CN220880250U - Necking device for vacuum cup processing - Google Patents

Abstract

The utility model discloses a necking device for vacuum cup processing, which relates to the technical field of vacuum cup processing and comprises a base and a supporting component; the upper side of the base is fixed with a mounting frame, the upper side of the mounting frame is provided with an adjusting component, the middle part of the mounting frame is provided with a rotating component, and the adjusting component is matched with the rotating component; the support component comprises a fixing frame, an electric telescopic rod, a connecting disc, an extrusion rod and a supporting frustum, wherein the fixing frame is fixed on the left side of the installation frame, the electric telescopic rod is installed on the upper side of the fixing frame, the connecting disc is fixed on a telescopic arm of the electric telescopic rod, the extrusion rod which is uniformly distributed is fixed at the lower end of the connecting disc, the supporting frustum is fixed at the lower end of the extrusion rod, the input end of the electric telescopic rod is electrically connected with the output end of an external control switch group, and a necking roller can be arranged to simultaneously shrink a plurality of heat insulation cups.

Description

Necking device for vacuum cup processing

Technical Field

The utility model relates to the technical field of vacuum cup processing, in particular to a necking device for vacuum cup processing.

Background

In the field of manufacturing stainless steel thermos cups, it is known that necking is usually performed on the cup mouth of a thermos cup, and necking refers to shrinking the mouth of a preformed cylindrical member or pipe blank by a necking die. The existing vacuum cup necking device is low in working efficiency of single stations or double stations, the number of equipment needs to be increased to meet the output requirement, production cost is increased, a large number of sites are occupied, the productivity of enterprises is greatly limited, the competitiveness of the enterprises is reduced, and the existing equipment adopting double stations is provided with two necking rollers, so that the manufacturing cost and the maintenance difficulty are greatly increased. For this purpose, we propose a necking device for thermos cup processing.

Disclosure of utility model

The utility model aims to overcome the existing defects, and provides the necking device for processing the thermos cups, which can be used for necking a plurality of thermos cups simultaneously by arranging one necking roller, so that the problems in the background technology can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a necking device for vacuum cup processing comprises a base and a supporting component; the upper side of the base is fixed with a mounting frame, the upper side of the mounting frame is provided with an adjusting component, the middle part of the mounting frame is provided with a rotating component, and the adjusting component is matched with the rotating component; the supporting component contains mount, electric telescopic handle, connection pad, extruding rod and support frustum, the left side of installing frame is fixed with the mount, electric telescopic handle is installed to the upside of mount, be fixed with the connection pad on electric telescopic handle's the flexible arm, the lower extreme of connection pad is fixed with evenly distributed's extruding rod, the lower extreme of extruding rod is fixed with the support frustum, the output of outside control switch group is connected to electric telescopic handle's input electricity, the extrusion component is installed to the upper end of connection pad, the necking component is installed to the lower extreme of connection pad, extrusion component cooperatees with the necking component, supports the rim of a cup that the thermos cup goes on through setting up supporting component.

Further, the throat subassembly contains slide bar, extrusion disc, spring, connecting frame, first motor and throat gyro wheel, the slide hole has been seted up at the middle part of connection pad, the inside sliding connection of slide hole has the slide bar, the upper end of slide bar is fixed with the extrusion disc, the spring has been cup jointed on the periphery of slide bar, the lower extreme at the extrusion disc is fixed to the upper end of spring, the lower extreme of spring is fixed with the connecting frame at the upper end of connection pad, the first motor is installed to the inside downside of connecting frame, be fixed with the throat gyro wheel on the output shaft of first motor, the output of outside control switch group is connected to the input electricity of first motor, carries out the throat through setting up the throat subassembly to all thermos cups.

Further, the extrusion subassembly contains fixed plate, second motor and cam, the upper end of connection pad is fixed with two corresponding fixed plates, and the second motor is installed to the front side of fixed plate of front side, rotates on the corresponding medial surface of two fixed plates and is connected with the cam, the front end at the cam is fixed to the output shaft of second motor, the cam corresponds with the extrusion dish each other, the output of outside control switch group is connected to the input electricity of second motor, extrudes all extrusion dishes through setting up the extrusion subassembly.

Further, adjusting part contains bar mouth, draw runner, threaded rod and first conical gear, evenly distributed's bar mouth has been seted up to the upside of installing frame, the inside sliding connection of bar mouth has the draw runner, the screw hole has been seted up to the side of draw runner, the inside threaded connection of screw hole has the threaded rod, the threaded rod rotates the inside of connecting at the bar mouth, be fixed with first conical gear on the terminal surface of threaded rod, adjust all positions of storing the axle through setting up adjusting part.

