two sides of the lock cap connecting portion 1147, the lock cap connecting portion 1147 is connected to the lock cap rotating cylinder 1144, the lock cap first clamping portion 1148 and the lock cap second clamping portion 1149 form a lock cap clamping cavity 1140, and the lock cap is installed in the lock cap clamping cavity 1140.

With continued reference to fig. 2, in the present embodiment, the lock cap material dividing component 120 includes a lock cap transmission member 122, a lock cap material dividing member 124, and a lock cap mounting member 126, one end of the lock cap transmission member 122 is connected to the lock cap material feeding component 110, the other end is connected to the lock cap material dividing member 124, and the lock cap mounting member 126 is disposed opposite to the lock cap material dividing member 124;

The lock cap transmission piece 122 is used for transmitting the lock caps to the lock cap material dividing piece 124;

The locking cap material dividing member 124 is used for placing a plurality of locking caps on the locking cap material dividing member 124 in sequence;

the lock cap mount 126 is used to move the lock caps on the lock cap split 124 to the retaining ring.

In this embodiment, one end of the lock cap transmission member 122 is connected to the lock cap adjusting portion, and the other end is connected to the lock cap distributing member 124, and when the first notch is disposed closer to the lock cap transmission member 122 than the second notch in the extending direction of the lock cap transmission member 122, it indicates that the lock cap enters the lock cap transmission member 122 at a predetermined angle.

Referring to fig. 5, in the present embodiment, the cap separating member 124 includes a cap separating disc 1242, a cap sheave member 1244, and a cap driving portion 1246, the cap separating disc 1242 has a plurality of separating portions, the cap driving portion 1246 is connected to the cap separating disc 1242 through the cap sheave member 1244, and the cap driving portion 1246 drives the cap separating disc 1242 to rotate through the cap sheave member 1244, so that the plurality of separating portions are sequentially located at the cap transmitting member 122, thereby installing the caps in the separating portions.

In this embodiment, the nut sheave member 1244 includes a nut driving dial and a nut driven dial, and the fixing member is disposed on the nut driven dial. The lock cap driving plate is connected with the lock cap driving part 1246, the lock cap driven turntable is connected with the lock cap distributing disc 1242, a lock cap round pin is arranged on the lock cap driving plate, a lock cap clamping groove is uniformly formed in the lock cap driven turntable, the lock cap driving plate is connected with the feeding driving part, when the lock cap driving plate rotates under the driving of the lock cap driving part 1246, the lock cap round pin follows up, and when the lock cap round pin rotates to the lock cap clamping groove, the lock cap round pin is clamped with the lock cap clamping groove, so that the lock cap driven turntable is driven to rotate until the lock cap round pin is separated from the lock cap clamping groove.

In this embodiment, the lock cap driving dial rotates one revolution and the lock cap driven dial rotates one quarter revolution.

Referring to fig. 6, in the present embodiment, the lock cap mounting member 126 includes a lock cap mounting frame 1262, a lock cap mounting driving member 1264, and a plurality of lock cap mounting portions 1266, wherein the plurality of lock cap mounting portions 1266 are sequentially disposed on the lock cap mounting frame 1262, and the lock cap mounting driving member 1264 is connected with the lock cap mounting frame 1262;

The lock cap mounting part 1266 is used for clamping the lock cap;

The cap mounting driver 1264 is used to drive the cap mounting frame 1262 to move the cap mounting portion 1266 in a direction approaching the fixing ring.

In this embodiment, a plurality of lock cap installation department 1266 and a plurality of branch material portion one-to-one, lock cap installation department 1266 centre gripping is located the lock cap on the branch material portion, and after lock cap installation department 1266 centre gripping lock cap, lock cap installation driving piece 1264 is through lock cap mounting bracket 1262 drive lock cap installation department 1266 to be close to the direction motion of solid fixed ring, makes the lock cap be located the solid fixed ring under, conveniently with the hasp joint.

In this embodiment, the lock cap mounting portion 1266 includes a lock cap mounting driving portion 1267 and two lock cap fixing portions 1268, the two lock cap fixing portions 1268 are connected with the lock cap mounting driving portion 1267, the two lock cap fixing portions 1268 form a lock cap fixing cavity, and the lock cap mounting driving portion 1267 can drive one of the lock cap fixing portions 1268 to move in a direction approaching or separating from the other lock cap fixing portion 1268, so as to adjust the size of the lock cap fixing cavity, and clamp the lock cap.

