CN216129309U - Positioning and capping device for diversion trench cover - Google Patents

Abstract

The utility model relates to the technical field of assembly, in particular to a guide groove cover positioning and pressing cover device. According to the guide groove cover positioning and capping device, the transmission plate rotating around the fixed shaft and the lifting mechanism arranged at the edge of the transmission plate are arranged, so that the lifting mechanism rotates along with the transmission plate, and meanwhile, the cover grabbing mechanism is arranged at the bottom of the lifting mechanism, so that the cover grabbing mechanism can rotate along with the lifting mechanism, and the guide groove cover positioning and capping device is conveyed to different stations to convey the guide groove cover; meanwhile, the lifting mechanism can move up and down according to the guide rail of the guide piece through the guide piece arranged at the upper end of the fixed shaft; the cover grabbing mechanism is driven to move up and down, and grabbing and mounting of the flow guide groove cover are achieved; through the arrangement of the structure, fixed-point grabbing and fixed-point installation of the guide groove cover are realized, and the technical problem that the traditional guide groove cover pressing machine cannot carry out positioning installation on the guide groove cover is solved.

Description

Positioning and capping device for diversion trench cover

Technical Field

The utility model relates to the technical field of assembly, in particular to a guide groove cover positioning and pressing cover device.

Background

At present, in the industries of daily chemicals, food, medicines and the like, a capping machine is a device capable of automatically pressing or fastening a bottle cap into a bottle opening, but the capping work of a diversion trench cap cannot be realized by the existing capping machine because the diversion trench cap has a special structure and needs to keep a certain direction between the diversion trench and a bottle body because the diversion trench cap has the diversion trench.

The existing capping machine cannot realize the positioning work of the diversion trench cover, and the capping work of the diversion trench cover is finished manually for a long time, thus seriously restricting the improvement of the yield of daily chemical products such as laundry detergent and the like.

Therefore, along with the development of the packaging industry, the filling yield of the machine is greatly improved, and a machine capable of pressing the diversion trench cover is urgently needed, so that the whole-line automatic production of diversion trench cover products is realized.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a guide groove cover positioning and capping device, which solves the technical problem that the traditional guide groove cover capping machine cannot position and install a guide groove cover.

In order to solve the above technical problem, the present invention provides a capping device for a chute cover, comprising: a fixed shaft; a driving plate rotating around a fixed shaft; the lifting mechanism is close to the edge of the transmission plate and rotates along with the transmission plate; the cover grabbing mechanism is arranged at the lower end of the lifting mechanism; the guide piece is arranged above the fixed shaft, and a guide track for the lifting mechanism to move up and down is arranged on the guide piece; when the lifting mechanism rotates to the position above the diversion trench cover along with the transmission plate, the lifting mechanism drives the cover grabbing mechanism to descend to grab the diversion trench cover; and when the lifting mechanism rotates to the position above the bottle body along with the transmission plate, the lifting mechanism drives the cap grabbing mechanism to descend so as to press the flow guide groove cap on the bottle opening.

Further, the lifting mechanism includes: the lifting shaft and the moving wheel are arranged at the upper end of the lifting shaft; the moving wheel moves along the guide rail on the upper surface of the guide piece so as to drive the lifting shaft to ascend and descend.

Further, a long shaft gear for driving the lifting mechanism to rotate is sleeved on the lifting shaft; the long shaft gear is meshed with a transmission assembly arranged on the transmission plate; wherein drive assembly rotates when the driving plate rotates to the drive lift axle sleeve rotates.

Further, the transmission assembly includes: a first transmission gear and a second transmission gear; the first transmission gear and the second transmission gear rotate together through a transmission shaft; and the first transmission gear is meshed with a fixed gear arranged on a fixed shaft penetrating through the center of the transmission plate.

Further, the shaft core of the lifting shaft is connected with a fixing member provided on the transmission plate so as to be kept stationary while the lifting shaft rotates.

Further, the cover grasping mechanism includes: the device comprises a grab cover part arranged on a shaft sleeve of a rotating shaft and a positioning locking part arranged on a shaft core; the grabbing cover part rotates along with the shaft sleeve and grabs the flow guide groove cover when the lifting shaft moves above the flow guide groove cover; the positioning locking piece is used for enabling the diversion trench cover to stop rotating after rotating to a preset angle after the cover grabbing piece grabs the diversion trench cover.

Further, the grip cover member includes: a plurality of claws and claw holders; a claw groove suitable for mounting a claw is formed in the claw fixing seat; and the hook claw is rotationally connected with the claw groove of the hook claw fixing seat through a pin bolt.

