CN112250005A - Can sealing device - Google Patents

Abstract

The invention relates to the field of can sealing equipment, in particular to a can sealing device, which comprises: a frame; a transport mechanism; a positioning mechanism; a cover mounting mechanism; a capping mechanism; the positioning mechanism includes: the positioning star wheel is rotatably arranged on the rack, a rotating shaft of the positioning star wheel is vertically arranged, the positioning star wheel is positioned right above the working end of the transmission mechanism, the positioning star wheel is in a disc shape, a plurality of grooves are formed in the outer circumference of the positioning star wheel, the grooves are uniformly distributed around the axis of the positioning star wheel, and the grooves can contain and only can contain one glass tank; the first rotary driver is used for driving the positioning star wheel to rotate, so that the glass cans embedded in the grooves sequentially move to the working areas of the upper cover mechanism and the cover sealing mechanism; the guide mechanism is used for abutting against the glass jar positioned in the groove so that the glass jar cannot be separated from the groove. The invention can automatically cover, load and unload the glass jar, has high positioning and fixing functions, and greatly improves the working efficiency compared with manual operation.

Description

Can sealing device

Technical Field

The invention relates to the field of can sealing equipment, in particular to a can sealing device.

Background

Can closing device is the equipment that the glass jar that will be equipped with fruit and fruit juice sealed, need artifical manual putting into the cover glass jar when the product is packed into packaging container and put into the department of sealing processing to still need artifical manual removal glass jar after the processing is accomplished, waste time and energy, cause easily to leak and spill.

Disclosure of Invention

For solving above-mentioned technical problem, provide a can closing device, this technical scheme can full-automatic upper cover, upper and lower glass jar to its location, fixed function are high-efficient, compare manual operation and improved work efficiency greatly.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

the utility model provides a can closing device is applied to and carries out upper cover, closing cap to the glass jar, includes:

a frame;

the glass tank conveying mechanism is used for driving the glass tank to horizontally convey along a track, the glass tank is placed at the working end of the conveying mechanism with the glass tank being opened and facing upwards, and the rack straddles over the conveying mechanism;

the positioning mechanism is arranged on the rack, is arranged beside the transmission mechanism and is used for fixing the glass tank so that the glass tank cannot move and rotate;

the upper cover mechanism is arranged on the rack and beside the positioning mechanism and used for placing the glass tank on the glass tank fixed at the working end of the positioning mechanism;

the sealing mechanism is arranged on the rack, is arranged beside the positioning mechanism and is used for screwing the glass jar fixed at the upper end of the glass jar at the working end of the positioning mechanism;

the positioning mechanism includes:

the positioning star wheel is rotatably arranged on the rack, a rotating shaft of the positioning star wheel is vertically arranged, the positioning star wheel is positioned right above the working end of the transmission mechanism, the positioning star wheel is in a disc shape, a plurality of grooves are formed in the outer circumference of the positioning star wheel, the grooves are uniformly distributed around the axis of the positioning star wheel, and the grooves can contain and only can contain one glass tank;

the first rotary driver is arranged on the rack and used for driving the positioning star wheel to rotate, so that the glass jars embedded in the grooves sequentially move to the working areas of the upper cover mechanism and the cover sealing mechanism;

the guide mechanism is arranged on the rack, is arranged on the outer side of the positioning star wheel and is used for abutting against the glass tank positioned in the groove to enable the glass tank not to be separated from the groove.

Preferably, the conveying device is a belt conveyor.

Preferably, the positioning mechanism includes:

the supporting frames are arranged on two sides of the transmission mechanism symmetrically, and are also arranged;

the guide hole is arranged at one end of the support frame, which is far away from the working surface of the transmission mechanism, and the guide hole is a round hole which is horizontally arranged;

the locating lever, two have, two locating levers levels set up and be parallel to each other, and two locating levers set up respectively in transmission device's both sides, and minimum interval between two locating levers is greater than the diameter of glass jar and is less than 1.1 times of glass jar diameter, is provided with the breach of dodging that is used for dodging the location star gear on the locating lever, and the support frame, locating lever pass through the non-working end fixed connection of support frame and transmission device.