Further, the rotating assembly comprises a fixed barrel, a second bevel gear and a third motor, the middle part of the installation frame is fixedly provided with the fixed barrel, the third motor is installed at the lower end of the fixed barrel, the second bevel gear is fixed on an output shaft of the third motor and meshed with all the first bevel gears, and the input end of the third motor is electrically connected with the output end of the external control switch group and drives all the first bevel gears to rotate through the rotating assembly.

Further, still include storage component, storage component contains installing frame, fourth motor and stores the axle, the upside of draw runner is fixed with the installing frame, the internally mounted of installing frame has the fourth motor, be fixed with on the output shaft of fourth motor and store the axle, it corresponds each other with supporting the frustum to store the axle, the output of outside control switch group is connected to the input electricity of fourth motor, stores the thermos cup through setting up storage component.

The beneficial effects are that: compared with the prior art, the necking device for processing the thermos cups has the advantages that the storage assembly is arranged, so that the thermos cups needing necking can be sleeved on the circumferential surface of the storage shaft in the using process, after the sleeving is finished, all the support conical tables are controlled to be downwards inserted into the thermos cups, the necking rollers are controlled to rotate after the inserting, and meanwhile the extruding assembly is started to enable the necking rollers to move up and down, so that necking can be carried out on all the thermos cups, and the necking efficiency is greatly improved.

Drawings

FIG. 1 is a schematic view of the front side structure of the present utility model;

FIG. 2 is a schematic view of a reduced edge component according to the present utility model;

FIG. 3 is a schematic view of a rotating assembly according to the present utility model.

In the figure: 1 base, 2 mounting frame, 3 supporting component, 31 mount, 32 electric telescopic link, 33 connection pad, 34 squeeze lever, 35 support frustum, 4 necking component, 41 slide bar, 42 squeeze plate, 43 spring, 44 connection frame, 45 first motor, 46 necking roller, 5 squeeze component, 51 fixed plate, 52 second motor, 53 cam, 6 adjusting component, 61 bar mouth, 62 slide bar, 63 threaded rod, 64 first conical gear, 7 rotating component, 71 fixed barrel, 72 second conical gear, 73 third motor, 8 storage component, 81 mounting frame, 82 fourth motor, 83 storage shaft.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the necking device for vacuum cup processing in this embodiment includes a base 1 and a support assembly 3.

The upper side of the base 1 is fixedly provided with a mounting frame 2, the upper side of the mounting frame 2 is provided with an adjusting component 6, the middle part of the mounting frame 2 is provided with a rotating component 7, the adjusting component 6 is matched with the rotating component 7, the adjusting component 6 comprises a strip-shaped opening 61, a sliding strip 62, a threaded rod 62, a third motor 73 and a first conical gear 73, the upper side of the mounting frame 2 is provided with the strip-shaped opening 61 which is uniformly distributed, the sliding strip 62 is slidingly connected with the inner side of the strip-shaped opening, the side surface of the sliding strip 62 is provided with a threaded hole, the inner thread of the threaded hole is connected with the threaded rod 63, the threaded rod 63 is rotationally connected with the inner part of the strip-shaped opening 61, the end surface of the threaded rod 63 is fixedly provided with the first conical gear 64, the rotating component 7 comprises a fixed barrel 71, the second conical gear 72 and the third motor 73, the middle part of the mounting frame 2 is fixedly provided with the fixed barrel 71, the lower end of the fixed barrel 71 is provided with the third motor 73, the output shaft of the third motor 73 is fixedly provided with a second bevel gear 72, the second bevel gear 72 is meshed with all the first bevel gears 64, the input end of the third motor 73 is electrically connected with the output end of an external control switch group, the storage assembly 8 further comprises a storage assembly 8, the storage assembly 8 comprises a mounting frame 81, a fourth motor 82 and a storage shaft 83, the upper side of the sliding bar 62 is fixedly provided with the mounting frame 81, the fourth motor 82 is internally provided with the mounting frame 81, the storage shaft 83 is fixedly arranged on the output shaft of the fourth motor 82, the storage shaft 83 corresponds to the support frustum 35, the input end of the fourth motor 82 is electrically connected with the output end of the external control switch group, the storage assembly 8 is arranged to store a thermos cup, the rotation assembly 7 is arranged to drive all the first bevel gears 64 to rotate, and the position of all the storage shaft 83 is adjusted by the adjustment assembly 6.

