CN108996114B - Logistics system - Google Patents

Abstract

The application provides a logistics system, including charge-in system, feeding lift, workstation, ejection of compact lift and discharge system, charge-in system includes the feeding transfer chain, the feeding transfer chain includes a plurality of feeding drive roll, the feeding drive roll includes: the cylinder body is provided with a plurality of annular grooves; the left end shaft is connected to the left end of the cylinder; the right end shaft is connected to the right end of the cylinder body in a shaft mode; the elastic rings are installed in the corresponding annular grooves and are used for preventing the materials to be processed from being damaged. The application provides a logistics system can prevent effectively that the material of treating processing and drive roll from producing collision damage.

Description

Logistics system

Technical Field

The invention relates to a logistics system, in particular to a logistics system.

Background

The logistics system can replace manpower to automatically convey materials, greatly improves the production logistics efficiency, and reduces the labor cost.

The published patent cn201720782193.x discloses a production logistics system comprising: feeding system, feeding lift, workstation, ejection of compact lift and discharge system, feeding system include the feeding transfer chain, and the feeding transfer chain is used for bearing treat the processing material, and will treat the processing material and carry the feeding lift, the feeding transfer chain includes a plurality of feeding drive rolls and a plurality of feeding driven voller, the feeding drive roll with the feeding driven voller is used for bearing treat the processing material. But in the use process, when the material to be processed is conveyed by the feeding conveying line, the material to be processed is easy to collide with the driving roller, so that the material to be processed is damaged.

In summary, how to prevent the collision damage of the material to be processed and the driving roller is a problem that needs to be solved urgently by those skilled in the art.

Disclosure of Invention

The invention aims to provide a logistics system, which solves the problem that when a material to be processed is conveyed by a feeding conveying line, the material to be processed is easy to collide with a driving roller, so that the material to be processed is damaged.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a logistics system, includes charge-in system, feeding lift, workstation, ejection of compact lift and ejection of compact system, charge-in system includes the feeding transfer chain, the feeding transfer chain includes a plurality of feeding drive roll, the feeding drive roll includes: the cylinder body is provided with a plurality of annular grooves; the left end shaft is connected to the left end of the cylinder; the right end shaft is connected to the right end of the cylinder body in a shaft mode; a plurality of elastic ring, a plurality of elastic ring are installed in corresponding ring channel, elastic ring is used for preventing to bruise the material of treating processing, elastic ring includes the body, the inside of body is equipped with annular slot and annular concave arc groove, the annular slot with annular concave arc groove intercommunication annular side groove has all been seted up on two lateral walls in annular concave arc groove, the upper shed and the external intercommunication in annular concave arc groove.

Further, the side groove comprises a bottom groove part and a bent groove part which are sequentially communicated, and an opening of the bent groove part is communicated with the annular concave arc groove.

Furthermore, both ends of the upper part of the body are provided with lugs for connection.

Further, the upper end face both ends of body all are equipped with the lamella body, the lamella body is including lower lamella body and last lamella body, lower lamella body slant to the body outside extends, go up the lamella body to the outside of body with the up end of body extends outward.

Furthermore, the lower flap body includes root and extension, the extension is connected the front end of root, be equipped with the bellying on the downside of extension, the front end of extension is equipped with the tongue, a plurality of microgroove has been seted up to the front end of tongue, forms the tongue between two adjacent microgrooves.

Furthermore, the upper petal body comprises a bearing surface, the bearing surface is arranged at the upper end of the upper petal body, and a plurality of concave pits are arranged on the bearing surface.

Furthermore, go up the lamella body and still include flange portion and side cambered surface, flange portion sets up the front end outside of going up the lamella body, the side cambered surface sets up the middle part outside of going up the lamella body.

Furthermore, the petal body further comprises a concave surface, the upper end of the concave surface is connected with the inner end of the bearing surface, and the lower end of the concave surface is connected with the opening edge of the annular concave arc groove of the elastic ring.

According to the technical scheme, the invention has the following beneficial effects:

according to the invention, the plurality of elastic rings are arranged on the barrel body of the driving roller, and the elastic rings can generate elastic deformation when being pressed, so that the materials to be processed are effectively prevented from colliding and damaging with the driving roller, and the production cost is reduced.