Further, the guide rail includes in order: the cover grabbing section, the cover grabbing moving section, the cover loading section and the separation section; the movable wheel of the lifting mechanism moves along the guide rail, when the movable wheel passes through the cover grabbing section, the lifting mechanism descends, and the cover grabbing mechanism grabs the guide groove cover; when the cover passes through the cover grabbing moving section, the lifting mechanism keeps horizontal, and the cover grabbing mechanism positions and fixes the flow guide groove cover; when the flow guide groove cover passes through the cover mounting section, the lifting mechanism descends again, and the cover grabbing mechanism mounts the flow guide groove cover to the bottle opening; when the lifting mechanism passes through the separation section, the lifting mechanism rises, and the positioning locking piece in the cover grabbing mechanism resets.

The cover grabbing mechanism has the advantages that the transmission plate rotating around the fixed shaft and the lifting mechanism arranged on the edge of the transmission plate are arranged, so that the lifting mechanism rotates along with the transmission plate, and meanwhile, the cover grabbing mechanism is arranged at the bottom of the lifting mechanism, so that the cover grabbing mechanism can rotate along with the lifting mechanism, and the cover grabbing mechanism is conveyed to different stations to convey the flow guide groove cover; meanwhile, the lifting mechanism can move up and down according to the guide rail of the guide piece through the guide piece arranged at the upper end of the fixed shaft; the cover grabbing mechanism is driven to move up and down, and grabbing and mounting of the flow guide groove cover are achieved; through the arrangement of the structure, fixed-point grabbing and fixed-point installation of the guide groove cover are realized, and the technical problem that the traditional guide groove cover pressing machine cannot carry out positioning installation on the guide groove cover is solved.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of an operating state of a guide groove cover capping device of the present invention;

FIG. 2 is a schematic structural view of a guide groove cover capping device of the present invention;

FIG. 3 is a schematic structural view of a lifting mechanism in the capping device of the flow guide groove cover;

FIG. 4 is a schematic view of the mounting structure of the cover-grasping mechanism in the capping device of the guide chute cover;

FIG. 5 is an enlarged view at A in FIG. 4;

fig. 6 is an enlarged view at B in fig. 4.

In the figure: the device comprises a transmission plate 1, a fixed piece 11, a lifting mechanism 2, a lifting shaft 21, a shaft sleeve 211, a shaft core 212, a moving wheel 22, a cover grabbing mechanism 3, a cover grabbing piece 31, a hook 311, a hook fixing seat 312, a pin bolt 313, a positioning locking piece 32, a guide piece 4, a guide rail 41, a flow guide groove cover 5, a long shaft gear 61, a first transmission gear 62, a second transmission gear 63 and a fixed gear 64.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Examples

As shown in fig. 1 and 2, the present embodiment provides a guide duct cover capping device, including: a fixed shaft; a transmission plate 1 rotating around a fixed shaft; the lifting mechanism 2 is close to the edge of the transmission plate 1 and rotates along with the transmission plate 1; the cover grabbing mechanism 3 is arranged at the lower end of the lifting mechanism 2; and a guide 4 disposed above the fixed shaft and provided with a guide rail 41 for the up-and-down movement of the elevating mechanism 2; when the lifting mechanism 2 rotates to the position above the flow guide groove cover 5 along with the transmission plate 1, the lifting mechanism 2 drives the cover grabbing mechanism 3 to descend to grab the flow guide groove cover 5; and when the lifting mechanism 2 rotates to the upper part of the bottle body along with the transmission plate 1, the lifting mechanism 2 drives the cover grabbing mechanism 3 to descend so as to press the flow guide groove cover 5 on the bottle mouth.

In the embodiment, optionally, the transmission plate 1 rotating around the fixed shaft and the lifting mechanism 2 arranged at the edge of the transmission plate 1 are arranged, so that the lifting mechanism 2 rotates along with the transmission plate 1, and meanwhile, the cover grabbing mechanism 3 is arranged at the bottom of the lifting mechanism 2, so that the cover grabbing mechanism 3 can rotate along with the lifting mechanism 2, and the cover grabbing mechanism is transported to different stations to transport the flow guide groove cover 5; meanwhile, the lifting mechanism 2 can move up and down according to the guide rail 41 of the guide 4 through the guide 4 arranged at the upper end of the fixed shaft; the cover grabbing mechanism 3 is driven to move up and down, and grabbing and mounting of the flow guide groove cover 5 are achieved; through the arrangement of the structure, fixed-point grabbing and fixed-point installation of the guide groove cover 5 are realized, and the technical problem that the guide groove cover 5 cannot be positioned and installed by a traditional guide groove cover 5 pressing machine is solved.

