CN112158516A

CN112158516A - Logistics roller conveying assembly line

Info

Publication number: CN112158516A
Application number: CN202010975094.XA
Authority: CN
Inventors: 徐小林
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-16
Filing date: 2020-09-16
Publication date: 2021-01-01

Abstract

The invention discloses a logistics roller conveying assembly line, which structurally comprises a first support, rollers and a second support, wherein the rollers are uniformly distributed between the first support and the second support, the rollers are equidistantly provided with eight or more rollers, and the rollers are driven by matching of chains and chain wheels. According to the invention, through the combined arrangement of the rotating shaft, the annular cylinder, the base body, the channel, the semi-cylinder, the strip groove and the fixing strip, the air bag can be pressed by the dead weight through the direction change of the extrusion plate during rotation, and can also be separated from the pressing of the air bag, so that the air bag can be pressed to exhaust and dry the semi-cylinder, and through resetting and air suction, the sucked gas can be heated by the electric heating wire, so that the dried gas can be conveniently exhausted and acts on the semi-cylinder, the logistics object can be conveyed by the roller, and the phenomenon of slipping of the roller is avoided.

Description

Logistics roller conveying assembly line

Technical Field

The invention relates to the technical field of production lines, in particular to a logistics roller conveying production line.

Background

With the coming of the internet era, the rate of purchasing the whole people on the internet continuously rises, in order to save manpower, the conveying and distribution of logistics objects are clearly carried out through a flow line, and the existing logistics roller conveying flow line has the following defects to be improved due to the incomplete technology:

after beginning spring every year, southern area can get damp out the water phenomenon, south wind day promptly, can make the cylinder of commodity circulation cylinder conveying assembly line comparatively moist, so can take place the phenomenon of skidding at the conveying commodity circulation article, is unfavorable for the transport of commodity circulation article.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a logistics roller conveying production line.

The invention is realized by adopting the following technical scheme: the utility model provides a commodity circulation cylinder conveying assembly line, its structure is including first support, cylinder, second support, the equipartition has the cylinder between first support and second support, the cylinder is the equidistance formula and is provided with eight and more, the cylinder carries out the transmission through the cooperation of chain and sprocket.

The roller comprises a roller body, a rotating shaft and an annular cylinder, wherein the annular cylinder is arranged in the roller body, the rotating shaft penetrates through the annular cylinder, one end of the rotating shaft is connected with the first support through a bearing, and the other end of the rotating shaft is connected with the second support through a bearing;

as a further optimization of the invention, the roller body comprises a base body, channels, semicylinders, elongated grooves and fixing strips, wherein the base body is arranged in an annular structure, the semicylinders and the fixing strips are alternately arranged on the outer circumferential wall surface of the base body, two elongated grooves are formed between every two adjacent semicylinders, the channels are uniformly distributed in the base body, the channels are communicated and correspond to the fixing strips, and the base body is connected with the rotating shaft through an annular cylinder.

As a further optimization of the invention, the fixing strip is internally provided with a tunnel, the middle tunnel of the tunnel is communicated with the channel, and the channels at the two sides face to the semi-cylinder.

Annular section of thick bamboo is including an outer ring section of thick bamboo, a guide ring, an interior ring section of thick bamboo, gasbag group, stripper plate, No. two guide rings, fixing base, an interior ring section of thick bamboo runs through in an outer ring section of thick bamboo and both are the setting of concentric structure, the annular intracavity equipartition that an interior ring section of thick bamboo and an outer ring section of thick bamboo formed has ten groups gasbag groups that are the equidistance formula and set up, gasbag group one end links to each other with the fixing base, and the other end and stripper plate contact, the internal face equipartition of an outer ring section of thick bamboo has a guide ring, an outer wall equipartition of an interior ring section of thick bamboo towards a guide ring has No. two guide rings, stripper plate one end and No. two guide ring clearance fits, and other end clearance fits No. one guide ring, the pivot runs through in an.

As a further optimization of the invention, the outer ring cylinders are provided with through holes, the through holes are communicated with the air bag group, and the through holes are seamlessly communicated with the channel.

As a further optimization of the invention, the extrusion plate comprises a plate body, guide grooves and arc-shaped blocks, the arc-shaped blocks are uniformly distributed on the bottom surface of the plate body, the guide grooves are arranged between two adjacent arc-shaped blocks, the guide grooves are arranged on two sides of the plate body, the guide groove on one side is movably matched with the second guide ring, the guide groove on the other side is movably matched with the first guide ring, and the arc-shaped blocks are contacted with the air bag group.