Referring to fig. 7, in this embodiment, a lock catch feeding structure 200 includes: the device comprises a lock catch feeding assembly 210, a lock catch distributing assembly 220 and a lock catch grabbing assembly 230, wherein the lock catch distributing assembly 220 is connected with the lock catch feeding assembly 210, and the lock catch grabbing assembly 230 is arranged opposite to the lock catch distributing assembly 220; the latch and feed assembly 220 has a plurality of latch and feed portions 2268, and the plurality of latch and feed portions 2268 are sequentially disposed on the latch and feed assembly 220;

the latch feeding assembly 210 is used for conveying the latches to the latch distributing assembly 220;

the latch and feed assembly 220 is configured to place a plurality of latches on the latch and feed portion 2268 in a one-to-one correspondence;

the latch grasping assembly 230 is used to grasp a plurality of latches placed on the latch distributing portion 2268 of the latch distributing assembly 220.

In this embodiment, the latch separating assembly 220 has a plurality of latch separating portions 2268, and a plurality of latches can be disposed in the plurality of latch separating portions 2268 in a one-to-one correspondence manner, so that the latch grabbing assembly 230 can simultaneously grab a plurality of latches on the latch separating assembly 220, thereby improving the working efficiency of the latch feeding structure 200.

In this embodiment, the latch separating assembly 220 includes a latch separating frame 222, a latch separating tray 224 and a latch separating driving member 226, the latch separating driving member 226 and the latch separating tray 224 are disposed on the latch separating frame 222, the latch separating driving member 226 is connected with the latch separating tray 224, the latch separating tray 224 includes a plurality of latch separating portions 2268, the latch separating driving member 226 can drive the latch separating tray 224 to rotate, so that the latch separating portions 2268 rotate to the latch feeding assembly 210 in sequence, and the latches are placed on the latch separating portions 2268.

In this embodiment, the latch separating driving member 226 drives the latch separating tray 224 to rotate, so that the latch separating portions 2268 can be sequentially located at the latch feeding assembly 210, when the latch separating portion 2268 is located at the latch feeding assembly 210, the latch separating portion 2268 is placed on the latch, and the latch separating driving member 226 drives the latch separating tray 224 to rotate, so that the next latch separating portion 2268 is located at the latch feeding assembly 210.

In this embodiment, the latch material-distributing driving member 226 includes a latch material-distributing driving portion 2262 and a latch sheave member 2264, where the latch material-distributing driving portion 2262 is disposed on the latch material-distributing frame 222 and connected with the latch sheave member 2264, and the latch sheave member 2264 cooperates with the latch material-distributing tray 224 and drives the latch material-distributing tray 224 to rotate under the driving of the latch material-distributing driving portion 2262.

In this embodiment, the latch sheave member 2264 includes a latch driving dial and a latch driven dial, and the latch distributing member is disposed on the latch driven dial. The lock catch driving plate is connected with the lock catch material distribution driving part 2262, the lock catch driven rotary plate is connected with the lock catch material distribution plate 224, lock catch round pins are arranged on the lock catch driving plate, a plurality of lock catch clamping grooves are uniformly formed in the lock catch driven rotary plate, the lock catch driving plate is connected with the feeding driving piece, when the lock catch driving plate rotates under the driving of the lock catch material distribution driving part 2262, the lock catch round pins follow-up, when the lock catch round pins rotate to the lock catch clamping grooves, the lock catch round pins are clamped with the lock catch clamping grooves, and accordingly the lock catch driven rotary plate is driven to rotate until the lock catch round pins are separated from the lock catch clamping grooves to abut against the lock catch round pins.

In this embodiment, the lock catch driving dial rotates one round, and the lock catch driven dial rotates one quarter round.

In this embodiment, the plurality of catch separating portions 2268 are integrally formed to form the annular catch separating tray 224.

In the present embodiment, the plurality of latch material dividing portions 2268 are integrally formed, but the present invention is not limited thereto, and in other embodiments of the present invention, the plurality of latch material dividing portions 2268 may be separately formed. The equivalent schemes of the embodiment can achieve the effects of the embodiment, and are all within the protection scope of the invention.