As shown in fig. 2 and 3, in the present embodiment, the lifting mechanism 2 includes: a lifting shaft 21 and a moving wheel 22 arranged at the upper end of the lifting shaft 21; the moving wheel 22 moves along the guide rail 41 of the upper surface of the guide 4 to thereby raise and lower the elevation shaft 21.

In this embodiment, optionally, the moving wheel 22 is fixedly disposed at the upper end of the lifting shaft 21 through a fixing member 11 disposed on the transmission plate 1, and circularly moves along the guide rail 41 on the upper surface of the guide 4, so as to drive the lifting shaft 21 to move up and down due to the unevenness of the guide rail 41.

In this embodiment, the lifting shaft 21 is sleeved with a long shaft gear 61 for driving the lifting mechanism 2 to rotate; the long shaft gear 61 is meshed with a transmission component arranged on the transmission plate 1; wherein, the transmission plate 1 rotates to drive the transmission component to rotate, thereby driving the shaft sleeve of the lifting shaft 21 to rotate.

In this embodiment, optionally, the long shaft gear 61 is engaged with a transmission assembly disposed on the transmission plate 1, and the transmission plate 1 rotates to drive the transmission assembly to rotate, so as to drive the long shaft gear 61 to rotate, and drive the lifting shaft 21 to self-transmit.

In this embodiment, the transmission assembly includes: a first transmission gear 62 and a second transmission gear 63; the first transmission gear 62 and the second transmission gear 63 rotate together through a transmission shaft; and the first transmission gear 62 is engaged with a fixed gear 64 provided on a fixed shaft penetrating the center of the transmission plate 1.

In this embodiment, optionally, the fixed gear 64 is fixed, and since the first transmission gear 62 is fixed on the transmission plate 1, the first transmission gear 62 rotates around the fixed gear 64 and drives the first transmission gear 62 to rotate, and further drives the long-axis gear 61 to rotate.

In this embodiment, the core of the elevating shaft 21 is connected to the fixing member 11 provided on the driving plate 1 so as to be kept stationary while the elevating shaft 21 rotates.

As shown in fig. 2 and 4, in the present embodiment, the cover gripping mechanism 3 includes: a cover grasping member 31 provided on a boss 211 of the elevating shaft 21 and a positioning lock member 32 provided on the shaft core 212; the cover grabbing part 31 rotates along with the shaft sleeve 211 and grabs the guide groove cover 5 when the lifting shaft 21 moves to the upper part of the guide groove cover 5; the positioning locking member 32 is used for stopping the rotation of the guide groove cover 5 after the guide groove cover 5 is rotated to a preset angle after the cover grabbing member 31 grabs the guide groove cover 5.

In the present embodiment, optionally, the cover grabbing part 31 rotates along with the shaft sleeve 211 of the lifting shaft 21, and at the same time, the cover grabbing part 31 can move up and down due to the up and down movement of the lifting shaft 21, so as to grab the chute cover 5; the shaft core 212 of the lifting shaft 21 does not rotate, and the positioning locking piece 32 arranged on the shaft core 212 does not rotate, so that after the cover grabbing part 31 grabs the flow guide groove cover 5, when the flow guide groove cover 5 rotates to be matched with the profile of the positioning locking piece 32, the flow guide groove cover 5 is locked, and the installation and positioning of the flow guide groove cover 5 are realized.

As shown in fig. 4, 5 and 6, in the present embodiment, the cap member 31 includes: a plurality of hooks 311 and hook fixing seats 312; the claw fixing seat 312 is provided with a claw groove suitable for mounting the claw 311; and the hook claw 311 is rotatably connected with the claw groove of the hook claw fixing seat 312 through a pin 313.

In this embodiment, optionally, the hook 311 may move around the pin 313 in the fixed seat of the hook 311, and when the diversion trench cover 5 needs to be grabbed, the hook 311 opens to clip the diversion trench cover 5 into the fixed seat of the hook 311.

As shown in fig. 1 and 2, in the present embodiment, the guide rail 41 includes, in order: the cover grabbing section, the cover grabbing moving section, the cover loading section and the separation section; the moving wheel 22 of the lifting mechanism 2 moves along the guide track 41, when the moving wheel passes through the cover grabbing section, the lifting mechanism 2 descends, and the cover grabbing mechanism 3 grabs the guide groove cover 5; when the cover grabbing mechanism passes through the cover grabbing moving section, the lifting mechanism 2 keeps horizontal, and the cover grabbing mechanism 3 positions and fixes the flow guide groove cover 5; when the bottle cap passes through the cap installing section, the lifting mechanism 2 descends again, and the cap grabbing mechanism 3 installs the flow guide groove cap 5 to the bottle mouth; when it passes the disengagement section, the lifting mechanism 2 is raised and the positioning lock 32 in the lid grasping mechanism 3 is reset.