As a further optimization of the invention, an electric heating wire is arranged in the channel, and the electric heating wire is close to the fixing strip.

Advantageous effects

The roller body is linked through the annular cylinder by driving the rotating shaft to rotate, the outer wall surface of the annular cylinder is changed along with the linkage of the rotating shaft, namely the air bag group and the extrusion plate are displaced, when the extrusion plate rotates clockwise, namely the extrusion plate rotates from degree to degree and rotates clockwise from degree to negative degree, the extrusion plate can press the air bag group under the guiding action of the guide groove, the guide ring I and the guide ring II based on self weight, the air bag group can exhaust air, the air is blown to the tunnel through the through hole and the channel, two openings of the tunnel can face to the semi-cylinder, the air can be blown to the semi-cylinder for drying treatment, and the air is blown to the right side of the roller instead of the top surface of the roller, so that the air cannot be blown to an article, the article can be prevented from being displaced, when the extrusion plate rotates from degree to degree, the air bag group can be kept away from the self weight of the extrusion plate until the extrusion plate is limited by the fixing seat, thereby be convenient for the restoration of gasbag group and breathe in, inspiratory gas can heat through electric heating wire earlier to ensure to blow the gas on the semicircle column for dry gas, electric heating wire has certain micro heat simultaneously and does benefit to and dries the semicircle column.

In summary, compared with the prior art, the rotary shaft, the annular cylinder, the base body, the channel, the semi-cylinder, the strip groove and the fixing strip are combined, the air bag can be pressed by the dead weight through the direction change of the extrusion plate during rotation, the pressing on the air bag can be separated, so that the air bag can be pressed to exhaust air to dry the semi-cylinder, the sucked air can be heated by the electric heating wire through resetting and air suction, the dried air can be conveniently exhausted to act on the semi-cylinder, the logistic objects can be conveyed by the rotary drum, and the phenomenon that the rotary drum slips is avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a logistics roller conveying line according to the invention.

Fig. 2 is a schematic structural view of the drum of the present invention.

Fig. 3 is a schematic cross-sectional view of the drum body according to the present invention.

Fig. 4 is a schematic structural diagram of an enlarged view of a in fig. 3.

Fig. 5 is a schematic view of the internal structure of the annular cylinder of the present invention.

Fig. 6 is a schematic cross-sectional view of the outer ring of the present invention.

Fig. 7 is a schematic view of the structure of the extrusion plate of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

the device comprises a first bracket-1, a roller-2, a second bracket-3, a roller body-001, a rotating shaft-002, an annular cylinder-003, a base-e 1, a channel-e 2, a semi-cylinder-e 3, a long strip-e 4, a fixed strip-e 5, a T-shaped channel-e 51, an outer annular cylinder-v 1, a first guide ring-v 2, an inner annular cylinder-v 3, an air bag group-v 4, a compression plate-v 5, a second guide ring-v 6, a fixed seat-v 7, a through hole-v 11, a plate body-v 51, a guide groove-v 52, an arc block-v 53 and an electric heating wire e 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-7, the present invention provides a technical solution of a logistics roller conveying line: its structure is including first support 1, cylinder 2, second support 3, the equipartition has cylinder 2 between first support 1 and second support 3, cylinder 2 is the equidistance formula and is provided with eight and more, cylinder 2 carries out the transmission through the cooperation of chain and sprocket.

The roller 2 comprises a roller body 001, a rotating shaft 002 and an annular cylinder 003, the annular cylinder 003 is arranged in the roller body 001, the rotating shaft 002 penetrates through the annular cylinder 003, one end of the rotating shaft 002 is connected with the first bracket 1 through a bearing, and the other end of the rotating shaft 002 is connected with the second bracket 3 through a bearing;

roller body 001 is including base member e1, passageway e2, semicolumn e3, rectangular groove e4, fixed strip e5, base member e1 is the loop configuration and sets up, base member e 1's outer circumference wall equipartition has alternate semicolumn e3, fixed strip e5 who sets up, adjacent two form rectangular groove e4 between the convex part of semicolumn e3 and fixed strip e5, the equipartition has passageway e2 in the base member e1, passageway e2 communicates with each other and corresponding with fixed strip e5, base member e1 is connected with pivot 002 through annular cylinder 003.

