CN220201378U

CN220201378U - Cover supplying device

Info

Publication number: CN220201378U
Application number: CN202321503556.3U
Authority: CN
Inventors: 霍箭东; 唐志金; 赵天野; 许伟; 许新; 张宇航; 王健
Original assignee: Changchun Lanzhou Technology Co ltd; Changchun Rongcheng Intelligent Equipment Manufacturing Co ltd
Current assignee: Changchun Lanzhou Technology Co ltd; Changchun Rongcheng Intelligent Equipment Manufacturing Co ltd
Priority date: 2023-06-14
Filing date: 2023-06-14
Publication date: 2023-12-19
Anticipated expiration: 2033-06-14

Abstract

The utility model relates to the technical field of packaging, in particular to a cover supplying device, which comprises: the cover outlet channel is constructed into a slope structure; the first cover supply channel is connected with the bottom end of the cover outlet channel; the second cover supply channel is arranged in parallel with the first cover supply channel; the shunt channel is vertically connected between the first cover supply channel and the second cover supply channel; the flow dividing device is arranged at the joint of the first cover supply channel and the flow dividing channel, can block the inlet of the first cover supply channel and provide force in the direction of the flow dividing channel; the cover supplying mechanism is arranged at the outlets of the first cover supplying channel and the second cover supplying channel, comprises a cover storing part and a lifting mechanism, and is connected with the outlets of the first cover supplying channel and the second cover supplying channel in an initial state of the cover storing part and can be driven by the lifting mechanism to move up and down. Through the setting of diverging device, can divide into two with a play lid passageway and supply the lid passageway, use this to supply the lid device can realize that a reason lid machine satisfies double-end spiral cover machine and supplies the lid demand.

Description

Cover supplying device

Technical Field

The utility model relates to the technical field of packaging, in particular to a cover supplying device.

Background

The cap screwing machine is equipment for screwing a cap on a packaging container, is one of important equipment in the field of packaging machinery, and generally consists of a cap arranging device, a cap supplying device and a cap screwing device, wherein the cap arranging device is used for arranging the caps and then transmitting the caps to a rotating device through the cap supplying device for cap screwing operation. In order to improve the cap screwing efficiency, the prior art generally adopts a double-head cap screwing machine, namely, two cap screwing devices are adopted to simultaneously perform cap screwing operation.

When the technical scheme is implemented, the inventor finds that each cover screwing device of the double-head cover screwing machine needs to correspond to one cover arranging device and one cover supplying device, so that the structure of the equipment is complex, and the cost is increased.

Disclosure of Invention

The utility model aims to provide a cover supplying device for solving the technical problem that an existing double-head cover screwing machine is complex in structure.

In order to solve the technical problems, the utility model is realized by adopting the following technical scheme.

A cover supply device comprising:

the cap outlet passage 100 is constructed in a slope structure;

a first cover supplying channel 200 connected with the bottom end of the cover outlet channel 100;

a second cover supply channel 300 disposed in parallel with the first cover supply channel 200;

a diverting passage 400 vertically connected between the first cover supplying passage 200 and the second cover supplying passage 300; and

the flow dividing device 500 is disposed at the connection between the first cover supplying channel 200 and the flow dividing channel 400, and comprises a blocking mechanism 510 and a flow dividing mechanism 520, wherein the blocking mechanism 510 has a blocking portion, and when the blocking portion moves from the first position to the second position, the inlet of the first cover supplying channel 200 can be blocked, and at this time, the flow dividing mechanism 520 can provide a force in the direction of the flow dividing channel 400.

Further, the cover supplying mechanism 600 is further included, the cover supplying mechanism 600 is disposed at the outlets of the first cover supplying channel 200 and the second cover supplying channel 300, and includes a cover storing portion 610 and a lifting mechanism 620, where the cover storing portion 610 is engaged with the outlets of the first cover supplying channel 200 and the second cover supplying channel 300 in an initial state, and can be driven by the lifting mechanism 620 to move up and down.