In this embodiment, the latch feeding assembly 210 includes a latch feeding tray 212, a latch adjusting assembly 214 and a latch conveying assembly 216, wherein the latch adjusting assembly 214 is disposed between the latch conveying assembly 216 and the latch feeding tray 212 and is connected with the latch conveying assembly 216 and the latch feeding tray 212 respectively, and one end of the latch conveying assembly 216 away from the latch adjusting assembly 214 is connected with a latch distributing assembly 220;

the latch feed tray 212 is used to transport latches to the latch adjustment assembly 214;

The latch adjusting component 214 is used for adjusting the position of the latch so that the latch enters the latch transmission component 216 at a preset angle;

The latch transfer assembly 216 is configured to transfer latches to the latch dispensing assembly 220.

In this embodiment, after the lock catch feeding tray 212 transports the lock catch to the lock catch adjusting assembly 214, the lock catch adjusting assembly 214 adjusts the position of the lock catch so that the lock catch can enter the lock catch transporting assembly 216 at a predetermined angle, and the lock catch transporting assembly 216 transports the lock catch to the lock catch distributing assembly 220.

In this embodiment, after the lock catch distributing assembly 220 transports the lock catch to the fixing ring, the lock catch passes through the fixing ring to be clamped with the lock catch, so that the lock catch enters the lock catch transmission assembly 216 at a preset angle, and the clamping precision of the lock catch and the lock catch can be improved.

In the present embodiment, the latch adjusting assembly 214 includes a latch adjusting frame 2141, a latch detecting unit 2142 and a latch adjusting member 2143, wherein the latch adjusting frame 2141 has a latch detecting portion and a latch adjusting portion, the latch detecting portion is connected to the latch feeding tray 212, the latch adjusting portion is connected to the latch transmitting assembly 216, and the latch detecting unit 2142 is disposed at the latch detecting portion;

The lock catch detecting unit 2142 is configured to detect a position of a lock catch, and control the lock catch adjusting member 2143 to adjust the lock catch to a preset angle;

The latch adjuster 2143 is configured to transport the latch from the latch detector to the latch adjuster and to latch the latch to a predetermined angle for entry into the latch transport assembly 216.

In this embodiment, when the lock is located at the lock adjusting portion, the lock detecting unit 2142 detects the position of the lock, and when the lock enters the lock adjusting portion at the predetermined angle, the lock adjusting member 2143 only needs to transport the lock from the lock detecting portion to the lock adjusting portion, so that the lock enters the lock distributing assembly 220 at the predetermined angle. When the latch does not enter the latch detecting portion at the preset angle, the latch adjustor 2143 transports the latch from the latch detecting portion to the latch adjustor, and rotates the latch to the preset angle, thereby allowing the latch to enter the latch distributing assembly 220 at the preset angle.

In this embodiment, the latch includes a latch body, a third side wall and a fourth side wall, where the third side wall and the fourth side wall are respectively disposed at two sides of the latch body, and two ends of the third side wall and the fourth side wall form a third notch and a fourth notch respectively, and an opening of the third notch is larger than an opening of the fourth notch.

When the third notch faces the latch dispensing assembly 220, it indicates that the latch enters the latch dispensing assembly 220 at a predetermined angle.

In this embodiment, the lock catch detecting unit 2142 is an optical fiber sensor.

In the present embodiment, the latch adjuster 2143 includes a latch rotating portion 2146, a latch rotating cylinder 2144, and a latch driving cylinder 2145, wherein the latch driving cylinder 2145 is connected to the latch rotating portion 2146 through the latch rotating cylinder 2144;

the latch driving cylinder 2145 is for driving the latch rotating part 2146 to move from the latch detecting part to the latch adjusting part;

The latch rotating cylinder 2144 is for driving the latch rotating part 2146 to rotate.

In the present embodiment, the latch driving cylinder 2145 drives the latch rotating portion 2146 to move into the latch detecting portion, the latch rotating portion 2146 is fixed to the latch rear latch driving cylinder 2145 drives the latch rotating portion 2146 to move to the latch adjusting portion, and when the third notch of the latch is not facing the latch distributing assembly 220, the latch rotating cylinder 2144 rotates the latch rotating portion 2146 to align the third notch with the latch distributing assembly 220.

The third gap indicates that the third gap is aligned with the latch dispensing assembly 220 when the latch dispensing assembly 220 extends in a direction and the third gap is closer to the latch dispensing assembly 220 than the fourth gap.