A T-shaped channel e51 is formed in the fixing strip e5, the middle channel of the T-shaped channel e51 is communicated with a channel e2, and the channels on the two sides face to a semi-cylinder e 3.

The arrangement of the fixing strip e5 can increase the firmness of the semi-cylinder e3, and meanwhile, the fixing strip e5 can also support the article, and meanwhile, the T-shaped channel e51 can face the semi-cylinder e 3.

The T-shaped duct e51 is provided so that two openings can be directed toward the semi-cylinder e3 and the gas can be blown toward the semi-cylinder e3 to perform the drying process.

The arrangement of the long groove e4 enables the opening of the T-shaped channel e51 to face the semi-cylinder e 3.

The annular cylinder 003 comprises an outer annular cylinder v1, a first guide ring v2, an inner annular cylinder v3, an air bag group v4, a pressing plate v5, a second guide ring v6 and a fixed seat v7, the inner annular cylinder v3 penetrates through the outer annular cylinder v1 and the outer annular cylinder v4 are arranged concentrically, ten air bag groups v4 which are arranged equidistantly are uniformly distributed in an annular cavity formed by the inner annular cylinder v3 and the outer annular cylinder v1, one end of the air bag group v4 is connected with a fixed seat v7, the other end of the air bag group v4 is in contact with the pressing plate v5, a first guide ring v2 is uniformly distributed on the inner wall surface of the outer annular cylinder v3 facing the first guide ring v2, one end of the pressing plate v5 is movably matched with the second guide ring v6, the other end of the pressing plate v5 is movably matched with the first guide ring 6, the rotating shaft v 36002 penetrates through the inner annular cylinder v6 and the outer annular cylinder v6 is connected with the outer annular cylinder 6.

The airbag group v4 is provided so as to be able to discharge air when being pressurized and to suck air when being returned.

When the extrusion plate v5 is arranged on the annular cylinder 003 to rotate clockwise, the air bag group v4 can be pressurized based on self weight at 0-90 degrees and 0-90 degrees, so that the air bag group v4 can be conveniently exhausted.

The fixing seat v7 is arranged to limit the extrusion plate v5, so that the air bag group v4 can be conveniently reset, and one side of the air bag group v4 can be fixed.

Through holes v11 are formed in the outer ring cylinder v1, the through holes v11 are communicated with the air bag group v4, and the through holes v11 are communicated with the channel e2 in a seamless mode.

The extrusion plate v5 is including plate body v51, guide way v52, arc piece v53, the bottom surface equipartition of plate body v51 has arc piece v53, adjacent two be equipped with guide way v52 between the arc piece v53, guide way v52 sets up in plate body v51 both sides, and guide way v52 and No. two guide ring v6 clearance fit of one side, guide way v52 and No. one guide ring v2 clearance fit of the other side, arc piece v53 contacts with gasbag group v 4.

The arc-shaped block v53 is arranged to press the air bag group v4, so that the air bag group v4 is pressed to exhaust air, and the air can be exhausted out of the semi-cylinder e3 to be dried.

The guide groove v52 is matched with the first guide ring v2 and the second guide ring v6 to play a role in guiding and limiting the plate body v51, so that the plate body v51 can move conveniently.

An electric heating wire e21 is arranged in the channel e2, and the electric heating wire e21 is close to the fixing strip e 5.

The electric heating wire e21 is arranged to heat and dry the gas sucked by the airbag group v4, so as to ensure that the gas blown onto the semi-cylinder e3 is dry gas, and meanwhile, the electric heating wire e21 has a certain amount of micro heat to be beneficial to drying the semi-cylinder e 3.

The working principle of the invention is as follows: by driving the rotating shaft 002 to rotate, the roller body 001 is linked through the annular cylinder 003, the annular cylinder 003 is linked with the rotating shaft 002, the outer wall surface of the annular cylinder is changed, namely the air bag group v4 and the extrusion plate v5 are displaced, when the extrusion plate v5 rotates 180 degrees clockwise, namely the extrusion plate v5 rotates from 90 degrees to 0 degrees and rotates from 0 degrees to minus 90 degrees clockwise, the extrusion plate v5 can press the air bag group v4 under the guiding action of the guide grooves v52, the first guide ring v2 and the second guide ring v6 based on self weight, the air bag group v4 can exhaust air under pressure, the air is blown to the T-shaped channel e51 through the through hole v11 and the channel e2, two openings of the T-shaped channel e5 can face the semi-circle column e3, the air can be blown to the semi-circle column e3 for drying treatment, and the air is blown to the right side of the roller 2 instead of the top surface of the roller 2, so that the air is not blown to the article, but the displacement of the extrusion plate is avoided when the extrusion plate rotates from 270 degrees to 5 degrees, the dead weight of the extrusion plate-v 5 can be far away from the air bag group-v 4 until the dead weight is limited by the fixed seat-v 7, so that the air bag group-v 4 can be reset and sucked conveniently, sucked air can be heated by the electric heating wire e21 firstly, and the air blown on the semi-cylinder e3 is ensured to be dry air, and meanwhile, the electric heating wire e21 has certain micro heat to be beneficial to drying the semi-cylinder e 3.