Further, the first cover supplying channel 200, the second cover supplying channel 300 and the shunt channel 400 are all closed cavity structures, an air inlet is formed at one end of the inlet of each cavity structure, air outlets are distributed on the upper surface of each cavity structure along the conveying direction of the cover, and the width of each air outlet is gradually reduced along the conveying direction of the cover.

Further, the cover blocking assemblies 700 are disposed above the first cover supplying channel 200, the second cover supplying channel 300 and the flow dividing channel 400, the cover blocking assemblies 700 include three blocking strips 710 disposed above each channel, the three blocking strips 710 are connected to each channel through a mounting frame 720, the mounting frame 720 is configured into a door-shaped structure, and the three blocking strips 710 are respectively connected to a top cross bar 721 and two side uprights 722 of the mounting frame 720.

Further, three of the bars 710 are connected to the top cross bar 721 and the two side columns 722 by pin 723, respectively, and fixed by locking bolts.

Further, the blocking mechanism 510 includes an actuating mechanism 511 and a baffle 512, where the baffle 512 is used as the blocking portion to block and release the inlet of the first cover supplying channel 200 under the driving of the actuating mechanism 511; the flow dividing mechanism 520 is an air outlet pipe disposed at one side of the first cover supplying channel 200, and the air outlet direction of the air outlet pipe faces the inlet of the flow dividing channel 400, and controls the on-off of the air flow through an electromagnetic valve.

Compared with the prior art, the utility model has the beneficial effects that:

according to the cover supplying device provided by the utility model, one cover outlet channel can be split into two cover supplying channels through the arrangement of the splitting device, and the cover supplying requirement of the double-head cover rotating machine can be met by using the cover supplying device.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of a structure of a cover supplying device in one embodiment;

FIG. 2 is a schematic diagram of a shunt device connection in one embodiment;

FIG. 3 is an enlarged schematic view of a portion of FIG. 2 at A;

FIG. 4 is a schematic diagram of a connection relationship of a cover supply mechanism in one embodiment;

FIG. 5 is an enlarged schematic view of a portion of FIG. 4 at B;

FIG. 6 is a schematic view of a first lid supply channel and a lid assembly according to one embodiment;

in the above figures:

100. a cover outlet channel;

200. the first cover supply channel, 210, the cavity, 220, the air inlet, 230 and the air outlet;

300. a second cover supply channel;

400. a shunt channel;

500. the device comprises a flow dividing device 510, a blocking mechanism 511, an actuating mechanism 512, a baffle plate 520 and a flow dividing mechanism;

600. cover supply mechanism, 610, cover storage part, 620, lifting mechanism, 621, lifting cylinder, 622 and connecting plate;

700. cover assembly 710, bars 720, mounts 721, top rail 722, posts 723, pins.

Description of the embodiments

For the purpose of promoting an understanding of the principles and advantages of embodiments of the utility model, reference will now be made in detail to the drawings, in which it is apparent that the embodiments described are some, but not all embodiments of the utility model. 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 to 6, the present embodiment provides a cover supplying device.

The cover supply device includes: the cover outlet channel 100, the first cover supplying channel 200, the second cover supplying channel 300, the flow dividing channel 400, the flow dividing device 500, the cover supplying mechanism 600 and the cover blocking assembly 700.

The cap outlet channel 100 is configured as a slope structure, and the top inlet of the cap outlet channel is connected with the cap outlet of the cap arranging machine.

The first cover supplying channel 200 is horizontally arranged, and the inlet of the first cover supplying channel 200 is connected with the outlet at the bottom end of the cover outlet channel 100.

The second cover supplying channel 300 is disposed in parallel with the first cover supplying channel 200.

The diverting passage 400 is vertically connected between the first cover supplying passage 200 and the second cover supplying passage 300 and communicates with the sides of the first cover supplying passage 200 and the second cover supplying passage 300, respectively.

The flow dividing device 500 is disposed at the connection between the first cover supplying channel 200 and the flow dividing channel 400, and includes a blocking mechanism 510 and a flow dividing mechanism 520, where the blocking mechanism 510 has a blocking portion, and when the blocking portion moves from the first position to the second position, the blocking portion can block the inlet of the first cover supplying channel 200, and at this time, the flow dividing mechanism 520 can provide a force in the direction of the flow dividing channel 400.