The supporting component 3 comprises a fixed frame 31, an electric telescopic rod 32, a connecting disc 33, an extrusion rod 34 and a supporting frustum 35, the fixed frame 31 is fixed on the left side of the installation frame 2, the electric telescopic rod 32 is installed on the upper side of the fixed frame 31, the connecting disc 33 is fixed on a telescopic arm of the electric telescopic rod 32, the extrusion rod 34 which is uniformly distributed is fixed at the lower end of the connecting disc 33, the supporting frustum 35 is fixed at the lower end of the extrusion rod 34, the input end of the electric telescopic rod 32 is electrically connected with the output end of an external control switch group, the extrusion component 5 is installed at the upper end of the connecting disc 33, the necking component 4 is installed at the lower end of the connecting disc 33, the extrusion component 5 is matched with the necking component 4, the necking component 4 comprises a slide bar 41, an extrusion disc 42, a spring 43, a connecting frame 44, a first motor 45 and necking roller 46, a slide hole is arranged in the middle of the connecting disc 33, the slide bar 41 is connected in a sliding way, the upper end of the slide bar 41 is fixed with the extrusion disk 42, the circumference of the slide bar 41 is sheathed with the spring 43, the upper end of the spring 43 is fixed at the lower end of the extrusion disk 42, the lower end of the spring 43 is fixed at the upper end of the connecting disk 33, the lower end of the slide bar 41 is fixed with the connecting frame 44, the lower side of the inside of the connecting frame 44 is provided with the first motor 45, the output shaft of the first motor 45 is fixed with the necking roller 46, the input end of the first motor 45 is electrically connected with the output end of the external control switch group, the extrusion component 5 comprises a fixed plate 51, a second motor 52 and a cam 53, the upper end of the connecting disk 33 is fixed with two corresponding fixed plates 51, the second motor 52 is arranged at the front side of the fixed plate 51 at the front side, the corresponding inner side surfaces of the two fixed plates 51 are rotationally connected with the cam 53, the output shaft of the second motor 52 is fixed at the front end of the cam 53, the cam 53 corresponds to the extrusion disk 42, the output of outside control switch group is connected to the input electricity of second motor 52, extrudees all extrusion dish 42 through setting up extrusion subassembly 5, carries out the throat to all thermos cups through setting up the throat subassembly 4, supports the rim of a cup that the thermos cup goes on through setting up supporting component 3.

The utility model provides a necking device for vacuum cup processing, which has the following working principle: firstly, the thermos cup which needs to enter the necking is sleeved on the circumferential surface of the storage shaft 83, after the sleeving, the electric telescopic rod 32 is controlled to shrink, the electric telescopic rod 32 shrinks to enable all the supporting conical tables 35 to be inserted into the thermos cups, after the electric telescopic rod 32 is inserted into the thermos cup, the first motor 45 is started to enable the necking roller 46 to rotate, the second motor 52 is started in the process of rotating the necking roller 46, the cam 53 rotates, the extruding disc 42 is downwards moved when the bulge part of the cam 53 is contacted with the extruding disc 42, when the bulge part of the cam 53 is far away from the extruding disc 42, the extruding disc 42 is restored to the original position under the action of the spring 43, the extruding disc 42 is repeatedly rotated to enable the extruding disc 42 to reciprocate up and down, the rotating necking roller 46 is driven by the reciprocating up and down, all the fourth motor 82 is started in the process of reciprocating up and down, all the storage shafts 83 rotate, all the cups are driven to rotate, all the cups rotate, the extruding disc 42 is driven by the third motor 73 in the process of rotating all the cups, all the second conical gears are driven by the rotating the second conical rollers 63, and all the thermos cup 72 can be driven by the rotating up and down reciprocating movement of all the conical rollers 64 are driven to rotate, and all the thermos cup is driven by all the rotating conical rods 64 rotate, and all the thermos cup can rotate.