In summary, the technical progress obtained by the invention compared with the prior art is as follows: according to the invention, through the combined arrangement of the rotating shaft, the annular cylinder, the base body, the channel, the semi-cylinder, the strip groove and the fixing strip, the air bag can be pressed by the dead weight through the direction change of the extrusion plate during rotation, and can also be separated from the pressing of the air bag, so that the air bag can be pressed to exhaust and dry the semi-cylinder, and through resetting and air suction, the sucked gas can be heated by the electric heating wire, so that the dried gas can be conveniently exhausted and acts on the semi-cylinder, the logistics object can be conveyed by the roller, and the phenomenon of slipping of the roller is avoided.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a commodity circulation cylinder conveying assembly line, its structure is including first support (1), cylinder (2), second support (3), the equipartition has cylinder (2) between first support (1) and second support (3), cylinder (2) are equipped with eight and above, its characterized in that:

the roller (2) comprises a roller body (001), a rotating shaft (002) and an annular cylinder (003), the annular cylinder (003) is arranged in the roller body (001), the rotating shaft (002) penetrates through the annular cylinder (003), and the rotating shaft (002) is connected with the first support (1) and the second support (3);

roller body (001) is including base member (e1), passageway (e2), semicylinder (e3), rectangular groove (e4), fixed strip (e5), the equipartition has alternate semicylinder (e3), fixed strip (e5) that set up outside base member (e1), adjacent two form rectangular groove (e4) between semicylinder (e3), the equipartition has communicating passageway (e2) with fixed strip (e5) in base member (e1), base member (e1) is connected with pivot (002) through ring cylinder (003).

2. The logistics drum conveying line of claim 1, wherein: the fixed strip (e5) is internally provided with a T-shaped channel (e51) communicated with the channel (e 2).

3. The logistics drum conveying line of claim 1, wherein: the annular cylinder (003) comprises an outer annular cylinder (v1), a first guide ring (v2), an inner annular cylinder (v3), an air bag group (v4), a squeezing plate (v5), a second guide ring (v6) and a fixed seat (v7), wherein the inner annular cylinder (v3) penetrates through the outer annular cylinder (v1), the air bag group (v4) is uniformly distributed in an annular cavity formed by the inner annular cylinder (v3) and the outer annular cylinder (v1), one end of the air bag group (v4) is connected with the fixed seat (v7), the other end of the air bag group is in contact with the squeezing plate (v5), the first guide ring (v2) is uniformly distributed on the outer annular cylinder (v1), the second guide ring (v6) is uniformly distributed on the inner annular cylinder (v3), the squeezing plate (v5) is matched with the second guide ring (v6) and the first guide ring (v2), the inner annular cylinder (002) penetrates through the outer annular cylinder (v3), and the base (1) penetrates through the outer annular cylinder (v 368747).

4. The logistics roller conveying line of claim 3, wherein: the outer ring cylinders (v1) are provided with through holes (v11) communicated with the air bag groups (v4), and the through holes (v11) are communicated with the channel (e 2).

5. The logistics roller conveying line of claim 3, wherein: the pinch plate (v5) is including plate body (v51), guide way (v52), arc piece (v53), plate body (v51) equipartition has arc piece (v53), adjacent two be equipped with guide way (v52) with plate body (v51) integrated structure between arc piece (v53), guide way (v52) of plate body (v51) both sides respectively with No. two lead ring (v6), lead ring (v2) cooperation, arc piece (v53) and gasbag group (v4) contact.

6. The logistics drum conveying line of claim 1, wherein: an electric heating wire (e21) is arranged in the channel (e2), and the electric heating wire (e21) is close to the fixing strip (e 5).