The blocking mechanism 510 includes an actuating mechanism 511 and a baffle 512, where the baffle 512 serves as the blocking portion to block and release the inlet of the first cover supply channel 200 under the driving of the actuating mechanism 511.

In this embodiment, an air cylinder is adopted as the actuating mechanism 511, the air cylinder is disposed vertically to the first cover supply channel 200 in a horizontal direction, a piston rod of the air cylinder extends in a direction away from the first cover supply channel 200, the baffle 512 is also disposed vertically to the first cover supply channel 200 and is connected to the piston rod of the air cylinder, and the extension and retraction of the piston rod drives the baffle 512 to move between the first position and the second position, so as to block and release the inlet of the first cover supply channel 200.

The flow dividing mechanism 520 is an air outlet pipe disposed at one side of the first cover supplying channel 200, and the air outlet direction of the air outlet pipe faces the inlet of the flow dividing channel 400, and controls the on-off of the air flow through an electromagnetic valve.

When the baffle 512 moves to the second position, the inlet of the first cover supplying channel 200 is blocked, at this time, the electromagnetic valve is opened, the air outlet pipe blows air in the direction of the flow dividing channel 400, and the barrel cover is blocked by the baffle 512 to blow air to the second cover supplying channel 300 through the flow dividing channel 400.

The cover supplying mechanism 600 is disposed at the outlets of the first cover supplying channel 200 and the second cover supplying channel 300, and comprises a cover storing portion 610 and a lifting mechanism 620, wherein the cover storing portion 610 is engaged with the outlets of the first cover supplying channel 200 and the second cover supplying channel 300 in an initial state, and can be driven by the lifting mechanism 620 to move up and down, so as to convey the cover to the cover taking position of the cover screwing device.

In this embodiment, the cover storage portion 610 is a block-shaped member, and the upper surface of the block-shaped member is provided with an open circular arc groove, and the opening of the circular arc groove is in butt joint with the outlets of the first cover supply channel 200 and the second cover supply channel 300.

The lifting mechanism 620 includes a lifting cylinder 621 and a connection plate 622, wherein the lifting cylinder 621 is installed at the side edges of the first and second cover supply passages 200 and 300, and piston rods thereof protrude downward and are connected with the block member through the connection plate 622.

In this embodiment, the first cover supplying channel 200, the second cover supplying channel 300 and the flow dividing channel 400 have the same structure and are all closed cavity structures.

Taking the first cover supply channel 200 as an example, the first cover supply channel 200 includes a cavity 210, an air inlet 220 is disposed at one end of an inlet of the cavity 210, air outlets 230 are disposed on an upper surface of the cavity 210 along a conveying direction of the cover, and a width of the air outlets 230 is gradually reduced along the conveying direction of the cover.

The air inlet 220 is connected with an air source, and air flow is discharged from the air outlet 230 on the upper surface of the cavity 210, so as to blow the barrel cover on the upper surface of the cavity 210 to move forward.

A cover blocking assembly 700 is arranged above the first cover supplying channel 200, the second cover supplying channel 300 and the diversion channel 400.

The cover assembly 700 includes three bars 710 disposed above each channel, and three bars 710 are connected to each channel through a mounting frame 720, the mounting frame 720 is configured as a door-shaped structure, and the three bars 710 are respectively connected to a top cross bar 721 and two side uprights 722 of the mounting frame 720.

The barrier strips 710 extend along the length direction of the first cover supply channel 200, the second cover supply channel 300 and the diversion channel 400, and the three barrier strips 710 block the top surface and the two side surfaces above the channel to prevent the barrel cover on the channel from being blown away by the air flow.

In this embodiment, three barrier strips 710 are respectively connected with the top cross bar 721 and the two side columns 722 through a pin 723, and are fixed through locking bolts, so that the size of the surrounding space of the three barrier strips 710 can be adjusted, and the barrel covers compatible with different sizes can be realized.