In the present embodiment, the latch rotating portion 2146 includes a latch connecting portion 2147, a latch first clamping portion 2148 and a latch second clamping portion 2149, the latch first clamping portion 2148 and the latch second clamping portion 2149 are respectively connected to two sides of the latch connecting portion 2147, the latch connecting portion 2147 is connected to the latch rotating cylinder 2144, the latch first clamping portion 2148 and the latch second clamping portion 2149 form a latch clamping cavity 2140, and the latch is installed in the latch clamping cavity 2140.

In this embodiment, the latch grabbing assembly 230 includes a latch grabbing frame 232, a latch grabbing driving member 234 and a plurality of latch grabbing members 236, where the latch grabbing driving member 234 and the latch grabbing members 236 are connected to the latch grabbing frame 232, and the latch grabbing driving member 234 can drive the latch grabbing members 236 to move in a direction close to the latch separating portion 2268, and the latch grabbing members 236 are in one-to-one correspondence with the latch separating portions 2268.

In the present embodiment, the latch grasping driving member 234 simultaneously drives the plurality of latch grasping members 236 to move in a direction approaching the plurality of latch separating portions 2268 through the latch grasping frame 232, and when the latch grasping members 236 move to the latch separating portions 2268, the latch grasping members 236 grasp the latches placed on the latch separating portions 2268.

In this embodiment, the latch grabbing piece 236 includes a latch grabbing driving portion 2362 and a latch grabbing portion 2364, the latch grabbing portion 2364 includes two latch grabbing units 2366, the two latch grabbing units 2366 are connected with the latch grabbing driving portion 2362, the two latch grabbing units 2366 form a latch grabbing cavity, the latch grabbing driving portion 2362 can drive one latch grabbing unit 2366 to move towards a direction close to or far away from the other latch grabbing unit 2366, and the size of the latch grabbing cavity is adjusted to grab a latch.

In this embodiment, the latch grabbing driving part 2362 may simultaneously drive the two latch grabbing units 2366 to move in a direction approaching to each other, or may drive one of the latch grabbing units 2366 to move so that the two latch grabbing units 2366 approach each other, thereby making the latch grabbing cavity smaller to grab the latch.

In this embodiment, the latch grabbing unit 2366 includes a third section 2367 and a fourth section 2368, one end of the third section 2367 is connected to the latch grabbing frame 232, the other end is connected to the fourth section 2368, and two fourth sections 2368 form a latch grabbing cavity.

In this embodiment, the third segment 2367 and the fourth segment 2368 are perpendicular to each other.

In the present embodiment, the third section 2367 and the fourth section 2368 are perpendicular to each other, but the present invention is not limited thereto, and in other embodiments of the present invention, the third section 2367 and the fourth section 2368 may have other angles, and the equivalent scheme of the present embodiment can achieve the effects of the present embodiment, which are all within the scope of the present invention.

Referring to fig. 12 and 13, in the present embodiment, the screw feeding structure includes: the screw feeding assembly 310, the screw separating assembly 320 and the screw grabbing assembly 330 are arranged oppositely to the screw separating assembly 320, the screw separating assembly 320 is connected with the screw feeding assembly 310; the screw material distributing assembly 320 has a plurality of screw material distributing portions 3242, and the screw material distributing portions 3242 are sequentially disposed on the screw material distributing assembly 320;

the screw feeding assembly 310 is used for conveying screws to the screw distributing assembly 320;

the screw material distributing component 320 is used for placing a plurality of screws on the screw material distributing part 3242 in a one-to-one correspondence;

the screw grabbing assembly 330 is used for grabbing a plurality of screws placed on the screw dispensing portion 3242 of the screw dispensing assembly 320.

In this embodiment, the screw material distributing component 320 has a plurality of screw material distributing portions 3242, and a plurality of screws can be disposed in the plurality of screw material distributing portions 3242 in a one-to-one correspondence manner, and the screw grabbing component 330 can simultaneously grab a plurality of screws on the screw material distributing component 320, so that the working efficiency of the screw feeding structure is improved.

In this embodiment, the screw material distributing component 320 includes a screw material distributing frame 322, a screw material distributing disc 324 and a screw material distributing driving member 326, the screw material distributing driving member 326 and the screw material distributing disc 324 are disposed on the screw material distributing frame 322, the screw material distributing driving member 326 is connected with the screw material distributing disc 324, the screw material distributing disc 324 includes a plurality of screw material distributing portions 3242, the screw material distributing driving member 326 can drive the screw material distributing disc 324 to rotate, so that the screw material distributing portions 3242 rotate to the screw material feeding component 310 in sequence, and the screws are placed on the screw material distributing portions 3242.