The invention is described in further detail below with reference to the figures and the detailed description.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial structural schematic diagram of fig. 1.

Fig. 3 is a schematic cross-sectional structure of the elastic ring of the present invention.

Fig. 4 is a partial structural schematic diagram of fig. 3.

Fig. 5 is a partial structural view of fig. 4.

Description of reference numerals: the left end shaft 10, the cylinder body 20, the annular groove 21, the elastic ring 30, the body 31, the annular groove 32, the annular concave arc groove 33, the side groove 34, the bottom groove 341, the curved groove 342, the lug 35, the flap body 36, the lower flap body 361, the root 3611, the convex part 3612, the tongue 3613, the tongue 36131, the small groove 36132, the upper flap body 362, the bearing surface 3621, the flange part 3622, the side arc 3623, the concave surface 363, the fillet 37 and the right end shaft 40.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

The present invention is further described with reference to fig. 1 to 5, and a logistics system shown in fig. 1 includes a feeding system, a feeding elevator, a workbench, a discharging elevator and a discharging system, wherein the feeding system includes a feeding conveyor line, the feeding conveyor line includes a plurality of feeding driving rollers, and the feeding driving rollers include: a barrel 20, a left end axle 10, a right-hand member axle 40 and a plurality of elastic ring 30, be equipped with a plurality of ring channel 21 on the barrel 20, left end axle 10 is connected at the left end of barrel 20, and right-hand member at the barrel 20 is connected to right-hand member axle 40, and a plurality of elastic ring 30 is installed in corresponding ring channel 21, and elastic ring 30 is used for preventing to bruise the material of treating processing.

In this embodiment, as shown in fig. 2 and 3, the elastic ring 30 includes a body 31, the inside of the body 31 is provided with an annular groove 32 and an annular concave arc groove 33, the annular groove 32 is communicated with the annular concave arc groove 33, two side walls of the annular concave arc groove 33 are provided with annular side grooves 34, an upper opening of the annular concave arc groove 33 is communicated with the outside, the side grooves 34 include a bottom groove portion 341 and a curved groove portion 342 which are communicated in sequence, an opening of the curved groove portion 342 is communicated with the annular concave arc groove 33, and the upper portion of the elastic ring 30 is deformed when the material to be processed is conveyed.

In this embodiment, the elastic ring 30 is divided into two halves in the radial direction, that is, the elastic ring 30 is divided into two halves, which facilitates the installation of the elastic ring 30.

In this embodiment, as shown in fig. 3, two ends of the upper portion of the body 31 are provided with lugs 35 for connection, and the lugs 35 are fixed on the cylinder 20 by screws, so as to fix the body 31 on the cylinder 20, and make the elastic rings 30 spliced into a complete circle.

In this embodiment, as shown in fig. 2 and 3, the flap bodies 36 are disposed at two ends of the upper end surface of the body 31, each flap body 36 includes a lower flap body 361 and an upper flap body 362, the lower flap body 361 extends to the outside of the body 31 in an inclined manner, the upper flap body 362 extends to the outside of the body 31 and the outer side of the upper end surface of the body 31, and the flap bodies 36 can be pressed to generate elastic deformation when the material to be processed is conveyed, so as to perform an elastic buffering function.

In this embodiment, as shown in fig. 3, 4, and 5, the lower flap 361 includes a root 3611 and an extension, the extension is connected to a front end of the root 3611, a protrusion 3612 is disposed on a lower side surface of the extension, the protrusion 3612 can be pressed against the body 31 when the lower flap 361 is pressed to deform, so as to perform an elastic supporting function, a tongue 3613 is disposed at the front end of the extension, a plurality of small grooves 36132 are disposed at the front end of the tongue 3613, and a tongue 36131 is formed between two adjacent small grooves 36132, so that the extension of the lower flap 361 is pressed to deform.