In conclusion, the transmission plate 1 rotating around the fixed shaft and the lifting mechanism 2 arranged at the edge of the transmission plate 1 are arranged, so that the lifting mechanism 2 rotates along with the transmission plate 1, and meanwhile, the cover grabbing mechanism 3 is arranged at the bottom of the lifting mechanism 2, so that the cover grabbing mechanism 3 can rotate along with the lifting mechanism 2, and the cover can be conveyed to different stations to convey the flow guide groove cover 5; meanwhile, the lifting mechanism 2 can move up and down according to the guide rail 41 of the guide 4 through the guide 4 arranged at the upper end of the fixed shaft; the cover grabbing mechanism 3 is driven to move up and down, and grabbing and mounting of the flow guide groove cover 5 are achieved; through the arrangement of the structure, fixed-point grabbing and fixed-point installation of the guide groove cover 5 are realized, and the technical problem that the guide groove cover 5 cannot be positioned and installed by a traditional guide groove cover pressing machine is solved.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations can be made by the worker in the light of the above teachings without departing from the spirit of the utility model. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides a water conservancy diversion capping location capping device which characterized in that includes:

a fixed shaft;

a driving plate rotating around a fixed shaft;

the lifting mechanism is close to the edge of the transmission plate and rotates along with the transmission plate;

the cover grabbing mechanism is arranged at the lower end of the lifting mechanism; and

the guide piece is arranged above the fixed shaft, and a guide track for the lifting mechanism to move up and down is arranged on the guide piece;

when the lifting mechanism rotates to the position above the diversion trench cover along with the transmission plate, the lifting mechanism drives the cover grabbing mechanism to descend to grab the diversion trench cover; and

when the lifting mechanism rotates to the position above the bottle body along with the transmission plate, the lifting mechanism drives the cap grabbing mechanism to descend so as to press the flow guide groove cap on the bottle opening.

2. The guide groove cover positioning and capping device of claim 1,

the lifting mechanism comprises: the lifting shaft and the moving wheel are arranged at the upper end of the lifting shaft;

the moving wheel moves along the guide rail on the upper surface of the guide piece so as to drive the lifting shaft to ascend and descend.

3. The guide groove cover positioning and capping device of claim 2,

a long shaft gear for driving the lifting mechanism to rotate is sleeved on the lifting shaft;

the long shaft gear is meshed with a transmission assembly arranged on the transmission plate; wherein

When the transmission plate rotates, the transmission assembly is driven to rotate, so that the shaft sleeve of the lifting shaft is driven to rotate.

4. The guide groove cover positioning and capping device of claim 3,

the transmission assembly includes: a first transmission gear and a second transmission gear;

the first transmission gear and the second transmission gear rotate together through a transmission shaft; and is

The first transmission gear is meshed with a fixed gear arranged on a fixed shaft penetrating through the center of the transmission plate.

5. The guide groove cover positioning and capping device of claim 3,

the shaft core of the lifting shaft is connected with a fixing piece arranged on the transmission plate so as to keep static when the lifting shaft rotates.

6. The guide groove cover positioning and capping device of claim 5,

the cover grasping mechanism includes: the device comprises a grab cover part arranged on a shaft sleeve of a rotating shaft and a positioning locking part arranged on a shaft core; wherein

The grabbing cover part rotates along with the shaft sleeve and grabs the flow guide groove cover when the lifting shaft moves to the position above the flow guide groove cover;

the positioning locking piece is used for enabling the diversion trench cover to stop rotating after rotating to a preset angle after the cover grabbing piece grabs the diversion trench cover.

7. The guide groove cover positioning and capping device of claim 6,

the cap member includes: a plurality of claws and claw holders;

a claw groove suitable for mounting a claw is formed in the claw fixing seat; and is

The hook claw is rotationally connected with the claw groove of the hook claw fixing seat through a pin bolt.

8. The guide groove cover positioning and capping device of claim 1,

the guide track comprises in sequence: the cover grabbing section, the cover grabbing moving section, the cover loading section and the separation section; wherein

The moving wheel of the lifting mechanism moves along the guide rail, when the moving wheel passes through the cover grabbing section, the lifting mechanism descends, and the cover grabbing mechanism grabs the guide groove cover;

when the cover passes through the cover grabbing moving section, the lifting mechanism keeps horizontal, and the cover grabbing mechanism positions and fixes the flow guide groove cover;

when the flow guide groove cover passes through the cover mounting section, the lifting mechanism descends again, and the cover grabbing mechanism mounts the flow guide groove cover to the bottle opening;

when the lifting mechanism passes through the separation section, the lifting mechanism rises, and the positioning locking piece in the cover grabbing mechanism resets.

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