In this embodiment, the screw distributing driving member 326 drives the screw distributing tray 324 to rotate, so that the screw distributing portions 3242 can be located at the screw feeding assembly 310 in sequence, when the screw distributing portion 3242 is located at the screw feeding assembly 310, the screw is placed on the screw distributing portion 3242, and the screw distributing driving member 326 drives the screw distributing tray 324 to rotate, so that the next screw distributing portion 3242 is located at the screw feeding assembly 310.

In this embodiment, the screw feeding driving member 326 includes a screw feeding driving portion 3262 and a screw sheave member 3264, the screw feeding driving portion 3262 is disposed on the screw feeding frame 322 and connected to the screw sheave member 3264, and the screw sheave member 3264 cooperates with the screw feeding tray 324 and drives the screw feeding tray 324 to rotate under the driving of the screw feeding driving portion 3262.

In this embodiment, the screw sheave member 3264 includes a driving dial and a driven dial, and the fixing member is disposed on the driven dial. The driving plate is connected with the screw material distribution driving part 3262, the driven turntable is connected with the screw material distribution plate 324, round pins are arranged on the driving plate, clamping grooves are uniformly formed in the driven turntable, the driving plate is connected with the feeding driving piece, when the driving plate rotates under the driving of the screw material distribution driving part 3262, the round pins follow-up, when the round pins rotate to the clamping grooves, the round pins are clamped with the clamping grooves, and accordingly the driven turntable is driven to rotate until the round pins are separated from the clamping grooves.

In this embodiment, the driving dial rotates one revolution and the driven dial rotates one quarter revolution.

In the present embodiment, a plurality of screw dispensing portions 3242 are integrally formed to form an annular screw dispensing tray 324.

In the present embodiment, the plurality of screw parts 3242 are integrally formed, but the present invention is not limited thereto, and in other embodiments of the present invention, the plurality of screw parts 3242 may be integrally formed. The equivalent schemes of the embodiment can achieve the effects of the embodiment, and are all within the protection scope of the invention.

Referring to fig. 14, in the present embodiment, the screw feeding assembly 310 includes a screw feeding frame 312, a screw conveying portion 314 and a screw feeding driving portion 316, wherein the screw conveying portion 314 and the screw feeding driving portion 316 are connected to the screw feeding frame 312, the screw is disposed in the screw conveying portion 314, the screw feeding driving portion 316 is connected to the screw conveying portion 314, and the screw in the screw conveying portion 314 is driven to move in a direction approaching to the screw separating assembly 320.

In this embodiment, the screw feeding driving part 316 is a linear material transporting vibrator. The linear motion vibrator operates to move the screw in the screw transfer portion 314 in a direction approaching the screw feed tray 324.

In the present embodiment, the screw feeding driving portion 316 is a linear vibrator, but the present invention is not limited thereto, and in other embodiments of the present invention, the screw feeding driving portion 316 may be other driving elements such as a driving motor, and the equivalent solution to the present embodiment can achieve the effects of the present embodiment, which are all within the scope of the present invention.

Referring to fig. 15, in the present embodiment, the screw grabbing assembly 330 includes a screw grabbing frame 332, a screw grabbing driving member 334 and a plurality of screw grabbing members 336, wherein the screw grabbing driving member 334 and the plurality of screw grabbing members 336 are connected with the screw grabbing frame 332, and the screw grabbing driving member 334 can drive the plurality of screw grabbing members 336 to move in a direction approaching to the screw separating portion 3242, and the plurality of screw grabbing members 336 and the plurality of screw separating portions 3242 are in one-to-one correspondence.

In the present embodiment, the screw grabbing driving member 334 simultaneously drives the plurality of screw grabbing members 336 to move in a direction approaching the plurality of screw separating portions 3242 through the screw grabbing frame 332, and when the screw grabbing members 336 move to the screw separating portions 3242, the screw grabbing members 336 grab the screws placed on the screw separating portions 3242.