Preferably, the cover mechanism includes:

the bottle cap positioning device comprises a rack, a material moving pipe, a material discharging pipe and a positioning star wheel, wherein the material moving pipe is arranged on the rack and horizontally arranged, the material moving pipe can be used for horizontally moving a bottle cap in the bottle cap in a horizontal posture, one end of the material moving pipe is provided with a material discharging port vertically penetrating through the material moving pipe, one bottle cap can fall from the material discharging port, and the positioning star wheel drives a glass jar to move through a groove so that an opening of the glass jar passes through the position;

the feeding pipe is arranged on the material moving pipe and is vertically arranged, the bottom end of the feeding pipe is communicated with the interior of the material moving pipe, and the feeding pipe can be used for the bottle cap to vertically move in the interior of the material moving pipe in a horizontal posture;

the material pushing plate is arranged in the material moving pipe in a sliding manner;

the first linear driver is used for driving the material pushing plate to move in the material moving pipe, when the output end of the first linear driver is located at the starting point of the stroke, the material pushing plate is located on one side, away from the blanking port, of the outlet portion of the feeding pipe, and when the output end of the first linear driver is located at the end point of the stroke, the material pushing plate is located beside the blanking port and blocks the outlet portion of the feeding pipe.

Preferably, the capping mechanism comprises:

the non-working end of the second linear driver is vertically arranged above the second rack, and the output end of the second linear driver is vertically arranged downwards;

the non-working end of the second rotary driver is vertically arranged below the second linear driver, and the driving shaft of the second rotary driver is vertically arranged up and down;

and the sealing device is fixedly arranged on a driving shaft of the second rotary driver and is in friction connection with the glass cover.

Preferably, the guide mechanism includes:

the baffle is fixedly arranged on the outer side of the positioning star wheel;

and the non-working end of the third linear driver is fixedly and horizontally arranged on one side, close to the cover sealing mechanism, of the rack, the output end of the third linear driver is provided with a rubber plate, and the third linear driver is horizontally arranged.

Compared with the prior art, the invention has the beneficial effects that:

the invention realizes the functions of automatic feeding and automatic discharging through the upper cover device, the positioning mechanism, the transmission mechanism and the guide mechanism, and has the advantage of high production efficiency compared with the prior art, and the specific method comprises the following steps: the glass jar conveys to the positioning mechanism input from the transmission mechanism input, then shifts the glass jar of fixing at the guiding mechanism input through first rotary actuator, places the glass lid in the material loading pipe in the glass jar top automatically via first linear actuator, has realized automatic feeding, puts the function of lid automatically, and the glass jar that the encapsulation was accomplished is shifted to the guiding mechanism output through first rotary actuator by the positioning mechanism, shifts out the production line automatically through transmission mechanism at last.

Drawings

FIGS. 1 and 3 are perspective views from different perspectives of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 4 is a side view of the present invention;

FIG. 5 is a cross-sectional view at section A-A of FIG. 4;

FIG. 6 is a front view of the present invention;

FIG. 7 is a cross-sectional view at section B-B of FIG. 2;

FIG. 8 is an enlarged view of a portion of FIG. 7 at C;

the reference numbers in the figures are:

1-a frame;

2-a transmission mechanism; 2 a-a first linear drive mechanism;

3-a positioning mechanism; 3 a-a support frame; 3a 1-locating holes; 3 b-a positioning rod; 3 c-a positioning mechanism; 3 d-a first rotary drive;

4-a cover-mounting mechanism; 4 a-a feeding pipe; 4 b-material moving pipe; 4b 1-blanking port; 4 c-a first linear driver;

5-a capping mechanism; 5 a-a second linear drive; 5 b-a second rotary drive; 5 c-a sealer;

6-a guide mechanism; 6 a-a baffle; 6 b-third linear drive.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1, 2 and 3, a can seaming apparatus,

a frame 1;

the conveying mechanism 2 is used for driving the glass jars to be horizontally conveyed along a track, the glass jars are placed at the working end of the conveying mechanism 2 in a way that the glass jars are opened and face upwards, and the rack 1 straddles over the conveying mechanism 2;

the positioning mechanism 3 is arranged on the rack 1, the positioning mechanism 3 is arranged beside the transmission mechanism 2, and the positioning mechanism 3 is used for fixing the glass tank so that the glass tank cannot move and rotate;

the upper cover mechanism 4 is arranged on the rack 1, the upper cover mechanism 4 is arranged beside the positioning mechanism 3, and the upper cover mechanism 4 is used for placing the glass tank on the glass tank fixed at the working end of the positioning mechanism 3;

the sealing mechanism 5 is arranged on the rack 1, the sealing mechanism 5 is arranged beside the positioning mechanism 3, and the sealing mechanism 5 is used for screwing the glass tank fixed at the upper end of the glass tank at the working end of the positioning mechanism 3;

the positioning mechanism 3 includes:

the positioning star wheel 3c is rotatably arranged on the rack 1, a rotating shaft of the positioning star wheel 3c is vertically arranged, the positioning star wheel 3c is positioned right above the working end of the transmission mechanism 2, the positioning star wheel 3c is in a disc shape, a plurality of grooves are formed in the outer circumference of the positioning star wheel 3c, the grooves are uniformly distributed around the axis of the positioning star wheel 3c, and the grooves can contain and only can contain one glass tank;

the first rotary driver 3d is arranged on the rack 1, and the first rotary driver 3d is used for driving the positioning star wheel 3c to rotate so that the glass cans embedded in the grooves sequentially move to the working intervals of the upper cover mechanism 4 and the cover sealing mechanism 5;

and the guide mechanism 6 is arranged on the rack 1, the guide mechanism 6 is arranged on the outer side of the positioning star wheel 3c, and the guide mechanism 6 is used for abutting against the glass tank positioned in the groove to enable the glass tank not to be separated from the groove.

The working principle of the device is as follows: the conveying mechanism 2 is used for inputting glass jars full of fruit juice and pulp, the conveying mechanism 2 conveys the glass jars from the input end of the conveying mechanism 2 to the positioning star wheel 3c groove below the working end of the upper cover mechanism 4, then the glass covers are placed above the glass jars by the upper cover mechanism 4, the positioning star wheel 3c is driven to rotate through the first rotary driver 3d, so that the glass jars in the positioning star wheel 3c groove are driven to move from the lower part of the working end of the upper cover mechanism 4 to the lower part of the working end of the sealing mechanism 5, the sealing is completed by the sealing mechanism 5, then the positioning star wheel 3c is driven through the first rotary driver 3d again, so that the glass jars which are sealed are driven to be conveyed to the working end of the conveying mechanism 2 from the lower part of the working end of the sealing mechanism 5, and finally the finished glass jars are moved out of the production line by the conveying.

As shown in fig. 1, 2 and 3, the conveying device 2 is a belt conveyor;

the working principle of the belt conveyor is as follows: the glass jars are transported from the input end of the conveyor 2 to the output end of the conveyor 2.

The positioning mechanism 3 shown in fig. 1 and 2 includes:

the number of the supporting frames 3a is multiple, the supporting frames 3a are symmetrically arranged on two sides of the transmission mechanism 2, and the supporting frames 3a are further arranged;

the guide hole is arranged at one end of the support frame 3a far away from the working surface of the transmission mechanism 2, and is a round hole which is horizontally arranged;

locating lever 3b, two have, two locating levers 3b level sets up and be parallel to each other, two locating levers 3b set up the both sides at transmission device 2 respectively, minimum interval between two locating levers 3b is greater than the diameter of glass jar and is less than 1.1 times of glass jar diameter, be provided with on the locating lever 3b and be used for dodging positioning star wheel 3c dodge the breach, support frame 3a, locating lever 3b passes through support frame 3a and transmission device 2's non-working end fixed connection.

The working principle of the positioning mechanism 3 is as follows: the glass jar is horizontally placed on the transmission device 2, and the end with the largest diameter of the glass jar is in friction contact with the positioning mechanism 3, namely, the glass jar cannot move towards the motion track direction of the non-transmission device 2.

As shown in fig. 7, the cover mechanism 4 includes:

the material moving pipe 4b is arranged on the rack 1, the material moving pipe 4b is horizontally arranged, the material moving pipe 4b can be used for horizontally moving bottle caps in the bottle caps in a horizontal posture, one end of the material moving pipe 4b is provided with a blanking port 4b1 which vertically penetrates through the material moving pipe 4b, the blanking port 4b1 can be used for enabling one bottle cap to fall down, and the positioning star wheel 3c drives the glass tank to move through the groove to enable the opening of the glass tank to pass right below the blanking port 4b 1;

the feeding pipe 4a is arranged on the material moving pipe 4b, the feeding pipe 4a is vertically arranged, the bottom end of the feeding pipe 4a is communicated with the interior of the material moving pipe 4b, and the feeding pipe 4a can be used for the bottle cap to vertically move in the interior in a horizontal posture;

the material pushing plate is arranged inside the material moving pipe 4b in a sliding manner;

the first linear driver 4c is used for driving the material pushing plate to move inside the material moving pipe 4b, when the output end of the first linear driver 4c is located at the starting point of the stroke, the material pushing plate is located on one side, away from the blanking port 4b1, of the outlet portion of the feeding pipe 4a, and when the output end of the first linear driver 4c is located at the end point of the stroke, the material pushing plate is located on the side of the blanking port 4b1 and blocks the outlet portion of the feeding pipe 4 a.