In this embodiment, as shown in fig. 3 and 4, the upper flap body 362 includes a bearing surface 3621, the bearing surface 3621 is disposed at the upper end of the upper flap body 362, and the bearing surface 3621 is provided with a plurality of concave pits for increasing friction force and improving the conveying effect of the driving roller.

In this embodiment, as shown in fig. 3 and 4, the upper flap body 362 further includes a flange portion 3622 and a side arc surface 3623, the flange portion 3622 is disposed on the outer side of the front end of the upper flap body 362, and the side arc surface 3623 is disposed on the outer side of the middle portion of the upper flap body 362, so that the upper flap body 362 is elastically deformed, and plays a role of elastic buffering.

In this embodiment, as shown in fig. 3, the flap body 36 further includes a concave surface 363, an upper end of the concave surface 363 is connected to an inner end of the bearing surface 3621, a lower end of the concave surface 363 is connected to an opening edge of the annular concave arc groove 33 of the elastic ring 30, when the upper flap body 362 of the flap body 36 is pressed to deform, the material to be processed can be pressed against the concave surface 363, so as to increase a bearing area of the elastic ring 30.

In this embodiment, as shown in fig. 3, both ends of the lower portion of the body 31 have rounded corners 37, so that the lower portion of the body 31 is elastically deformed when the elastic ring 30 is pressed.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a logistics system, includes charge-in system, feeding lift, workstation, ejection of compact lift and discharge system, charge-in system includes the feeding transfer chain, the feeding transfer chain includes a plurality of feeding drive roll, its characterized in that, the feeding drive roll includes:

the cylinder body (20), wherein a plurality of annular grooves (21) are arranged on the cylinder body (20);

the left end shaft (10), the left end shaft (10) is connected to the left end of the barrel (20);

a right end shaft (40), wherein the right end shaft (40) is connected to the right end of the barrel body (20);

a plurality of elastic ring (30), a plurality of elastic ring (30) are installed in corresponding ring channel (21), elastic ring (30) are used for preventing to bruise the material of treating processing, elastic ring (30) include body (31), the inside of body (31) is equipped with annular slot (32) and annular concave arc groove (33), annular slot (32) with annular concave arc groove (33) intercommunication all seted up annular side channel (34) on two lateral walls of annular concave arc groove (33), the upper shed and external intercommunication of annular concave arc groove (33).

2. The logistics system of claim 1, wherein the side groove (34) comprises a bottom groove part (341) and a curved groove part (342) which are communicated in sequence, and the opening of the curved groove part (342) is communicated with the annular concave arc groove (33).

3. Logistics system according to claim 1, wherein the body (31) is provided at both upper ends with lugs (35) for connection.

4. The logistics system of claim 1, wherein the body (31) is provided with a flap body (36) at each of two ends of the upper end surface, the flap body (36) comprises a lower flap body (361) and an upper flap body (362), the lower flap body (361) extends obliquely to the outside of the body (31), and the upper flap body (362) extends obliquely to the outside of the body (31) and the upper end surface of the body (31).

5. The logistics system of claim 4, wherein the lower flap body (361) comprises a root (3611) and an extension part, the extension part is connected to the front end of the root (3611), a protrusion part (3612) is arranged on the lower side surface of the extension part, the front end of the extension part is provided with a tongue part (3613), the front end of the tongue part (3613) is provided with a plurality of small grooves (36132), and a tongue piece (36131) is formed between two adjacent small grooves (36132).

6. The logistics system of claim 4 wherein the upper flap body (362) includes a bearing surface (3621), the bearing surface (3621) is disposed at an upper end of the upper flap body (362), and the bearing surface (3621) is provided with a plurality of dimples.

7. The logistics system of claim 6, wherein the upper lobe (362) further comprises a flange portion (3622) and a side arc surface (3623), the flange portion (3622) being disposed outside a front end of the upper lobe (362), the side arc surface (3623) being disposed outside a middle portion of the upper lobe (362).

8. Logistics system according to claim 7, wherein the petals (36) further comprise a concave surface (363), wherein the upper end of the concave surface (363) is connected with the inner end of the bearing surface (3621), and the lower end of the concave surface (363) is connected with the opening edge of the annular concave arc groove (33) of the elastic ring (30).

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