In this embodiment, the screw grabbing piece 336 includes a screw grabbing driving portion 3362 and a screw grabbing portion 3364, the screw grabbing portion 3364 includes two screw grabbing units 3366, the two screw grabbing units 3366 are connected with the screw grabbing driving portion 3362, the two screw grabbing units 3366 form a screw grabbing cavity, the screw grabbing driving portion 3362 can drive one of the screw grabbing units 3366 to move towards a direction close to or far from the other screw grabbing unit 3366, and the size of the screw grabbing cavity is adjusted to grab screws.

In this embodiment, the screw capturing driving portion 3362 may simultaneously drive the two screw capturing units 3366 to move in a direction approaching each other, or may drive one of the screw capturing units 3366 to move so that the two screw capturing units 3366 approach each other, thereby making the screw capturing cavity smaller to capture the screw.

In this embodiment, the screw grabbing unit 3366 includes a first section and a second section, one end of the first section is connected with the screw grabbing frame 332, the other end is connected with the second section, and the two second sections form a screw grabbing cavity.

In this embodiment, the first section and the second section are perpendicular to each other.

In this embodiment, the first section and the second section are perpendicular to each other, but the present invention is not limited thereto, and in other embodiments of the present invention, the first section and the second section may be at other angles, which are equivalent to the embodiment, so that the effects of the embodiment are achieved, and all are within the scope of the present invention.

In summary, in the water-cooled fixing ring assembly structure 10 provided in the present embodiment, the fixing structure 400 fixes the fixing ring first, and the locking cap feeding structure 100 transports the locking cap to the fixing ring first, so that the locking cap is located at one side of the fixing ring. The lock catch feeding structure 200 is used for transporting the lock catch to the other side of the fixed ring, and enabling the lock catch to move towards the direction close to the fixed ring, so that the lock catch penetrates through the fixed ring to be clamped with the lock cap. The screw feeding structure 300 transports the screw to the fixing structure 400 and moves in a direction approaching to the fixing ring, so that the screw passes through the lock catch and the locking cap to form a water-cooled fixing ring. In the embodiment, the lock cap is transported to the fixing ring, and then the lock catch moves towards the direction close to the lock cap, so that the butt joint precision of the lock cap and the lock catch is improved, and the installation precision of the water-cooling fixing ring is improved.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The water-cooling fixed ring assembly structure is used for installing a lock catch, a lock cap and a screw on a fixed ring to form a water-cooling fixed ring and is characterized by comprising a screw feeding structure, a lock catch feeding structure, a fixed structure and a lock cap feeding structure;

the fixing structure is used for fixing the fixing ring;

The lock cap feeding structure is used for conveying the lock caps to the fixing ring;

The lock catch feeding structure is used for conveying the lock catch to the fixing ring, and enabling the lock catch to move towards the direction close to the fixing ring, so that the lock catch passes through the fixing ring to be clamped with the lock cap;

The screw feeding structure is used for conveying the screw to the fixing structure, and enabling the screw to move towards the direction close to the fixing ring, so that the screw passes through the lock catch and the locking cap to form the water-cooling fixing ring;

The locking cap material loading structure includes: the locking buckle feeding assembly, the locking buckle distributing assembly and the locking buckle grabbing assembly are connected with the locking buckle feeding assembly, and the locking buckle grabbing assembly and the locking buckle distributing assembly are oppositely arranged; the lock catch material distribution assembly is provided with a plurality of lock catch material distribution parts, and the lock catch material distribution parts are sequentially arranged on the lock catch material distribution assembly;

the lock catch feeding assembly is used for conveying the lock catches to the lock catch distributing assembly;

The lock catch material distributing assembly is used for placing a plurality of lock catches on the lock catch material distributing part in a one-to-one correspondence manner;

The lock catch grabbing component is used for grabbing a plurality of lock catches placed on the lock catch distributing part of the lock catch distributing component and driving the lock catches to move towards the direction close to the fixing ring;

The lock catch grabbing assembly comprises a lock catch grabbing frame, a lock catch grabbing driving piece and a plurality of lock catch grabbing pieces, wherein the lock catch grabbing driving piece and the plurality of lock catch grabbing pieces are connected with the lock catch grabbing frame, the lock catch grabbing driving piece can drive the plurality of lock catch grabbing pieces to move towards a direction close to the lock catch distributing part, and the plurality of lock catch grabbing pieces correspond to the lock catch distributing parts one by one;

The lock cap feeding structure comprises a lock cap fixing assembly, a lock cap feeding assembly and a lock cap distributing assembly, wherein the lock cap feeding assembly is connected with one end of the lock cap distributing assembly, and one end, far away from the lock cap feeding assembly, of the lock cap distributing assembly is connected with the lock cap fixing assembly;

The lock cap fixing assembly is used for installing the fixing ring;

The lock cap feeding assembly is used for adjusting the position of the lock cap and transporting the lock cap to the lock cap distributing assembly;

the lock cap material distribution assembly is used for driving the lock caps to move in the direction close to the fixed ring and transporting the lock caps to the fixed ring.