The working principle of the cover supplying device provided by the embodiment is as follows:

the barrel covers sorted by the manager cover machine slide from the top end to the bottom end of the cover outlet channel 100, at this time, the baffle 512 is at the first position, i.e. avoids the inlet of the first cover supplying channel 200, the first barrel cover enters the first cover supplying channel 200, at this time, the actuator 511 drives the baffle 512 to move to the second position, the inlet of the first cover supplying channel 200 is blocked, the second barrel cover is blocked at the inlet of the flow dividing channel 400, at this time, the electromagnetic valve is opened, the air outlet pipe blows air towards the direction of the flow dividing channel 400, and the second barrel cover blocked by the baffle 512 blows air towards the second cover supplying channel 300 through the flow dividing channel 400.

The barrel cover entering the first cover supplying channel 200 or the second cover supplying channel 300 moves until the cover supplying mechanism 600 enters the cover storing portion 610, at this time, the lifting cylinder 621 drives the cover storing portion 610 to rise to the cover taking position of the cover screwing device, and when the cover screwing device takes the barrel cover in the cover storing portion 610 away, the lifting cylinder 621 drives the cover storing portion 610 to reset.

In the description of the present application, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present application and to simplify the description, and do not indicate or imply that the devices or elements 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 application. 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.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A cover supply device, comprising:

a cap outlet channel (100) configured as a ramp structure;

a first cover supply channel (200) connected with the bottom end of the cover outlet channel (100);

a second cover supply passage (300) disposed in parallel with the first cover supply passage (200);

a shunt channel (400) vertically connected between the first cover supply channel (200) and the second cover supply channel (300); and

the flow dividing device (500) is arranged at the joint of the first cover supply channel (200) and the flow dividing channel (400) and comprises a blocking mechanism (510) and a flow dividing mechanism (520), the blocking mechanism (510) is provided with a blocking part, when the blocking part moves from a first position to a second position, the inlet of the first cover supply channel (200) can be blocked, and at the moment, the flow dividing mechanism (520) can provide force to the direction of the flow dividing channel (400).

2. The cover supply device according to claim 1, further comprising a cover supply mechanism (600), wherein the cover supply mechanism (600) is disposed at the outlets of the first cover supply channel (200) and the second cover supply channel (300), and comprises a cover storage part (610) and a lifting mechanism (620), and the cover storage part (610) is engaged with the outlets of the first cover supply channel (200) and the second cover supply channel (300) in an initial state and can be lifted and lowered under the driving of the lifting mechanism (620).

3. The cover supplying device according to claim 1, wherein the first cover supplying channel (200), the second cover supplying channel (300) and the flow dividing channel (400) are of a closed cavity structure, one end of an inlet of the first cover supplying channel is provided with an air inlet, the upper surface of the cavity structure is provided with air outlets along the conveying direction of the cover, and the width of the air outlets is gradually reduced along the conveying direction of the cover.

4. A cover supply device according to claim 3, wherein cover blocking assemblies (700) are arranged above the first cover supply channel (200), the second cover supply channel (300) and the shunt channel (400), the cover blocking assemblies (700) comprise three blocking strips (710) arranged above each channel, the three blocking strips (710) are connected to each channel through a mounting frame (720), the mounting frame (720) is in a portal structure, and the three blocking strips (710) are respectively connected to a top cross rod (721) and two side stand columns (722) of the mounting frame (720).

5. The cover supply device according to claim 4, characterized in that three of the bars (710) are connected to the top cross bar (721) and the two side posts (722) by means of pins (723), respectively, and are fixed by means of locking bolts.

6. The cover supply device according to claim 1, wherein the blocking mechanism (510) comprises an actuating mechanism (511) and a baffle plate (512), and the baffle plate (512) serves as the blocking part to block and release the inlet of the first cover supply channel (200) under the driving of the actuating mechanism (511); the flow dividing mechanism (520) is an air outlet pipe arranged on one side of the first cover supply channel (200), the air outlet direction of the air outlet pipe faces to the inlet of the flow dividing channel (400), and the on-off of air flow is controlled through an electromagnetic valve.