The working principle of the upper cover mechanism 4 is as follows: when the glass tank is horizontally placed below the upper cover mechanism 4, the first linear driver 4c drives the push plate to push the glass cover falling on the blanking port 4b1 from the lower part of the feeding pipe 4a to the blanking port 4b1, and the upper cover process is completed.

As shown in fig. 5, the capping mechanism 5 includes:

the non-working end of the second linear driver 5a is vertically arranged above the second rack 1, and the output end of the second linear driver 5a is vertically arranged downwards;

the non-working end of the second rotary driver 5b is vertically arranged below the second linear driver 5a, and the driving shaft of the second rotary driver 5b is vertically arranged up and down;

and a sealing device 5c, wherein the sealing device 5c is fixedly mounted on a driving shaft of the second rotary driver 5b, and the sealing device 5c is in friction connection with the glass cover.

The working principle of the capping mechanism 5 is as follows: the second linear driver 5a is a single-shaft cylinder, the second rotary driver 5b is a servo motor, the second rotary driver 5b rotates rapidly, so that the sealing device 5c has a sealing function, and the working end of the second linear driver 5a drives the second rotary driver 5b to reciprocate up and down, so that the sealing device 5c completes sealing of the glass cover.

As shown in fig. 1, the guide mechanism 6 includes:

the baffle 6a is fixedly arranged on the outer side of the positioning star wheel 3 c;

and the non-working end of the third linear driver 6b is fixedly and horizontally arranged on one side, close to the cover sealing mechanism 5, of the machine frame 1, the output end of the third linear driver 6b is provided with a rubber plate, and the third linear driver 6b is horizontally arranged.

The working principle of the guide mechanism 6 is as follows: the third linear actuator 6b is a single-shaft cylinder, and the working end of the third linear actuator 6b drives the rubber plate to push the glass tank tightly to achieve a fixing effect.

The working principle of the invention is as follows:

firstly, a first linear driving mechanism 2a transmits a glass tank from the input end of a transmission mechanism 2 to the lower part of the working end of an upper cover mechanism 4 and fixes the glass tank through a groove of a positioning star wheel;

step two, the glass cover falls into the material moving pipe 4a from the material feeding pipe 4a, the working end of the first linear driver 2a pushes the glass cover in the material moving pipe 4b out of the material dropping port 4b1, and the glass cover falls on the glass tank;

thirdly, the working end of the first rotary driver 3d rotates to drive the positioning star wheel 3c to rotate horizontally, so that the glass tank covered with the glass cover is driven to be transferred to the lower part of the working end of the cover sealing mechanism 2 from the lower part of the working end of the upper cover mechanism 4, and the working end of the third linear driver 6b drives the rubber plate to tightly abut against the glass tank to be fixed;

fourthly, the positioning mechanism 3 transfers the working end of the glass tank self-sealing mechanism 5 after sealing to the output end of the guide mechanism 6 through a first rotary driver;

and step five, the conveying mechanism 2 conveys the glass cans out of the production line from the output end of the guide mechanism.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. An intelligent processing apparatus for can closures, comprising:

a frame (1);

the glass tank conveying mechanism (2) is used for driving the glass tank to be horizontally conveyed along a track, the glass tank is placed at the working end of the conveying mechanism (2) with the glass tank being opened and upward, and the rack (1) straddles over the conveying mechanism (2);

the positioning mechanism (3) is arranged on the rack (1), the positioning mechanism (3) is arranged beside the transmission mechanism (2), and the positioning mechanism (3) is used for fixing the glass tank so that the glass tank cannot move and rotate;

the upper cover mechanism (4) is arranged on the rack (1), the upper cover mechanism (4) is arranged beside the positioning mechanism (3), and the upper cover mechanism (4) is used for placing the glass tank on the glass tank fixed at the working end of the positioning mechanism (3);

the sealing mechanism (5) is arranged on the rack (1), the sealing mechanism (5) is arranged beside the positioning mechanism (3), and the sealing mechanism (5) is used for screwing the glass tank fixed at the upper end of the glass tank at the working end of the positioning mechanism (3);

characterized in that said positioning means (3) comprise:

the positioning star wheel (3 c) is rotatably arranged on the rack, a rotating shaft of the positioning star wheel (3 c) is vertically arranged, the positioning star wheel (3 c) is positioned right above the working end of the transmission mechanism (2), the positioning star wheel (3 c) is in a disc shape, a plurality of grooves are formed in the outer circumference of the positioning star wheel (3 c), the grooves are uniformly distributed around the axis of the positioning star wheel (3 c), and the grooves can contain and only can contain one glass tank;