2. The water-cooled retainer ring assembly structure of claim 1, wherein the latch dispensing assembly comprises a latch dispensing rack, a latch dispensing tray and a latch dispensing drive member, wherein the latch dispensing drive member and the latch dispensing tray are both disposed on the latch dispensing rack, the latch dispensing drive member is connected with the latch dispensing tray, the latch dispensing tray comprises a plurality of latch dispensing portions, and the latch dispensing drive member can drive the latch dispensing tray to rotate so that the latch dispensing portions sequentially rotate to the latch loading assembly, thereby placing the latches on the latch dispensing portions.

3. The water-cooling fixed ring assembly structure according to claim 1, wherein the lock cap feeding assembly comprises a lock cap feeding tray, a lock cap adjusting assembly and a lock cap transmission assembly, the lock cap adjusting assembly is arranged between the lock cap transmission assembly and the lock cap feeding tray and is respectively connected with the lock cap transmission assembly and the lock cap feeding tray, and one end of the lock cap transmission assembly, which is far away from the lock cap adjusting assembly, is connected with the lock cap distributing assembly;

the locking cap feeding disc is used for conveying the locking caps to the locking cap adjusting assembly;

The lock cap adjusting assembly is used for adjusting the position of the lock cap so that the lock cap enters the lock cap transmission assembly at a preset angle;

the lock cap transmission assembly is used for transmitting the lock caps to the lock cap material distribution assembly.

4. The water-cooling fixed ring assembly structure according to claim 1, wherein the lock cap material distributing component comprises a lock cap transmission piece, a lock cap material distributing piece and a lock cap mounting piece, one end of the lock cap transmission piece is connected with the lock cap material feeding component, the other end is connected with the lock cap material distributing piece, and the lock cap mounting piece is arranged opposite to the lock cap material distributing piece;

the lock cap transmission piece is used for transmitting the lock caps to the lock cap material dividing piece;

The lock cap material distributing piece is used for placing a plurality of lock caps on the lock cap material distributing pieces in sequence;

the lock cap mounting piece is used for moving the lock caps on the lock cap material distributing piece to the fixing ring.

5. The water cooled retaining ring assembly of claim 1, including: the screw feeding assembly, the screw separating assembly and the screw grabbing assembly are connected, and the screw grabbing assembly and the screw separating assembly are oppositely arranged; the screw material distribution assembly is provided with a plurality of screw material distribution parts, and the screw material distribution parts are sequentially arranged on the screw material distribution assembly;

the screw feeding assembly is used for conveying the screws to the screw distributing assembly;

The screw material distributing assembly is used for placing a plurality of screws on the screw material distributing part in a one-to-one correspondence manner;

The screw grabbing component is used for grabbing a plurality of screws placed on the screw distributing part of the screw distributing component.

6. The water-cooled fixed ring assembly structure of claim 5, wherein the screw dispensing assembly comprises a screw dispensing frame, a screw dispensing tray and a screw dispensing driving member, the screw dispensing driving member and the screw dispensing tray are both arranged on the screw dispensing frame, the screw dispensing driving member is connected with the screw dispensing tray, the screw dispensing tray comprises a plurality of screw dispensing parts, the screw dispensing driving member can drive the screw dispensing tray to rotate, so that the screw dispensing parts sequentially rotate to the screw feeding assembly, and the screws are placed on the screw dispensing parts.

7. The water-cooled fixed ring assembly structure of claim 5, wherein the screw feeding assembly comprises a screw feeding frame, a screw conveying part and a screw feeding driving part, the screw conveying part and the screw feeding driving part are both connected with the screw feeding frame, the screw is placed in the screw conveying part, the screw feeding driving part is connected with the screw conveying part, and the screw in the screw conveying part is driven to move towards a direction close to the screw distributing assembly.