It should be noted that the external control switch group disclosed in the above embodiment is provided with buttons corresponding to the electric telescopic rod 32, the first motor 45, the second motor 52, the third motor 73 and the fourth motor 82 one by one, the electric telescopic rod 32 may be se:Sub>A TGC-se:Sub>A high-thrust electric telescopic rod, and the first motor 45, the second motor 52, the third motor 73 and the fourth motor 8 may be 1LE0003 three-phase asynchronous motors.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. A throat device for thermos cup processing, its characterized in that: comprises a base (1) and a supporting component (3);

The upper side of the base (1) is fixedly provided with a mounting frame (2), the upper side of the mounting frame (2) is provided with an adjusting component (6), the middle part of the mounting frame (2) is provided with a rotating component (7), and the adjusting component (6) is matched with the rotating component (7);

The supporting component (3) contains mount (31), electric telescopic handle (32), connection pad (33), extrusion rod (34) and support frustum (35), the left side of installing frame (2) is fixed with mount (31), electric telescopic handle (32) are installed to the upside of mount (31), be fixed with connection pad (33) on the flexible arm of electric telescopic handle (32), the lower extreme of connection pad (33) is fixed with evenly distributed's extrusion rod (34), the lower extreme of extrusion rod (34) is fixed with supports frustum (35), the output of outside control switch group is connected to the input electricity of electric telescopic handle (32), extrusion component (5) are installed to the upper end of connection pad (33), necking subassembly (4) are installed to the lower extreme of connection pad (33), extrusion component (5) cooperate with necking subassembly (4).

2. A necking device for thermos cup processing according to claim 1, characterized in that: the utility model provides a control switch group's output is connected to the input electricity of first motor (45), throat subassembly (4) contains slide bar (41), extrusion dish (42), spring (43), connecting frame (44), first motor (45) and throat gyro wheel (46), the slide hole has been seted up at the middle part of connection pad (33), the inside sliding connection of slide hole has slide bar (41), the upper end of slide bar (41) is fixed with extrusion dish (42), cup jointed spring (43) on the periphery of slide bar (41), the lower extreme at extrusion dish (42) is fixed to the upper end of spring (43), the upper end at connection pad (33) is fixed to the lower extreme of spring (43), connecting frame (44) is fixed to the lower extreme of slide bar (41), first motor (45) are installed to the inside downside of connecting frame (44), be fixed with throat gyro wheel (46) on the output of first motor (45), the output of outside control switch group is connected to the input electricity of first motor (45).

3. A necking device for thermos cup processing according to claim 2, characterized in that: the extrusion assembly (5) comprises a fixed plate (51), a second motor (52) and a cam (53), wherein two corresponding fixed plates (51) are fixed at the upper end of the connecting disc (33), the second motor (52) is installed at the front side of the fixed plate (51) at the front side, the cam (53) is rotationally connected to the corresponding inner side surfaces of the two fixed plates (51), an output shaft of the second motor (52) is fixed at the front end of the cam (53), the cam (53) corresponds to the extrusion disc (42) mutually, and the input end of the second motor (52) is electrically connected with the output end of the external control switch group.

4. A necking device for thermos cup processing according to claim 1, characterized in that: the adjusting component (6) comprises a strip-shaped opening (61), a sliding strip (62), a threaded rod (63) and a first conical gear (64), wherein the strip-shaped opening (61) is formed in the upper side of the mounting frame (2) in an evenly distributed mode, the sliding strip (62) is connected to the inside of the strip-shaped opening in a sliding mode, a threaded hole is formed in the side face of the sliding strip (62), the threaded rod (63) is connected to the internal thread of the threaded hole in a threaded mode, the threaded rod (63) is connected to the inside of the strip-shaped opening (61) in a rotating mode, and the first conical gear (64) is fixed to the end face of the threaded rod (63).

5. The necking device for vacuum cup machining of claim 4, wherein: the rotating assembly (7) comprises a fixed barrel (71), a second bevel gear (72) and a third motor (73), the middle part of the mounting frame (2) is fixed with the fixed barrel (71), the third motor (73) is mounted at the lower end of the fixed barrel (71), the second bevel gear (72) is fixed on an output shaft of the third motor (73), the second bevel gear (72) is meshed with all the first bevel gears (64), and the input end of the third motor (73) is electrically connected with the output end of an external control switch group.

6. The necking device for vacuum cup machining of claim 4, wherein: still including storing subassembly (8), store subassembly (8) and contain installing frame (81), fourth motor (82) and store axle (83), the upside of draw runner (62) is fixed with installing frame (81), the internally mounted of installing frame (81) has fourth motor (82), be fixed with on the output shaft of fourth motor (82) and store axle (83), store axle (83) and support frustum (35) mutually correspond, the output of external control switch group is connected to the input electricity of fourth motor (82).