the first rotary driver (3 d) is arranged on the rack, and the first rotary driver (3 d) is used for driving the positioning star wheel (3 c) to rotate so that the glass cans embedded in the grooves move to the working intervals of the upper cover mechanism (4) and the cover sealing mechanism (5) in sequence;

the guide mechanism (6) is arranged on the rack, the guide mechanism (6) is arranged on the outer side of the positioning star wheel (3 c), and the guide mechanism (6) is used for abutting against the glass tank positioned in the groove to enable the glass tank not to be separated from the groove.

2. An intelligent processing apparatus for can closures as claimed in claim 1, wherein said conveyor means (2) is a belt conveyor.

3. An intelligent processing apparatus for can closures as claimed in claim 1, wherein said positioning mechanism (3) comprises:

the supporting frames (3 a) are arranged in a plurality in total, the supporting frames (3 a) are symmetrically arranged on two sides of the transmission mechanism (2), and the supporting frames (3 a) are also arranged;

the guide hole (3 a 1) is arranged at one end of the support frame (3 a) far away from the working surface of the transmission mechanism (2), and is a round hole horizontally arranged;

locating lever (3 b), two have, two locating levers (3 b) level sets up and be parallel to each other, two locating levers (3 b) set up the both sides in transmission device (2) respectively, minimum interval between two locating levers (3 b) is greater than the diameter of glass jar and is less than 1.1 times of glass jar diameter, be provided with the breach of dodging that is used for dodging location star gear (3 c) on locating lever (3 b), support frame (3 a), non-working end fixed connection of locating lever (3 b) through support frame (3 a) and transmission device (2).

4. An intelligent processing apparatus for can closures as claimed in claim 1, wherein said upper lid mechanism (4) comprises, as shown in fig. 7:

the bottle cap moving device comprises a moving pipe (4 c) arranged on a rack, the moving pipe (4 c) is horizontally arranged, the moving pipe (4 c) can be used for horizontally moving a bottle cap in the bottle cap moving device in a horizontal posture, one end of the moving pipe (4 c) is provided with a blanking port vertically penetrating through the moving pipe, the blanking port (4 c 1) can be used for enabling one bottle cap to fall down, and a positioning star wheel (3 c) drives a glass tank to move through a groove so that the opening of the glass tank passes right below a blanking port (4 b 1);

the feeding pipe (4 a) is arranged on the material moving pipe (4 b), the feeding pipe (4 a) is vertically arranged, the bottom end of the feeding pipe (4 a) is communicated with the interior of the material moving pipe (4 b), and the feeding pipe (4 a) can be used for enabling the bottle caps to vertically move in the interior of the feeding pipe (4 a) in a horizontal posture;

the material pushing plate is arranged in the material moving pipe (4 b) in a sliding manner;

the first linear driver (4 c) is used for driving the material pushing plate to move in the material moving pipe (4 b), when the output end of the first linear driver (4 c) is located at the starting point of the stroke, the material pushing plate is located on one side, away from the blanking port (4 b 1), of the outlet portion of the feeding pipe (4 a), and when the output end of the first linear driver (4 c) is located at the end point of the stroke, the material pushing plate is located on the side of the blanking port (4 b 1) and blocks the outlet portion of the feeding pipe (4 a).

5. A smart process apparatus for can closures as claimed in claim 1, wherein said capping mechanism (5) comprises:

the non-working end of the second linear driver (5 a) is vertically arranged above the second rack (4 a), and the output end of the second linear driver (5 a) is vertically arranged downwards;

the non-working end of the second rotary driver (5 b) is vertically arranged below the second linear driver (5 a), and the driving shaft of the second rotary driver (5 b) is vertically arranged up and down;

and a sealing device (5 c), wherein the sealing device (5 c) is fixedly arranged on a driving shaft of the second rotary driver (5 b), and the sealing device (5 c) is in friction connection with the glass cover.

6. An intelligent processing apparatus for can closures as claimed in claim 1, wherein said guide mechanism (6) comprises:

the baffle (6 a) is fixedly arranged on the outer side of the positioning star wheel (3 c);

the non-working end of the third linear driver (6 b) is fixed and horizontally arranged on one side, close to the cover sealing mechanism (5), of the rack (1), a rubber plate is installed at the output end of the third linear driver (6 b), and the third linear driver (6 b) is horizontally arranged.

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